Acquired - Novo Nordisk (Ozempic)
Episode Date: January 22, 2024Last year Novo Nordisk, the Danish pharmaceutical company behind Ozempic and Wegovy, overtook LVMH to become Europe’s most valuable company. And the pull for Acquired to finally tackle heal...thcare (18% of US GDP!) became too strong for us to resist. While we didn’t know much about Novo Nordisk before diving in, our first thought was, “wow, seems like these new diabetes and obesity drugs mean serious trouble for big insulin companies.”And then… we realized that Novo Nordisk IS the big insulin company. And in a story befitting of Steve Jobs and Apple, they’d just disrupted themselves with the drug equivalent of an iPhone moment. Once we dug further, we quickly realized this company has it all: an incredible 100+ year history filled with Nobel Prizes, bitter personal rivalries, board room dramas, a generation-defining silicon valley innovation, lone voices persevering against all odds — and oh yeah, the world’s largest charitable foundation at its helm. Tune in for one incredible story!Sponsors:ServiceNow: https://bit.ly/acqsnaiagentsHuntress: https://bit.ly/acqhuntressVanta: https://bit.ly/acquiredvantaMore Acquired!:Get email updates with hints on next episode and follow-ups from recent episodesJoin the SlackSubscribe to ACQ2Merch Store!Links:Chart: US Healthcare Spend by CategoryChart: US Distribution and Reimbursement System (for pharmaceutical drugs)Chart: Insulin Supply ChainYouTube Talk: What People Get Wrong about the Finances of the Drug IndustryAlex Telford: The pharma industry from Paul Janssen to today: why drugs got harder to develop and what we can do about itOut-of-Pocket Health: Obesity DrugsOut-of-Pocket Health: US Healthcare System ProblemsAll episode sourcesCarve Outs:Noxgear Tracer 2 running vestDrops of GodWool by Hugh HoweyMere Mortals at San Francisco BalletBlackberryNote: Acquired hosts and guests may hold assets discussed in this episode. This podcast is not investment advice, and is intended for informational and entertainment purposes only. You should do your own research and make your own independent decisions when considering any financial transactions.
Transcript
Discussion (0)
All right, first episode back. Let's see if I can do this sleep deprived.
Oh, you and me both, man.
Who got the truth? Is it you? Is it you? Is it you? Who got the truth now? Is it you? Is it you? Is it you? Sit me down, say it straight.quired, the podcast about great companies and the
stories and playbooks behind them. I'm Ben Gilbert.
I'm David Rosenthal.
And we are your hosts. Today's episode is on the company behind these sensational diabetes
and weight loss drugs, Ozempic and WeGoV. The company is Novo Nordisk. Now, when I first
learned about Ozempic a few years ago, I thought, of course, this is going to be amazing for a lot
of people and could also completely destroy the market for insulin. Those insulin companies better
watch out. But here is the fascinating thing, listeners. Novo Nordisk is the company behind
insulin, or at least one of the few big ones.
Now, you might say, well, that's okay because they're probably a big pharmaceutical company
that's, you know, very diversified with lots of different drugs. Nope. No. Novo Nordisk is unique
in that the vast majority of their revenue is concentrated in the category of metabolic health.
They have been the insulin and diabetes company for the last 100 years. And perhaps even more surprising, this pharma giant
is unique in that they are owned and controlled by a non-profit foundation. The stats around weight,
diabetes, and its impact on our society are staggering. There are 38 million Americans with
diabetes. That's one in 10 people. Globally,
that number is over 500 million with the disease. Diabetes costs the U.S. alone more than $327
billion a year. And on the other side of things, in the weight category, around a billion people
suffer from obesity worldwide. A billion, including 40% of the U.S. population. If you expand that from obesity to
overweight, 75% of Americans are technically overweight. It is really hard to imagine a
bigger market to go after, which is why Novo Nordisk has become Europe's largest company,
surpassing even LVMH last year, David. Yeah, it's wild. I mean, there are no other disease and drug categories besides
diabetes and obesity that this could be possible to have a company of this size to have a pharma
giant pretty much just focused on this one area. Like this is the Hermes of the pharma industry.
Yeah. So why is today in the early 2020s the moment in human history for these new GLP-1 drugs? The crazy thing
is, semaglutide, the molecule in Ozempic and Wegovy, was pioneered back by Novo Nordisk with
the first trial in 2008 for type 2 diabetes treatment. And it was built on research started
in the early 90s. But here we are in 2023, almost three decades later, talking about it as a weight
loss drug that
sort of magically appeared out of nowhere, or that's at least the public perception of it,
incredibly, the fact that GLP-1 drugs could be used to reduce food intake was actually discovered
way back in the mid-90s in the first sort of scientific publication about it. But only in
2021 did we finish the clinical trials that truly show
how effective it can be. And as we'll see, that's just the tip of the iceberg. I mean,
this company is 100 years old. The history goes way back and is way more interesting than I think
just about anybody knows. Yep. Pharmaceuticals is without a doubt the most complex industry that we
have ever studied. So to fully understand Novo Nordisk,
we need to go back to a simpler time before the Food and Drug Administration, before all this industry consolidation and healthcare oligopolies, before there were treatments for everything we
take for granted today, antibiotics, vaccines for polio, tetanus, measles, mumps, you name it.
That is where we will start our story. If you want to know every time an episode drops, you can sign up at acquired.fm slash email.
These will also contain hints at what the next episode will be and follow-up facts from previous episodes when we learn new information.
Come talk about this episode with us after listening at acquired.fm slash slack.
And if you want more from David and I, you should check out our second show, ACQ2, where we interview founders, investors, and experts, often as follow-ups to the topics
on these episodes. So with that, this show is not investment advice. David and I may have
investments in the companies we discuss, and this show is for informational and entertainment
purposes only. David, where are we starting our story? Well, we start in 1921, over 100 years ago, in Toronto, Canada, with the discovery and
extraction of the pancreatic hormone insulin by a laboratory group at the University of
Toronto Medical School.
Insulin, of course, as most of you know, regulates the absorption of glucose from the blood into
the body, and it's the main anabolic hormone in most, if not all, animals in
the world. Insufficient insulin production in the body, of course, leads to the disease diabetes.
So this group, if you could call it that, at the University of Toronto is comprised of the
physician Frederick Banting and the medical student, his assistant, Charles Best, along with a chemist
and the head of the laboratory there and assistant medical school dean, John McLeod.
Now, there's a whole bunch of controversy around who actually deserves credit for the discovery of
insulin. The historical consensus at this point now being that it really was Banting and Best who
did all the work. But nonetheless, two years later, when the Nobel Committee awards them the 1923
Nobel Prize in Physiology or Medicine for the discovery of insulin, it is Banting and McLeod
who get the award, not Best. This will come back up in a minute.
Yeah. And to set some context for the time period here, 1921, the public is not aware of what
insulin is. The public is, however, aware of what type 1 diabetes is. This is the juvenile form of
diabetes. Only 5% of diabetes sufferers have type 1 today. But back then, this was the
dominant form of diabetes. And it was families whose kids had a death sentence, and there was
basically nothing that could be done. And there were lots of rumors of people trying to figure
out what substances you could inject or eat or anything to cure this sort of mysterious, horrible way to
die. And people were so convinced in the late teens and early 20s that scientists were on the
verge of a breakthrough that the common wisdom was to go on a diet of like 200 to 500 calories a day
and starve yourself so that you could live long enough, even though you had a
terrible quality of life, you could live the months or couple of years long enough when the treatment
did arrive to finally get it. I mean, we can't overstate how important this was and how terrible,
awful diabetes was. I mean, it was truly a death sentence. That treatment that you were referring
to, that was the official American and globally accepted treatment for diabetes. It was literally called the starvation
diet, and it was just attempt to prolong your life as long as possible. But you are going to die
unless a treatment is found. So when we say that this group won the Nobel Prize in 1923,
this isn't just like a Nobel Prize. This is one of,
if not the most important advance in all of modern medicine that they're discovering here.
I mean, we're just not that many decades after snake oil salesmen, patent medicine. We talked
on the Standard Oil episode about John D. Rockefeller's father literally selling snake
oil. And that's just barely in the rear
view mirror. This is one of the earliest breakthroughs in modern science. We were still
years away from antibiotics and certainly decades away from the popularization of antibiotics as a
treatment. So this was the big breakthrough. Yep. All right. So what did Bantic and Best do?
So scientists had known, even going back to the 1800s, that diabetes was caused by the
misfunctioning of some type of hormone that was created in the pancreas. But until Toronto,
nobody had been able to actually isolate what that hormone was, let alone extract it.
And to put a finer point on it, Banting and Best didn't even know what the hormone was. Even when
they did figure out what to extract, they thought it was sort of this soup of a
bunch of different chemicals mixed together.
They wouldn't figure out for years and years and years, oh, this is like one very pure
specific hormone that we are isolating here.
So by experimenting with dogs and dog pancreases, they're able to extract something that comes
to be known as insulin and not only extract it,
they then experiment with it and inject it into human diabetes patients who are at like severe
end of life stages. And miracle, like the human body is able to use this extract from dog
pancreases and these patients have like miraculous recoveries.
Yeah. I spent a bunch of time reading this book Breakthrough by Thea Cooper and Arthur
Ainsberg, and they go way into this. Basically, this team was the first one to figure out you
could target the pancreatic islets and isolate the extracts in a relatively pure form. And,
you know, pure by their standards, not certainly by today's standards.
But you're right, totally crazy
extracting from these dogs
and injecting in humans
in extremely limited quantities.
Once they figured it out,
it was still hard to then go from there
to like getting it to people
because they're like, well, okay,
we did this thing that kind of worked once
from like one dog into one person.
So where do we go from here?
And importantly, this new insulin
substance, while it is a miracle, it's not a cure. Injecting patients with it doesn't magically
restart production of insulin in their own pancreases or cure the disease. It only works
until your body uses it all up, which is pretty quickly.
So these diabetes patients, they finally have a new lease on life, but it's kind of also just that, like a lease.
In order for them to survive, they need to regularly inject an appropriate amount of
insulin.
And by regular basis, especially in these early days, that's like every couple hours.
And you can imagine the incredible high wire act in the early days where they've
extracted from literally one dog. They've kind of written down the process. Strangely enough,
somewhere along the way, the process was forgotten. Someone else had to replicate it.
And then they took his notes, combined them with the original researchers,
and then figured out a path forward. I mean, we discovered the process for refining insulin enough to put it into humans,
and then lost it, and then found it again. This was the state of medical science. And so you have
people ringing off the hook, newspapers reporting, the breakthrough is here, the breakthrough is here,
and they've got single digits or dozens of vials of usable insulin, each of which need to be
injected into a single patient every few hours
in Toronto. So there's not enough to go around. The path forward is super unclear.
And this is foreshadowing a little bit, but the era that we're in here in 1921,
there is a firewall between industry and medical science. And it was perceived to be unethical
to make money on taking your medical breakthroughs
and sort of turning them into companies.
And so there's this extreme culture at the University of Toronto around we have to protect
anyone from making too much money off this thing.
So we got to be really careful and potentially even slow down its development and be really
thoughtful about how we distribute it to the world so that nobody takes it and makes too much money.
Yeah, Banting and Best and McLeod aren't going to go,
you know, today they would go like start a company,
you know, around this.
Like that's not going to happen back then.
But all of a sudden the world needs a lot of this animal insulin
and in a supply chain that can't go down
because once you start patients on this, they need it forever.
So what the University
of Toronto does do is they license production and development rights to a large American drug
company based in Indiana, Eli Lilly. And they give Eli Lilly a one-year exclusive development license
to try and mass produce this substance. And again, like you said,
this is like a big step for the University of Toronto to do this, but the need in the world
is so great that they're willing to work with industry here. You literally have presidents
and secretaries of state trying to call in favors and successfully calling in favors
to get access to the limited vials that the University of Toronto has.
Yeah. Wasn't Elizabeth Hughes, one of these famous first patients,
the daughter of the Secretary of State of the US, right?
Charles Evans Hughes. Yeah. Yeah. Wild. So it's obviously not practical or maybe not ethical that's beyond the scope of
this podcast to use dog pancreases for scaling mass production here. But it turns out
there actually is an abundant ready supply of animal pancreases that happen to be just sort of
lying around in the American heartland and just about every human food production center in the
world. And that is cow and pig pancreases from, you know, all the meat that we eat.
Indiana's got a lot of cow farmers. And so
the clever, really startup Eli Lilly, I mean, the company had been around for a while, but this idea
of taking on real R&D risk was sort of a new concept. So the sort of startup Eli Lilly is
going around hiring salespeople to bang down the door of slaughterhouses all over Indiana and say, hey, I know your waste product
includes pancreases. Do you think you could ship those to us? We'll pay you for those. Yeah. And
it's actually not an easy sale because those farmers are like, it's going to slow down my
process if I have to figure out how to separate the pancreases. And this is already a real tight
ship. So there's a real entrepreneurial tale of Eli Lilly sort of convincing large, large numbers
of slaughterhouses to do this. The other interesting thing to note about the Eli Lilly license, David,
which I thought was really clever, is it's a one-year exclusive license where there's two
conditions, and the conditions are a trade. One, Eli Lilly has to report back any advances that
they make to the University of Toronto. It's almost like
little Operation Warp Speed going on, kind of analogous to COVID. As they figure stuff out,
they have to share it back with the University of Toronto to improve the manufacturing yields
of whoever else will be developing the drug. In exchange, the thing that Eli Lilly does get to
retain and protect on their own is a brand. Eli Lilly saw it really important early to say,
hey, we want to build a brand around insulin so that people know it's coming from us, that it's
of a certain quality. And even when we lose our one-year exclusive license, and even when we stop
contributing the manufacturing IP back to you, the brand actually stays ours. Yeah, we're going to
talk a bunch more about Eli Lilly here as we go. But this moment, this insulin moment, this is what really turbocharges them and makes them into one of, if not the first kind of leading American and international pharmaceutical company, which it still is to this day, still bigger than Nova Nordisk.
Yep.
Although not by too much.
Well, much more diverse, but not too much larger by market cap. Okay, so back to this whole Nobel Prize thing, which, as we said, was awarded to Banting and Assistant Medical School Dean John McLeod.
Now, how did McLeod end up being the guy who shares the award with Banting and not Best?
And years later, actually, the Nobel Committee would basically admit that they messed that up. It turns out that the answer to that is the key to the first chapter of our story today.
Because the actual nomination, I don't know if you knew this, Ben,
the actual nomination for that prize was put forth by a previous Nobel Prize winner in physiology or medicine, the 1920 Nobel Prize winner from
Copenhagen, Denmark, an animal biologist named August Kroh, who also happens to be the founder
of Novo Nordisk. Is that how Nobel Prizes work? A previous winner nominates the current nominees, or is it just like,
it certainly helps their case if a previous winner? Yeah, I do not think it is a requirement,
but certainly a previous winner and a recent previous winner in the same category, you would
imagine, carries a lot of weight. So the guy who would go on to found Novo Nordisk is the one that
nominated Banting and McLeod for the Nobel Prize before starting the company.
Yeah. Now, here's the wild thing about August Crowe, founder of Novo Nordisk, the world's
premier insulin company focused on insulin and diabetes for 100 years, now world's premier GLP-1
company. He's not a physician. He's not even a human biologist.
Yeah, he was an animal biologist, right?
Yeah, he was an animal biologist, right? Yeah,
he was an animal biologist. Fun fact, though, this is maybe my favorite sidebar in the episode.
He studied at the University of Copenhagen. His advisor was a guy named Christian Bohr,
B-O-H-R. That name might sound familiar to some people. Descendant of Niels Bohr?
Father of Niels Bohr. That Niels Bohr, father of atomic
physics, also winner of the Nobel Prize, major contributor to the Manhattan Project. So yeah,
his August's PhD advisor was the father of Niels Bohr. Everybody's winning Nobel Prizes. There
must have been something in the water in Copenhagen at that time. Also, that tells you how long ago
this was, that in my head, Niels Bohr is like someone from a long time ago,
so it would be a descendant.
But actually, this is his father.
Yeah, right, right, right.
Okay, so back to August Crowe.
How the hell does he end up going to Toronto,
getting involved in all of this, starting, you know, Novo Nordisk?
Well, in 1920, the same summer that he wins the Nobel Prize,
his wife, Marie Crowe, is diagnosed with diabetes. And this starts weaving together this whole crazy chain of events that leads to, well,
Nordisk. Novo comes a little later. Marie herself is actually a pretty incredible person.
She is a physician. So she's the first woman in Denmark to earn a
doctorate in medicine. And Denmark, I kind of suspect has always been pretty progressive
relative to the US, but even still, like we're talking about like the 19 teens,
a woman to earn a doctorate in medicine and then be a practicing physician was obviously unique.
Yes. So when she's diagnosed in 1920,
and she basically self-diagnoses,
she knows what's going on.
Like she and August,
like she knows exactly what this means.
Like she's going to die.
This is horrible.
But given that they're both very, very active
in the scientific and medical community in Europe,
they are able to get her the best care possible,
which at this point in time in Denmark
is a young Copenhagen-based physician named Hans Christian Hagedorn, who is widely respected as
sort of the best endocrinologist in town, even though he's very young. And he's up to date on
all the latest workings of the starvation diet and how to maximize quality of life and prolong life as long as
possible. Fortunately, Marie diagnoses herself very early. He puts her on a closely monitored
starvation diet and they stabilize it enough, enough after a year or so. Now, back to August.
Ordinarily, after you win the Nobel Prize, you go on a major international lecture tour. And of course, he's invited all over the world, particularly to the elite universities in America to come give speeches on his Nobel Prize winning research. But because Marie fell ill at the same time, he had to delay his trip until 1922. So in 1922, August and Marie set sail for Boston. Which is, by the way, amazing that a type
one diabetic has made it sort of this far in life and is in the early 20s doing transatlantic travel.
Totally amazing. So August is going to give a delayed series of lectures here at both Harvard
and Yale. While they're in Boston at Harvard, they meet with a guy named Elliot Joslin, who
he's actually the inventor of the starvation diet. He is like the world's foremost diabetes
physician and researcher at this point in time. And Elliot tells them about what's going on in
Toronto. This is the world that we're living in back then, news of the discovery of insulin hadn't really yet
reached Europe and certainly hadn't reached Denmark at this point in time. So it was like
a competitive advantage to be a Nobel Prize winner on an international lecture circuit because you
got better, faster information about brand new medical advances. Yes. Well, and particularly competitive advantage,
like life advantage.
They're just concerned about Marie's life
at this point in time.
So Elliot says,
I know the guy who runs the lab up there,
John McCloud,
let's write him a letter
and see if while you're in America,
you can go up and see them and see the labs,
see what's happening and maybe get some of this insulin. So August and Marie write to McLeod.
Marie also writes back home to Denmark to Hagedorn and tells him about what's going on and about this
discovery of insulin. She suggests in that letter that since Hagedorn is kind of the leading diabetes physician in Denmark, maybe
while they're in Toronto, they might be able to secure some rights or ability to bring insulin
back to Denmark. McLeod in Toronto, he gets the letter. He's like, of course, come on up. You and
Marie both come. Stay in my personal home. Sadly, unfortunately, Marie falls ill and she can't make the trip up to Toronto.
So August goes alone, but he stays with McLeod, observes the insulin production process,
sees everything that's happening. They become close and friendly. Most importantly, McLeod
takes August to go meet with the insulin committee and talk about what Marie had suggested to
Hagedorn of like, hey, maybe these are the right people to bring insulin to Europe,
essentially, but at least to Denmark. Now, funnily enough, at this particular point in time,
it turns out you actually can't patent drugs in Denmark.
So any blessing or patent licensing from the Insulin Committee to the Crows and Hagedorn for Denmark is sort of pointless because it's not legally binding in Denmark anyway.
But the Insulin Committee says, well, you're really the right people to do this.
How about we give you rights for all of Scandinavia?
Norway, Sweden, Denmark, you have our official blessing and any rights that you need.
And this is a pretty similar deal that they cut with Eli Lilly.
That was for North America.
They basically gave him the same thing for Scandinavia.
Yes.
So August and Marie set sail back for Europe.
They arrive in Copenhagen.
They go tell Hagedorn the news.
Immediately, they all go get to work. And by get to work, they go buy cow pancreases at the local livestock market in
Copenhagen. This is something, so you read more about the Novo Nordisk history than I did.
Was it cows or was it pigs? Because I know that Denmark has an abundance of pigs,
which actually made it pretty well-su suited to be an early insulin manufacturer. Ah, interesting. It was both. I think pigs may have come later, but certainly it was both cows
and pigs that Nordisk and then Novo were using both of them. They were just basically trying
to get their hands on any animal pancreases that they could.
Right. If it's got islets, we want it.
Yep. So using the Toronto method, they get a bunch of pancreases.
They go to August Crowe's lab at the University of Copenhagen, run them through a meat grinder,
pour hydrochloric acid over them, and they extract insulin.
And then they test it on rabbits and mice, and they confirm, yeah, we've got it.
This is insulin.
Certainly for the first time in Scandinavia, I think maybe
also for the first time in continental Europe, at least, insulin is extracted here in Denmark.
So this leaves just one obvious problem, just like insulin in Toronto. This is not going to scale.
Maybe you could do this to treat Marie, but they want to treat
the whole country, the whole region. Right. This is a very real problem for insulin all the way
up until the 1980s, which is you are scale constrained by the number of dead animal
pancreases you can get your hands on. And I found this wild stat. It takes 8,000 pounds of pancreatic glands from
23,500 animals to make a single pound of human insulin. Yeah, that's wild. To put that in more
real numbers, that means that even by 1980, with all the advances, it took 1 million animals annually for 30,000 diabetes patients. And there are a lot
more than 30,000 diabetes patients in the world in 1980. And we'll talk about who the pioneers were
and how we eventually got out of using animals to create insulin in the 80s. But that was also
the moment in time where type 2 diabetes really took off. Yes, you're foreshadowing.
It's been a 45-year massive issue.
We basically could not have continued to use animal-based medicine
to treat diabetes once it really exploded.
Ben, we're going to get to this in like two hours.
Sorry, foreshadowing.
All good.
So back to the crows and haggadorn in 1922, 23 in Copenhagen,
they need to scale production. So they go to the Lovens Chemisky Fabrik. And I need to like
majorly apologize to all Danish people out there. I talked to some Danish folks in research for this episode, and thank you very
much. And I just, I realized in those conversations, I need to give up on trying to pronounce things
correctly. Stick to French. Oh, we'll stick to French. Yes. But that translates to English as
the Lion Chemical Factory. And it is owned and run by another man named August, August Kongsted, with a K, K-O-N-G-S-T-E-D. And so they
partnered together, and by the summer of 1923, the very same summer that the Nobel Committee is
debating on the award for that year, and of course Crowe at this point has nominated his buddy
McLeod, along with Banting, by that summer of 1923, the combo of the Crows and
Hagedorn and the Lion Chemical Factory have produced enough insulin that they can complete
trials with eight human patients with great success there in Copenhagen. And at this point,
H.C. Hagedorn, who remember was originally Marie's physician to help treat her diabetes, he resigns his medical post and decides that he's going to focus full-time on this project.
So the founders are Hagedorn and August and Marie Crowe.
And Kongstead from the Lion Chemical Factory.
These are the founders of the project, but there's no Novo Nordisk yet.
And we should say around this time, I believe Eli Lilly was further along in terms of the volume that they had developed.
I think they were making like hundreds of vials a week of usable insulin.
Absolutely. Eli Lilly had insulin on the American market available to patients at this point in time.
Yep.
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Okay, so David, the founding of Nordisk. How does it happen?
So the Lion Chemical Factory at this point has established a new production line for insulin.
But it's unclear,
do they own this production line? Do the Crows? Does Hagedorn? Is the University of Toronto
involved? Crow and Hagedorn are sort of consulting on it. When Hagedorn makes this decision to go
full-time, what actually happens is he becomes an employee of Lion Chemical, which isn't really what he wants.
August Crowe steps back, and he returns to his other research at the University of Copenhagen.
But once insulin starts rolling off the line later that summer, under the brand name Insulin
Leo, like Lion Chemical Factory, they use the brand name, and that would continue to be Nordisk's insulin brand name for the next
60 years, I think. Wow. Pretty quickly, demand is just off the charts. And they are, like we
talked about, essentially the first mover in continental Europe. So there's a pretty enormous
opportunity here. So in 1924, Crowe, Hagedorn, and Kongstead, who owns Lion Chemical, they all come to an
agreement. They're going to set up a new independent and self-owning institution to produce
and distribute this insulin throughout Europe. Yeah, what does that mean?
Still not a company. Because other than Kongstead from Lion Chemical, Crow and even Hagedorn at this point, they're not particularly commercially minded.
No, it's a biologist and a physician. have employees and make sales and whatnot. But this operating company is 100% owned and controlled
by a foundation that they also set up. And the three of them are going to be board members of
this foundation and Hagedorn is going to run it day to day. This is really important to know
and really crazy how much this impacts in the future. This is still the corporate structure of the largest
company in Europe. And we're going to get to this hours from now in Playbook, but this governance
structure massively affects the incentives and the way that this company ends up developing
products going to market with them. The future blueprint of the next hundred years is laid right
here in this corporate structure. And foreshadowing, there is a moment much later in history where absent the control
of this foundation, Novo Nordisk would have ceased to exist. It is only because of this structure
that Novo Nordisk survived and that we have GLP-1s and everything we have today.
It's fascinating. By
the way, this is not that uncommon in Danish companies. Lego, same structure. Maersk, the
shipping company, same structure. Well, I dug into this a little bit. So yes, this is a very
common structure in Denmark, mostly for tax reasons, because Denmark has very, very high
taxes. So this is a common generational
transfer mechanism. And Novo, later, we'll talk about Novo in a sec, Novo actually has this type
of structure that you're talking about. The Nordisk Foundation is not just a foundation
of convenience. It really is a charitable foundation with a dual mission. So they give it two missions. The first mission
is to produce insulin and sell it, A, at cost in Scandinavia in the original kind of territory
mandate in order to maximize access and kind of humanitarian public health benefit. B though, export it elsewhere in Europe
and around the world at market prices
and use the profit from those exports
to fund further diabetes research and development.
So no profits allowed in Scandinavia.
Profits are allowed from export activities.
And then all of those profits,
literally by contract, get shipped 100% to the foundation to then be used for, you know,
grants and research about diabetes and supporting diabetes patients in Scandinavia.
Fascinating. I did not know that.
Totally fascinating. And, you know, more or less, as you said, that is the same mission
and structure that is still in place today. It's obviously changed a little bit. Yeah, there's some caveats
that I'll get to when we get to today. Yes. The operating company is now publicly traded,
but still that foundation controls 77% of the voting shares of Novo Nordisk and 28% of the
economic shares. Yeah. So no shareholder activism in this company, or at least
no one's effective in doing so. Yes. So the name that they choose for this new institution or
really dual institution is, fittingly, Nordisk Insulin, which Nordisk in Danish means Nordic
insulin. It's the insulin manufacturer for the Nordics. Very creative.
Very creative. So you're listening here, you're probably like, okay, that's Nordisk.
What's the novo piece of this? Well, it turns out that that is quite the story too,
because among the very first employees of the insulin project, even before Nordisk gets created,
are two brothers, Harold and Torvald Peterson. And the Petersons, you know, you got to remember the time we're in. They're sort of like prototypical 19-teens, 1920s kind of engineers
and tinkerers. We're not that far removed from like the Wright brothers and Henry Ford and that
kind of stuff here. They're like kind of cast from that mold. So the older brother, Harold, he had been working in August Crowe's lab
doing all the mechanical engineering stuff to carry out the experiments. You need to build
devices and contraptions and set up experiments. And so Harold was in charge of doing that.
Once the insulin project gets going, Harold naturally sort of shifts over
and he's the one going out and building and buying and modifying like the meat grinders and figuring
out how to pour hydrochloric acid over it in the right way and all that sort of stuff.
When Lion Chemical gets involved and they're spinning up mass production,
Harold goes to Hagedorn and August and Kongstead and says, hey, you're setting up
an actual production line. I've got just the guy to help you set it up and run it, my brother,
Torvald. Because not only is Torvald a seasoned factory operations manager who's currently running
a large soy factory, he is also trained as a pharmacist and studied chemistry. He's like the perfectly
qualified person to be like a, you know, early employee of this new operation. Except it turns
out there's just one problem. Hagedorn thinks he's in charge. And Torvald, who's just been hired,
thinks, hey, I know what I'm doing here. I'm in charge. Like, Hagedorn, you're this pompous physician. Like, what do you know about running a factory?
So this schism happens, like, in the first year of Nordisk's existence?
Yes.
In the first six months after Torvald is hired, he and Hagedorn, they're constantly fighting.
One day they get into a huge, huge argument and Hagedorn fires him.
Six months in.
Guess we know who's in charge.
Yeah. When that happens, Harold, the older brother, resigns in solidarity
and they're super pissed. They go to see Crow and they're like, hey, August, I've been working
for you for a while. Clearly we know what we're doing here. Why is this happening? And Crow sides
with Hagedorn. He's like, no, no, he's my guy.
He was Marie's physician. He's going to run this thing. So they say, well, all right, fine. You
know, as you know, here in Denmark, you can't patent drugs. Oh, that's why this is important.
We're just going to go down the street and make insulin too. And the legend has it that supposedly August looks at them and replies,
but you're not capable of that.
To which Torvald yells at him, we will show you.
And they storm out of the building and go down the street.
And they found a new insulin company, a Novo insulin company there in Copenhagen, insulin Novo. And that is the
beginning of Novo. And for the next 65 years, these two companies would compete in blood sport,
head to head, hated each other, absolutely hated each other until they finally merged in 1989.
Crazy. Yep. Now, this is such a key part
of the Novo story that certainly, you know, Crow, but then Hagedorn develops into this amazing
scientist, as we'll talk about. The advances that Nordisk is able to bring to market in the science
of insulin and diabetes is huge. But certainly without the bitter competitive
motivation from down the street, I don't know that they would have moved as fast. And Novo
ends up building its own scientific research capabilities. And these two companies in this
unlikely small country in Northern Europe end up leading maybe the most important drug development
of the 20th century. It's amazing. I mean, it's the local and bitter competition. It's Ferrari and Lamborghini.
It's Aldi and Trader Joe's. It's Adidas and Puma. You sort of create the seeds of competition early
and you can really infuse that into a company's DNA for decades.
So I think it's worth a quick pause here. We've already talked about some of this, but just to clarify why diabetes and insulin is such an interesting market and large market
potential. One, even with just type 1 at this point in time, it's still a very large and
widespread disease in the world. So it's kind of a large patient and potential patient market size. But two, unlike
many other diseases and drugs for those diseases, it's chronic. You don't cure it. So what insulin
is doing is it is enabling these diabetes patients who often are diagnosed as children children to live essentially normal, long lives. So you're talking about decades, 40, 50, 60, 70,
80 years of patient lifespan here, where they are injecting insulin daily, if not,
you know, in most cases, multiple times daily. There's basically nothing other than food that
you can sell someone for their entire life. But for diabetics, insulin absolutely has that scenario with a customer. the insulin product. It's not like insulin is insulin is insulin. There are so many new products
and improvements, both in the drug itself, but also in the delivery systems. I mean,
this early insulin, as we've alluded to a little bit, it was barbaric by modern standards. Like,
yes, it saved the lives, but it didn't last very long. So you had to inject a lot of it
very frequently. It wasn't super clean. There are
tons of impurities in it. So there's swelling, there's infections. There's allergic reactions
to all the impurities. Totally. It wasn't shelf stable in liquid injectable form. This is wild.
I don't know if you knew this, Ben. No. So everything we're talking about in these days
and what Nordisk was originally producing
were insulin tablets, solid insulin tablets. Now, until recent times, you can't take insulin in
tablet form. It doesn't get absorbed by the gut. You have to inject it. So what patients had to do
was take these solid tablets, dissolve them in sterilized boiled water, measure and draw that solution into a syringe
themselves. Like a glass syringe with a big needle. No pens, none of this fancy stuff we have today.
Yeah, big ass needle. And, you know, so now you've got patients doing this multiple times a day,
and it's really important that they get the right amount of insulin for them.
This makes it really hard.
Yep. And there's no measurement. I mean, there's no like one-touch pinprick. We get to see what
your blood sugar content is right now. We're so far from that existing that you are guessing.
You're throwing darts.
Totally. And actually, it's kind of a side note to the story, but it's Novo in the 1980s that
invents the insulin pen.
Oh, I didn't realize that wasn't Nordisk, but Novo.
Yeah, Novo invented the pen and Nordisk focused on pumps.
And they were one of several companies, but one of the leading companies innovating in pumps.
I see.
We should say, listeners, and David, you know this, this is a topic that is super personal to me.
A huge number of my family members are diabetic and actively suffer from the complications and actively benefit from all the advancements in it.
And so this is something I've just had present around me my entire life with family members, as I'm sure many of you have too.
I'm quite certain that almost everybody listening right now either is diabetic themselves or has a close family member who is.
Or is pre-diabetic.
When I was doing research for this episode,
one of the people I talked to,
and we'll thank a bunch of folks at the end,
but pointed out,
we're all pre-diabetic in some way.
And it's basically like the idea that,
look, your A1C levels,
if you live long enough,
will eventually enter diabetes territory,
especially with the food system today
and all these foods engineered to leave us
very unsatiated.
All of our natural inclinations
that we had as hunter-gatherers and farmers and, you know, imagine the paleo life long ago. All
the things that served us evolutionarily to stay alive are now the very things that are killing us.
So everyone's on the path. It just depends how long you live. We also weren't really designed to,
you know, live this long either.
So well, careful with the word design, David. Well, so when Novo gets established, this starts the competitive race that really leads to 100 years of R&D pipeline that changes all this.
So the Peterson brothers, they know right off the bat, they can't really just go clone what Nordisk is doing. I mean, technically, legally, they can in Denmark, but what physician and what patients are going to buy Novo insulin when right down the street, you've got Nordisk, which has a Nobel Prize winning scientist, the best diabetes endocrinologist in Denmark running it and the explicit blessing of Toronto and the
insulin committee. If Novo just sells the same thing, nobody's going to buy that.
Right. But they do have a pretty significant advantage that Nordisk doesn't have,
which is they've got their engineering and tinkering skills. So they go to work and pretty
quickly, actually, they come up with shelf-stable liquid insulin.
So what I was just talking about, about how Nordisk produced these tablets, you had to boil them.
Novo comes out with liquid insulin.
You don't have to do that.
Not only that, because the process for producing liquid insulin that they come up with is so much more efficient,
they can sell it effectively cheaper per dose than what Nordisk is selling their solid form as.
So they go to market, Novo goes to market with their Novo insulin as insulin at half price
because it's so much more efficient. Now, this is so antithetical to like the ivory tower scientists over at Nordisk.
You're marketing insulin at half price.
Does this liquid stuff work?
And is this safe?
And all this stuff.
The Peterson brothers are like, yeah, whatever, you know, we're going to crush you.
All right.
So Novo, scrappy upstart, counter-positioned, and competition drives innovation.
So they create better product.
Yes. So then Nordisk strikes back with a new, longer-lasting form of insulin called protamine insulin, or NPH, as it is patented and come to be known around the world, which stands for neutral protamine haggadorn.
Really?
Haggadorn is in the name?
Because H.C. Haggadorn, he himself led the research developing this,
and he puts his own name on it.
Kind of tells you what you need to know about him.
This is much more stable and needs to be injected fewer times per day,
which is a huge benefit for patients.
So Nordisk, rather than building up production facilities around the world,
what they decide to do is license it
back to basically any interested pharma company. So like Eli Lilly back in the States, other
companies in continental Europe, it's the new widely accepted most advanced treatment for
patients. Except there's one company that they refuse to license it to, and that is Novo. Amazing.
So Novo, undeterred, they go and they work around Nordisk's patents on this.
And again, I'm not sure at this point if the laws have changed and you can patent drugs in Denmark,
but it kind of doesn't matter because it's clear Denmark is not a very large country.
By far, the bulk of the market is in exports at this point.
And certainly in other
countries, you can patent drugs. So Novo works around Nordisk's patents, and they come out
with an improved version of protamine insulin that they claim is both better and doesn't
infringe on the patents. Which the pharma industry has a rich history of figuring out
exactly how to do this.
Because the thing about pharma patents, which is interesting, is they're fairly narrow. You can
patent a molecule. I don't think this is quite true at the time, but the way it sort of works
today is you patent a molecule, which is extremely specific. It's different than other industries
where it's a system and a method for blah, blah, blah, and you can be very broad with it. So if you can accomplish a similar biological or chemical reaction in the body
with a different molecule in basically any way, then unpatented. And so there's a rich history
in pharma of doing exactly this. What is slightly next to the patent but does basically the same
thing? Yes. To your point, though, it is still quite scientifically difficult. It's not like software here. We're like, yeah, yeah, yeah, I write some
code. And it's like, no, no, you still got to find a molecule that does what you say it does.
Yep. So this leads to a whole bunch of lawsuits. It actually ends up going to the Danish Supreme
Court, where Hagedorn represents Nordisk himself. In the lower courts,
they had lawyers, and I think they lost the case in the lower courts, and Hagedorn's like,
screw this. I'm going to be my own lawyer. At the Supreme Court case.
At the Supreme Court. Wow.
Yeah. Amazing. And they win. Nordisk has won here. This is like a huge, huge blow for Novo,
you would think. But then, literally right at the same time, World War II starts. And Denmark is invaded
by the Nazis shortly after they invade Poland. And in April 1940, the Nazis now occupy Denmark.
So this sort of like infighting between these two Danish drug companies.
Much less relevant.
Much, much less relevant. But what is still super relevant is how is Europe going to get insulin
in the middle of World War II? And this is a major, major turning point, both for the two companies vis-a-vis each other, but also I think really
what sets Novo on the path to becoming Europe's dominant producer of insulin, and then ultimately
the dominant producer of insulin in the world. So Novo, not Nordisk, became the globally dominant.
Really? I did not know that. I actually don't know the terms of the 89 merger. So I'm excited to listen just like everyone else, David. Well, so what happens is Denmark is relatively
unscathed during World War II. It's a small country. The Danish army was quite small. And
so when the invasion happens in April 1940, there's basically no fighting. Germany just
takes over the country. I mean, there's no destruction, which means that insulin
production continues unabated in Denmark. Now, Nordisk, remember, like I just said,
once NPH comes out, their strategy becomes really like we produce domestically and then we make our
revenue and our profits internationally by licensing, not by production. And with World
War II, most of the dollars for their licensing revenue is coming from allied countries. Well,
Germany just took over Denmark. So all of that revenue, all of those profits go to zero overnight.
And Nordisk for the duration of the war, basically just gets put
into hibernation mode. They're still producing a little bit to help supply Denmark, but there's
really nothing going on there. They basically cannot address the market of any allied countries
anymore. Yeah. Wow. Novo is the complete opposite story. They had been scaling production all throughout Scandinavia, all throughout Europe.
And when Germany takes over Denmark,
Insulin Novo is now,
you know, the ethics of this are really complicated.
Because it's Danish-owned,
which is Nazi-occupied at the time.
Yeah, they are now essentially
the official Nazi-sanctioned insulin provider for all of Nazi-occupied Europe.
So the German government basically directs Novo to massively expand production and supply insulin,
you know, not only to Germany, but to France, to Poland, to Austria, to all,
everywhere in continental Europe, basically.
So just to make sure I have it right,
it sounds like Nordisk is only making a small supply for Denmark, Novo is supplying all of Nazi-occupied Europe, and the allied countries no longer have access to anything Novo or Nordisk
makes, and so they're relying on their own suppliers like Eli Lilly. Yes. Now, they're fine.
They can get insulin, no problem, because Nordisk has licensed all the technology and production to them. They just keep doing that. The only problem is for Nordisk that Nordisk can no longer get the payments from them, because obviously, you know, transfer payments from allied countries are now blocked.
Right. Fascinating. Totally fascinating. So again, we said the ethics of this are quite complicated. There is no doubt that Novo's fortunes massively changed and expanded by the German occupation and
the Nazis during the war. On the other hand, literally the Nazis ordered them to expand
production and provide insulin for Europe. And if they hadn't done it, all the diabetics in Europe would have died.
Oh, it's unquestionably a good thing.
Again, I'm learning about this from the first time from you,
but an evil person commanding me
to make more life-saving drugs
and distribute it to more people is fine.
It's the other things they command you to do
that are not fine.
Right, right.
I definitely agree.
It is important to note, though,
after the war, the Danish state did require both Novo and the Peterson brothers personally to repay most of the profits that they made during the war back to the Danish state.
Fascinating.
Again, like the ethics are complicated here.
Very. Yeah, wow. So regardless, after the war, Novo emerges as now both a scaled pharmaceutical company,
generally, and the largest producer of insulin in Europe. And as part of that now, they have
the resources to really build up their own scientific and R&D divisions and become a real
powerhouse to rival what Nordisk was before the war.
Shortly after the war ends, they develop a new product called Lente insulin, L-E-N-T-E,
which is slower-acting insulin, which means it's thus longer-lasting. And this can now be used
for diabetics as a basal or background insulin. So they'll still take fast-acting insulin
around meals to help process blood sugar from meals, but a normal human pancreas is also
producing insulin 24-7 throughout the day. This now is a new background insulin that diabetics
can take to help stabilize when you're sleeping or not eating. So this is a pretty
big breakthrough. And what you're seeing here is Novo and Nordisk having decades of experience
researching mechanisms to slow the absorption or lengthen the effects of their drugs in the human
body and really developing this incredible competency around how do we sort
of finely tune how we want injections to react in your body over a long period of time in a very
complex environment. You know, you've got the human immune system wanting to react to anything
foreign you put into it. You've just got a lot of systems that you sort of have to make sure that
you're interacting well with to achieve something simple like like we'll make it dissolve slower. And I know that's not
technically right, but that is kind of the blunt way to think about it. Yeah. Hopefully it's obvious,
but like, this isn't quite like software. It's like, oh, just you add some new code and you
ship a new feature. It's like, no, no, this is very complicated stuff. And you got to make sure
that the side effects are not going to kill people.
So this is really the first major scientific advance that comes out of Novo. And Eli Lilly
licenses this lentil insulin from Novo and kind of rebrands it and makes it part of their flagship
insulin offerings in the US. They were doing this with NPH insulin before the war from
Nordisk. And now, you know, it's kind of Novo that's taking up this mantle. You know, this
will come back up later in the episode. But Eli Lilly, although insulin was and still is a huge
part of the business, what they basically decided is to be a kind of technology follower and license
from all the innovation coming out
of Novo and Nordisk, license that into their sales and distribution channels in the U.S.
I'm really curious if the Eli Lilly folks would agree with that characterization. I know
you read that great history of Novo Nordisk book, and I'm sure that's the way it paints it. But
at some point, we should dig into Eli Lilly a little more and see if that's how they think
about it, too. Yeah. Well, that is going to change in a big way in the 1980s. But during this post-war
period, at least that's how Kurt Jacobson's book makes it sound. And we got to give Kurt a big
shout out. And he wrote this great history of Novo Nordisk that just came out last year for
the company's 100th anniversary. Unfortunately, you can't buy it in America. So I emailed him a couple months
ago and I said, Kurt, is there any way we could buy a copy of your book? And very, very graciously,
he just sent it to us. So very, very kind. Thank you, Kurt.
Yep.
So this is basically the way things stay for the post-war era up until the 1980s. Novo follows up lentil insulin in the
1970s with MC insulin, or non-immunogen monocomponent insulin, which is the first 100%
pure, zero antibody potential insulin. That also becomes the kind of new, widely accepted
best product in the market internationally. So this
is the general state of play after the war. Novo is now a scaled pharmaceutical company. Nordisk
is mostly in rough shape. You know, if production capacity has gone down to basically zero,
minimal at this point in time. They have resumed the
licensing business, and eventually they do get back payments from all the allied countries that
they were owed during the war. So, you know, they're not like insolvent or anything, but
they're the much, much smaller company. Now, Novo, interestingly, they're now a large pharmaceutical company. They want to add a second leg of the stool, a new business line. So they get into the enzymes business. This is like laundry detergent enzymes and other industrial uses. They add that on alongside the insulin and diabetes business. And, you know, that's all well and good
to be a diversified, you know, industrial conglomerate,
except the enzyme business is both capital intensive
and not that profitable.
Those don't mix well.
Yeah, those don't tend to mix well.
Now, it's still a viable business.
It actually stays part of Novo and then Novo Nordisk
all the way until the year 2000 when it gets spun out.
Oh, is this Novozymes?
This is Novozymes, yes. It is still majority controlled by Novo Holdings,
which is the holding company of the Novo Nordisk Foundation.
Interesting. So just like Novo Nordisk is majority controlled by the
foundation's holding company, Novozymes still is also.
Novozymes as well.
But when we get to the 1970s, right as MC insulin is coming online and Novo needs to undertake a huge amount of CapEx to redo its production lines and expand them around the
world, the enzyme market crashes. And so this enzyme business that they tried to add
as like a diversification and hedge to the company and expansion, all of a sudden it's bleeding cash
and they don't have enough capital resources to do the CapEx upgrades that they need for the main
business in insulin. Oh, interesting. If only they had a cash-rich
partner without a lot of CapEx needs. Goodness, if only there were such a natural partner right
down the street that, you know, it might make sense maybe they could merge with. So here we are in the early 1970s. Novo approaches the old bitter rival Nordisk and here's the situation. You pretty rocky succession period after Hagedorn retired.
They're now on their third CEO in seven years. And the new CEO, Henry Brenham, he isn't from
the pharma industry at all. He's not a scientist. He was previously the head of a lumber company.
So this merger makes perfect sense. Huh. But they don't merge for another decade and a half.
So what went wrong?
It's not what happens.
So instead, contrary to all sort of what you would think on paper,
the new CEO, Brenham, actually turns out to be like an amazing leader and CEO.
The lumber guy.
For Nordisk.
The lumber guy.
Huh.
He is like the wart guy. For Nordisk. The lumber guy. Huh. He is like the
wartime CEO for Nordisk. He rejects Novo's overtures to merge. And then he goes and convinces
the board, both of the operating company Nordisk and the foundation, that this new MC insulin
generation, which remember, Novo innovated, that this actually represents
a golden opportunity for Nordisk to get back in the game because it's going to be a complete reset
of all the insulins on the market, whether they're fast acting or long lasting insulins,
they're all going to move over to this MC highly purified method and type of insulin. But Novo's in this spot where
they're going to be delayed for several years in making the transition in their actual factories
because they don't have the CapEx. So it's like they're coming to us hat in hand. Why don't we
just put the pedal down now that we realize we have the advantage and press. So Branham convinces the board that rather than merging, they should use their capital reserves
to rebuild up Nordisk's own production capacity, go hire a global sales force.
Branham, he's really ambitious. He says, we're going to go enter America directly as this forgotten
Nordisk company. So he goes and hires a global sales force because he knows Eli Lilly is going
to have the same dynamics as Novo. Everything's going to have to shift over to MC and Eli Lilly's
this big, large, diversified giant. they're not going to move as fast as he
thinks Nordisk can. And even though it's unrealistic that Nordisk is going to overtake Eli Lilly in
America, if they can get even a small percentage of the American market, that's huge. Nordisk is
a small company, and America is by far the largest market for diabetes in the world.
Well, and you got to remember, too, in the 70s, there was still kind of a functioning
healthcare market. There wasn't massive consolidation yet. And so every level was
super fragmented. Manufacturers were fragmented. Insurance companies were smaller. Little doctor's
offices existed everywhere. Neighborhood pharmacies were there. And so entering the American market, you didn't necessarily need huge scale to do it.
And the other thing to note is it wasn't yet the heyday of drugs, like of pharma. There weren't
that many drugs that people had high demand for. It wasn't like today where everywhere you look,
there's some amazing drug that could save your life, depending on what conditions you have that are on TV commercials. The federal government with,
and we'll get into this later, but Medicare Part D wasn't even a thing yet. Drugs were not
plentiful enough and good enough yet for the government to cover them as an insurance benefit
for people over 65. That's the era we're in where if Nordisk wants to enter the American
market, they kind of can without too many barriers. Yeah, this is the right window. So
I don't know how Brenham convinced both boards to do this, but he does. And like,
by God, he's right. It works. So for the entire decade of the 1970s, Nordisk's sales grow at 30%
compounded annually, which is amazing. Wow. Now they're still small. So by 1980,
Nordisk is still only about one-tenth the size of Novo overall, but they're a third the size of Novo's insulin business.
And they've moved from being this licensing company to now an actual production company
with capacity all around the world. So this is a huge win from basically they were going to be
taken over for cash by their old rivals, and now they're back in the game. So Novo, in response, they need
to do something to get capital. They actually do a small IPO on the Copenhagen Stock Exchange in 1974
to raise the capital they need for the transition to MC Insulin. So by the time we get to 1980,
and just to set some scale here, Novo's annual global insulin sales, this is Novo,
they're still much larger. They're about $100 million annually. And Nordisk's are about $30
million annually. That makes them the number two and number four producers in the world by market
share behind Eli Lilly in America, who's first with about 160 million in sales.
By the way, these numbers are staggeringly small.
These are like series C startup.
And this is exactly my point.
So you might be wondering, like, wait a minute.
If you add all that up, the whole global insulin market is about half a billion dollars here in 1980.
And that's not exactly tiny. And like you were saying,
you know, the drug markets themselves weren't that huge back in this era. But what is the path
from here to Novo Nordisk today being the 15th largest company in the world? Like what gives?
What happened? Yeah, just look at pictures of people in the 70s and look at pictures of people today? Yes. The answer is, one, what you just said,
we all got fat and the diabetes market and specifically type 2 diabetes exploded.
But two, and this is going to be such a fun story to tell here on Acquired because it's
a huge part of Silicon Valley history that we've never touched.
Yes, Genentech. Two, Genentech happened.
Oh, yes.
Which totally revolutionized everything,
launched the biotech market,
made drug development and production vastly more scalable.
And it all happened right here in San Francisco,
venture-backed by Kleiner Perkins.
And it changed everything.
Former Kleiner Perkins employee. Yeah, was a co-founder of the company. All right, listeners, our next sponsor is a new
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Our huge thanks to Huntress. Okay, so David, the 80s are here.
For some reason, in the early 80s, the world starts becoming more overweight. Addictive foods
being the cause of this. Yes. More metabolically unhealthy. Correct. And just to put some numbers
on that, the number of type 2 diabetes patients quadruples from 1980 to 2016. Yeah, and population growth was a lot
slower than that. So definitely the share of the population is massively expanding. And at this
point in time, we are still using pigs and cows to harvest pancreases and their islets and their
extracts in order to make insulin, even with this incredibly refined process
until Genentech. Yes. And specifically what that meant using animals to make insulin was that type
two was not treated with insulin. And actually until this point in time, type two used to be
called a quote, non-insulin dependent diabetes because you didn't treat it with insulin
because there wasn't enough insulin. There weren't enough animal pancreases in the world to do it.
Oh, I had no idea.
And it wasn't necessarily that insulin didn't help type 2. I mean, lots and lots of type 2
diabetics these days use insulin. It was that there just wasn't enough of it. Wow. And then in 1980, Genentech and Eli Lilly
as their partner changed everything with recombinant DNA and genetic engineering of drugs.
And I suspect many people don't know this. I sort of vaguely knew this before researching the episode, but the first drug that they genetically engineered and that started this whole revolution
was insulin. Absolutely. It was the founding first application of the idea that Genentech had of
commercializing recombinant DNA. The first implementation was insulin. And to just paint a little bit of a picture of why this
is so amazing, it's not just that we now had a way to not rely on animal pancreases. It's that for
the first time, we actually had human insulin. It is insulin that is chemically identical to the
insulin that naturally is produced by your body rather than injecting something slightly different, you know, from a pig or cow. Yes, because you couldn't really extract human insulin from, you know, humans
before this point. And people thought that human insulin would be a lot better to use than animal
insulin. It turns out that that's debatable. Yeah, it's interesting that this ended up being
more of a manufacturing and scale advantage than an efficacy advantage.
Yes, but at the time, nobody really knew that. So in 1980, which is when Genentech and Eli Lilly
announced their partnership together, that Eli Lilly is going to be the go-to-market partner for Genentech's
new recombinant DNA bioengineering revolution, and they're going to make human insulin.
They announced that in 1980. People go nuts, and it triggers this race for human insulin.
And Novo gets swept up in it. They're like, oh no, Eli Lilly,
they're going to come back into the research game.
They're going to innovate in product.
We had the chance to work with Genentech.
Genentech had actually approached them
about being a partner in Europe.
Novo had turned them down
because they didn't think the science was ready yet
and they were wrong.
So they're like, shoot, we got to scramble.
They find a team of Japanese researchers who have
shown that you can actually chemically modify pig insulin to make it chemically identical to human
insulin. What? Really? Yeah. You can't make this stuff up. So NOVA is like, great. We're going to
race to market. We're going to beat Eli Lilly with human insulin. It's not going to be genetically engineered. We're just going to take our pig insulin and modify it.
It turns out to be a huge boondoggle. You know, it works, but it's not any better than pig insulin.
So it's a big flop for Novo. Which the timing lines up to really be a nail in the coffin for
them. I mean, if this is right after everything
you just described with Nordisk scaling up production and compounding at 30% per year
and massively growing share, this is not a good use of Novo's precious dollars right now.
Well, it's funny you say that. So when the Genentech and Eli Lilly announcement happened in 1980, I mean, truly, this was a
bombshell. It's hard to remember now. I mean, we weren't even alive, but this was one of, if not
the most important announcement to come out of Silicon Valley ever, still to this day. Investors
went nuts. Anything that even you could squint and look like a biotech was suddenly the
hottest thing in the world so genentech goes public in the fall of 1980 this is well before
humulin you know the product that they create with eli lily comes on the market they go public, and it is, I believe, the largest venture-backed IPO ever at that time,
until it's eclipsed two months later when Apple goes public.
But investors are just mad for biotech companies.
So when Novo announces that they're going to be first to market with human insulin,
and like, yeah, yeah, just ignore that
it's actually pig insulin that we're modifying. They use the hype on the back of that to do a
US IPO with Goldman Sachs and raise $100 million. When your currency is expensive, sell it.
Right. There are a number of analogies that we could make from the past few years that I'll
refrain from here.
So, as you say, is this a nail in the coffin for Novo?
You know, I mean, it's not good for the underlying business.
Nordisk, meanwhile, remember, they're in the midst of this aggressive expansion plan and scaling based on MC insulin.
They're like, you know, I don't know that human insulin in and of itself is all that much more effective. We're going to take a wait-and-see approach. We are going to invest in building up our recombinant DNA and genetic engineering capabilities because it's clear the whole industry is moving this way for production reasons, if nothing else. And Novo is doing this too in the background.
But Nordisk is like, we're not going to get caught up in the specifically human insulin hype.
And this really works out for them. So in 1984, Nordisk passes the German company Hocht to become the number three global player in insulin.
Hocht, I think that's how you say it today, is part of Sanofi, the large international pharma conglomerate. And they're the only other player left besides Novo
and Eli Lilly. Yeah, Sanofi today. Yeah, the three of those companies are essentially the
entire insulin market. Yep. So 1984, Nordisk passes them. On the back of that, they do their
own share listing on the Copenhagen Stock Exchange. So they change the
structure of the operating company, and still the foundation controls the majority of the votes.
But for the first time, outside investors can hold shares in the operating company of Nordisk.
And by the end of the 1980s, Nordisk is now up to 20% global market share in insulin.
And that's really all come at the expense of Novo, which is down to 30% global market share.
Whoa, so they're close to matching them.
Yeah, they're pretty close.
And this brings us finally to the summer of 1988, when merger discussions begin for real between these two companies, now on much more
equal footing than the last time. Interesting. And this time, there actually is a really compelling
reason for both of them to merge and combine scale, which wasn't true before when it was
really just like, hey, Novo had a problem and needed cash. Now, with genetic engineering and the way the whole industry is headed,
scale is becoming much more important.
It takes huge capex to do this stuff.
And scale becomes important for R&D.
Scale becomes important for trials and approval.
Scale becomes important for negotiating with actually getting the product sold. Scale becomes important for negotiating with actually getting the product
sold. Scale becomes important for everything in healthcare, starting around this time,
the late 80s, early 90s, and obviously went nuts till today. And a big part of it is the production
and infrastructure side of things. But the other part is the go-to-market. Pharma kind of almost
becomes like the enterprise
software industry. At the end of the day, there only are a few companies at scale that have the
infrastructure and the go-to-market to operate. And yes, you can build a big company on top of
or underneath Microsoft or Oracle or Amazon or Salesforce or Google, but they're the ones with
the infrastructure. They're the ones with the infrastructure.
They're the ones with the channels. Yeah, it's an interesting analogy. I hadn't thought of it that
way. Yeah, this is a good place to try to understand the pharma value chain as it exists
today. I think first off, we should say you basically can't. I'm actually not sure there's
a human who can hold all of it in their head, and we won't promise to make this comprehensive,
but it is worth knowing a few key concepts
and the players involved.
And I should say, this whole thing
only applies to the U.S. market,
which many of you listening in other places
will be laughing and saying,
like, why is this so complicated?
But yes, this is how the U.S. market functions.
So I wrote a sentence, David,
that I thought would be a fun way to break it down.
And that simple sentence is, a fun way to break it down. And that simple
sentence is, a patient buys a drug. But really, actually, that's not how it works.
That's like a butterfly flaps its wings.
A person doesn't merely buy a drug.
So let's actually name all the parties, starting with the manufacturer. A manufacturer like Novo
Nordisk develops a drug. They sell it to distributors like McKesson or Cardinal Health, who then sell the drug
to pharmacies like CVS or your local neighborhood store.
The pharmacy then charges a price at the window to a customer.
So, so far, there's nothing different about how this is working from any retail supply
chain, but here's where it gets weird.
In healthcare,
when a consumer goes up to the pharmacy window, they typically don't pay their own money for the
price that the pharmacy actually puts on the register. Their insurance company does. Well,
the insurance company doesn't want to pay whatever price the pharma manufacturer picked for their
drug, and they have huge scale to throw around, so they go negotiate with the pharma manufacturer picked for their drug, and they have huge scale to throw around, so they go
negotiate with the pharma manufacturer to try to get some kind of discounted rate. But rather than
do that themselves, insurance companies outsource that task to a new type of company called a
Pharmacy Benefits Manager, or a PBM. The PBM negotiates with the pharma company for a discount,
often in the form of a rebate that the pharma company pays back to the PBM negotiates with the pharma company for a discount, often in the form of a rebate,
that the pharma company pays back to the PBM.
They then take that discount, they keep some of it for themselves, and then they pass some
of it back to the insurance company, who can then choose to share it with the employer
in some way.
And as you can imagine, when there are this many middlemen in a transaction...
Yeah, so that's what, four middlemen?
The PBM, the insurance company, the distributor, and for some reason employers are involved.
So we're talking about a six-sided market.
Well, I don't think it's a sided market.
There's two good diagrams that I found in the research that we'll put on the acquired Twitter account and the Threads account to kind of get access to these visuals that I think are pretty good illustrations of the way the dollars flow and the way the product flows. But you can imagine when there are this many middlemen
in a transaction, it's really hard to have a functioning market to actually interpret
demand signals and have them clearly flow all the way upstream. And for the end consumer to
really be treated as the customer
versus just like a statistic in a large aggregated basket, we've sort of lost the plot in being able
to actually have a functioning free market. But anyways, I want to do a little dive into each of
the parties to understand what they do. The drug manufacturers, like Novo Nordisk, do all the R&D
and they do all the production. They also own the responsibility of the clinical
trial. So they work with partners to do this, but proving that the drug is safe and efficacious is
up to them. There's the distributor wholesaler that does exactly what you think they do. They
buy all the drugs from all the pharma manufacturers. They warehouse and distribute them.
They actually do take risk. When I say they they buy they actually do buy them and hold them and they end up distributing them to the pharmacies
pharmacies do exactly what you think they do those companies have gotten merged into pbms
in some cases and so it's you know thinking of cvs as just cvs is not really right anymore it's
cvs caremark so they're sort of with a pBM. There's the Walgreens Boots Alliance,
which is the way they named it is sort of all you need to know. So the way to think about pharmacies
is that there are a few big ones and that is kind of what matters, even though there are many people
interested in keeping a thriving, independent set of pharmacies out there. Then there's the PBM. So
why does the PBM exist? the Pharmacy Benefits Manager?
That's a good question.
Yeah. Well, in the old days, there were lots of drug companies and lots of insurance carriers.
And so it would be nice if every little insurance company or every employer didn't have to go
negotiate directly with every drug company to get all the best prices. So PBMs provided value by doing that on everyone's behalf.
PBMs created what's called a formulary, which is basically a big ledger, a big list of drugs and
the prices. And obviously today, that is less necessary because there's less fragmentation,
given all the mergers that have happened. But the PBMs still establish themselves as a key sort of immovable piece of this puzzle.
So are they sort of like agents? Is that the right way to think about them?
Agent implies that the principal can sort of make a decision to go elsewhere.
You're not going elsewhere.
The PBMs are the ones actually setting the prices.
Well, that's the key question. So maybe a little more context on PBMs are the ones actually setting the prices. Well, that's the key question.
So maybe a little more context on PBMs,
and then let's try to answer your question, David.
So one, they're huge.
PBMs manage pharmacy benefits for 266 million Americans,
and that number's old.
That's as of 2016.
So think about basically all Americans
get their prescription drugs through a PBM.
Despite there used to being hundreds of PBMs, there's now fewer
than 30, and there's essentially three that cover about 80% of the market. And those are Express
Scripps, CVS Caremark, and OptumRx, which is actually owned by United Health Group. So
interesting to know that Caremark, that PBM, is corporately bundled with CVS, a pharmacy,
but OptumRx, corporately bundled with an insurance provider.
So there's vertical integration happening here too.
Yes. So if you want to be a little bit cynical about it, you could say they've really become
kind of the gatekeeper for consumers getting access to drugs since a doctor is not going to
prescribe a drug if only two of the three big PBMs have it on a negotiated agreement there.
So each PBM individually has control or almost like a
veto. If a PBM says, well, we're not going to work with that drug or that drug manufacturer,
doctors aren't going to keep a big list in their head of what insurance companies work with what
PBMs that have what drugs. So as a pharma company, you kind of need all three big PBMs to come to
some terms with you to be on their formulary and
handle the reimbursement for your drug. So one other way you can kind of think about it is a
PBM is sort of like a health insurance company, but they just do it for the pharmaceutical benefit
and not all the other stuff that the health insurance companies do. So you talked about
prices. A major mechanism for the way that these prices are negotiated and set is the rebate mechanism
that the PBM negotiates.
So manufacturers usually have to pay the PBM a rebate, which lowers the net price of the
drug, even though the list price stays the same.
So there's a sticker price, but then there's a rebate that, you know, once the PBM
pays the sticker price, actually the drug manufacturer... How does any of this get past
the DOJ? Great question. So initially the rebates worked well for drug manufacturers since there
were a lot of PBMs and they could negotiate. But now that there are three big PBMs, the pharma
manufacturers have essentially lost all their leverage in most cases. I'll say in most cases, and we should come back later to what are the
exceptions. So rebates are extremely high. Eli Lilly has publicly claimed that the cost of these
discounts and rebates accounted for 75% of the sticker price of insulin. If you're getting a
rebate on 75% of the total price, the sticker price is not
the price. Wow. Wait, so who gets the rebates? Is it the PBMs themselves or the consumers?
Well, PBMs say that they tend to pass most of the rebate along to the healthcare plan.
Yeah, consumers are far away from any of this. And the health care plan says they share it in some fashion with the employer in some part of their agreement to be the health care provider, the insurance provider for the employer.
But this is a quagmire of a debate that is out of scope for this episode.
And my favorite quote from one source that we talked to described rebates as a game of hide the sausage.
Oh, gosh. Wow.
But yes, you're right, David. Nowhere in there did I say, oh, the patient gets the rebate.
You can see how demand signals from patient and actual sort of clearing prices of a patient and what they're willing to pay for a drug, all that signal just gets lost in all of this middleman mania.
Wow.
So that is the current state of what happens when many people or most people go and fill a prescription.
So bringing it back to when the Novo Nordisk merger finally happens. This is the background on the go-to-market side,
at least in the US.
And then there's also the background
on the infrastructure side,
thanks to genetic engineering,
where scale now really matters.
And both companies are now on much more of an even footing.
So in January 1989, the Novo Nordisk merger is finally announced.
And it's a dual merger of both the operating companies and their respective foundations.
So the two foundations merged into one and the two operating companies merged into one as well.
And I had to dig a bit to figure out
the exact economic splits. I believe that the final ratio was 62% Novo and 38% Nordisk. So Novo
was still the kind of larger majority institution here, but this is a far cry from when discussions
first started 10 years ago and Nordisk was this little, you know, hey, we're buying you for cash, essentially.
No, now it's like this is really a 60-40 merger.
It's crazy.
The two guys that split off and went to be cowboys and start their own little competitor, even though they didn't have the license, ended up creating the bigger company.
Yeah, wild.
And they drove each other to create all of this innovation
over the years. So the new combined company has roughly a billion dollars in insulin revenue
and 50%, 5-0% global market share with Eli Lilly just behind at 45% and Hosted at 5%.
That kind of tells you right there how much the market has grown just during the decade of
the 1980s. That puts the total market size at roughly around 2 billion for insulin. 10 years
ago, the total market size was 500 million. Wow. Yeah. Wow. The Enzyme and other businesses within
Novo, they stay with the company for now. They would get spun out later
in the year 2000. And that contributes another roughly half a billion in revenue, but with lower
margins, as we talked about. The Novo CEO and Henry Brenham from the Nordisk side, they remain
as co-CEOs for the next couple of years. And Brenham notes that they are still a dwarf compared to the increasingly
consolidated pharma market out there, but we are, quote, a specialized dwarf that will probably
create a certain furor on the global stage. And what they're referencing here is, as we were
talking about, this is the era when just huge pharma mergers start happening. So Glaxo and Welcome
merge around this time. Astra and Zeneca merge around this time. Sanofi buys Horsch. These are
all multi, multi-billion dollar, tens of billions of dollar transactions that makes Novo and Nordisk
look kind of like small potatoes at the time. And actually, Wall Street
and the investment community believes that this is really just the first step, that this is Novo
and Nordisk and the leading insulin business in the world sort of preparing itself for a further
merger or sale into one of these new diversified global pharma conglomerates. And actually, this is crazy
to think about in retrospect, but Novo Nordisk management agrees with that. That's actually
their plan. There's no rush here, but they think that they do need to merge into a larger
organization. So they think the writing is on to merge into a larger organization.
So they think the writing is on the wall where we need scale in order to function in this
changing marketplace. And so we're going to merge in. And what they didn't realize was
that the market that they were on top of would actually, sadly, be a tailwind that gets them
to scale without merging with anyone else. Yes. Basically, all throughout the decade of the 1990s and into the 2000s,
management is in constant merger or sale negotiations with one of these big pharma
giants or another. And kind of luckily, none of them come to fruition. And in the meantime, without anyone including them really noticing,
the combined company just keeps compounding on these tailwinds of the expansion of the insulin
market and insulin treatment of type 2 diabetics and all the supply that's unleashed by genetic
engineering. So revenue and profit compound again at like 20%,
sometimes 20% plus annually for like 15 years there. They're firing on all cylinders. In the
year 2000, they signed a huge deal with Walmart. They land a supply agreement with the VA hospital
system for the first time, the Veterans Affairs Hospital System in the US, which is enormous. And so by the end
of 2003, annual revenue for the company is now over $4 billion. And that's pretty much just on
insulin alone. Remember, they've spun out Novozymes, all the subscale pharma businesses
that Novo had are all gone. And that's when management finally decides to sell the company. So in 2004,
they have a deal on the table to combine with the Swiss company, Sirono. Management is bought in.
They've got the operating company board bought in. They're ready to do it. They just need to
go get approval from the foundation board. Which is the only shareholder that matters.
But there's never been a conflict between the foundation board and the management board.
Everybody's always been aligned here. But this is like the whole C-suite of Meta deciding to
sell the company to Apple, and then they just have to go get Zuckerberg's approval to do it.
It's literally that scenario.
Yes.
And there's a clause in the foundation's agreement with the company
that there must be a, quote, convincing business argument
from the company's board of directors to the foundation board of directors
that any merger or sale is a necessary precondition
for the business to maintain and expand its position as a competitive
business at the international level. Now in management's eyes, like we've just been talking
about, there's so much consolidation happening in the industry. Like, of course it is a necessary
precondition given everything going on that we need to get to a larger scale. And so that's why
we have after 10 plus years, finally found the right
deal. So they go to the foundation board expecting that everybody's going to see the light and just
agree here. And the foundation board is like, yeah, I mean, I hear what you're saying, but
have you looked at our revenue and profit growth over the last 15 years? Are you really telling me that we need to do this
in order to maintain and expand our position as a competitive business? Are you really,
really telling me that? And management's like, yes. Isn't this what we've been working to? Why
did we spin off the enzyme business? Why did we do all this if we weren't just preparing for a sale?
And the foundation board is like, how about you come in and present to us with your financial advisors?
My rubber stamp's feeling like it's not working right now.
I'm not sure.
Yeah.
Oh, my daughter loves to say when something doesn't go her way these days, she says, not working.
Foundation board is like, not working. Foundation board is like, not working. So what ensues, management comes in,
they present in two board meetings, first in August, 2004, and then a second one in September
where they get a do-over and they fail to convince the foundation board. So they block the merger.
This is like the opposite of what happened at OpenAI,
where the foundation here is saying like, no, you must continue as an independent commercial entity.
It's a fascinating analog. And this is, I think, one thing that makes this company
really, really unique. But for having foundation control with a very specific charter and mission,
this company gets rolled up. Absolutely. 100% chance if this
ownership structure were not in place, we would not be doing this episode today. And I don't
exactly know what the deal terms were, but basically in public company land, if anybody
comes to you and offers you 25 to 30% higher than your shares are currently trading, congratulations,
they get to own your company. And that didn't happen.
That didn't happen here.
Which turns out to be,
unbeknownst to pretty much anyone at the time,
and I'm sure not even the foundation board,
a very prescient decision
because there is a small group of researchers
within Novo Nordisk
led by a woman named Latte Bjerre Knudsen,
who is working on a pretty incredible project that is showing a lot of promise.
And that would be GLP-1 agonist drugs.
That is a mouthful, David.
That it is. But I'm pretty sure many of you know what that term
means, or even if you don't, you've probably heard the marketing names for the current class
of those drugs that Novo Nordisk has on the market, which would be Ozempic and Wegavy.
Or Ribelsis, which just got FDA approval pretty recently. Yes, indeed. We want to thank our longtime friend of the show,
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So David, glucagon-like peptide, one receptor agonist. What is it and where did it come from?
Well, it really is the story of Lata Biera Knudsen. She started at Novo in 1989, the same year the merger happened, right out of undergrad as a scientist, actually in the
enzyme division, which I didn't realize until you sent me an article last night, I think, about this. Yeah, remarkably,
there is this paper, I guess it's a paper, called Inventing Liraglutide, a glucogen-like peptide,
one analog for the treatment of diabetes and obesity, that was published in 2019. But it is a first-person account by Lata of the entire journey and her career and how all the research
went down and where it came from that is published in ACS
Pharmacology and Translational Science publicly available to everyone. Like she has just told the
story and it's very academic scientifically written, but it's super cool that she's the
hero of this story and sort of got to write how it all went down. Yeah, super cool. We'll link to
it in the sources. Yep. So eventually after a couple years, she switches from the enzyme division to the diabetes business.
And specifically, remember, this is not long after the genetic engineering revolution has happened.
She gets put on the team that is screening new potential compounds that they could create for treatment of type 2 diabetes. Right around this same time,
oral anti-diabetic medications are becoming a big thing in the market. So these are drugs like
metformin, if you've ever heard of that, that's the most commonly used one for type 2 diabetics.
They're kind of like the first line of defense for type 2 diabetes before you progress to insulin treatments. And Novo
doesn't have a drug in this category. Despite being like the insulin leader,
Novo and Novo Nordisk never had a viable oral anti-diabetic. So Lata's part of this group
that's looking for new candidates. So in the early to mid-90s, Lata
starts digging into the academic research, and there's new work coming out that in type 2 patients,
a big part of the mechanism that messes with actual insulin production is a hormone called
glucagon-like peptide 1, or GLP-1, Ben, as you were talking about. And the thought is that if you could somehow get more
GLP-1 into these patients' bodies, you could stabilize their insulin production and thus
treat the disease. Seems pretty straightforward. You could imagine that you could now just use the
same recombinant DNA techniques to genetically engineer, more GLP-1, just like you engineer human
insulin. No big deal. Seems pretty straightforward. In fact, why don't you just go eat some GLP-1?
Just get it into your body however you want. I'm sure it'll work out. Right. No big deal. Except
the problem is GLP-1 only stays active in your body for about five minutes before your body completely metabolizes
it and breaks it down. So in a normal healthy person, you're just producing GLP-1 all the time
and it's regulating your insulin production, etc. In type 2 diabetes, that gets disrupted.
You can't just put more regular human GLP-1 in the body or it's going to go away immediately.
So a whole lot of people across the
industry kind of bang their heads against the wall. Nobody can figure out how to make this work.
And the industry and the academic research community pretty much abandons it as a drug
candidate. But Lata is like, if we could make it work, this would really, really help people
and be a great drug. So she faces a lot of pressure inside the company, outside the company.
Why are you still hanging on to this? Why are you still pursuing this path? And then finally,
a few years later in the mid nineties, management actually gives her an ultimatum. And they're like,
you either need to crack this and get an actual drug candidate in the pipeline within a year or we're going to shut down this
whole program and remember this is even like novo nordisk the world-class most focused on pure play
diabetes research company in the world and even they, yeah, we're almost ready to abandon this
whole thing. Crazy. What year is this? This is like 95, 96. All right. And she's been doing
research on this since like 91, I think is when her and the team started cranking away on GLP-1
research inside Novo. Around that. So a few years with nothing to show for it. Yep.
So she keeps tweaking the GLP-1 molecule. And again, you can do this with recombinant DNA.
You can tweak any molecule.
So eventually, she develops a GLP-1 analog, analog being, you know, similar type molecule
called liraglutide that includes a fatty acid grafted onto the molecule that helps prevent
the body from breaking it down. And this is the big breakthrough. Liraglutide ends up having a
half-life in the human body of 13 hours compared to a half-life of two and a half minutes for
straight-up GLP-1. That'll help. Yeah. That satisfies management's
ultimatum. The mechanism by which it does this is totally fascinating. So you mentioned that the
fatty acid gets attached to the GLP-1 to create this GLP-1 analog. The way it basically works is
it has to bind in a very specific location such that the receptor is not blocked, but it is sort of grafted onto that molecule so
they can travel together. The fatty acids then make it so the GLP-1 can bind to another protein,
which I believe is pronounced albumin, which is this really large protein that is very common in
the bloodstream. And so it protects the GLP-1 molecule from the degradation by enzymes, and it protects it
from being sort of quickly cleared in the kidney because that sort of bound molecule
is now too complex, too large to be filtered.
So it kind of makes it like a big truck bouncing down a small highway in that the molecule
is protected.
Yeah.
And I think that's how she phrases it too when she describes it as protecting the molecule.
Yep. Yeah, and I think that's how she phrases it, too, when she describes it as protecting the molecule. Yep, the fatty acid sort of, well, it makes it big and stick to stuff.
Sometimes it's good to have a layer of fat around you.
Okay, so 13-hour half-life, you know, this liraglutide can become basically a once-a-day drug instead of an every-five-minutes drug?
Yeah, well, I mean, eventually.
But now here's the thing with this stuff. To get a whole new class of drugs to market
takes a really long time. So this is a big breakthrough, kind of 97-ish timeframe. But
Nova's like, great, we're going to invest in this. This is promising.
We'll see in a decade if we can get this to market. So treatment of type 2 diabetes.
Of course, I'm talking about the world-famous, well-known Bayeta from Eli Lilly.
Not a novo drug, not from Lata's work, and developed in a completely parallel way.
Not Ozempic, not Victoza, not Wagavy, something completely different.
This might be the most random occurrence that we've ever had on a choir.
David, if I called you and said, ship me a lizard, this is important, would you do it?
Knowing this context, I would actually say yes.
An actual lizard.
Is that where you're going?
Yes.
Yes. Okay actual lizard. Is that where you're going? Yes. Yes.
Okay, great. So during this time, in parallel to Lata's work at Novo, two American researchers in the VA hospital system, the Veterans Affairs Hospital System. Government employees. Government
employees somehow discovered that a hormone contained in the venom of the Gila monster lizard,
literally the lizard called the Gila monster, which has poisonous venom.
One of the hormones in its venom also was a GLP-1 analog, acted similarly to GLP-1 in the body,
and didn't break down within five minutes.
David, go get that poisonous lizard venom. Take all the poison out and inject it into me,
please. That's what I'm asking you to do. Let's see if that works. I have no idea how this got
proposed and why people thought this was a good idea, but incredible that it worked.
Incredible.
So in 1995, Daniel Drucker had a lizard shipped from Utah to his lab, and he started experimenting
with the deadly venom.
David, aside from the research done at the VA, do you know where Daniel Drucker was a
researcher?
Ooh.
Well, I know one of the scientists at the VA was a guy named John Eng, and I believe
he was at the VA hospital in the
Bronx. I'll give you a hint. Daniel Drucker was not a researcher at the VA. He was at a university.
Daniel Drucker, and I believe still to this day, was a researcher at the University of Toronto.
Oh, amazing. It comes full circle. And he owns the domain glucagon.com to establish some extra credibility.
I love it.
Yeah, so it seems best I can tell that there were sort of parallel research efforts being done on the early GLP-1 and sort of place to find GLP-1 in the world to eventually turn it into a product.
The naturally occurring GLP-1 in the world to eventually turn it into a product. The naturally occurring GLP-1 analog,
as opposed to the engineered liraglutide, it actually does become a drug candidate.
They license it to Eli Lilly. Eli Lilly develops it into Bayeta, and Bayeta hits the market
in 2005. It's FDA approved, and it works. It's not poisonous. It doesn't kill
people. And it is the world's first GLP-1 analog to come to market. But like it is effective,
but it's not like overwhelmingly more effective than traditional anti-diabetic orals like
metformin and the like. And more importantly, the half-life is not as good
as liraglutide. So, Bietta requires two injections per day, which, you know, if you're a type 2
diabetic and you're not yet at insulin treatments, you're like, well, I could stick with oral
antidiabetics like metformin. I could go try this new thing,
but that's going to be two injections per day.
Do I really want to do that versus stick with orals
and then transition to insulin injections when I need it?
I can barely remember to take my multivitamin orally once a day.
Asking anybody to do something,
especially invasive twice a day is a big behavior change.
Big, big behavior change, totally.
And it's important to remember
what these GLP-1 agonists are actually doing.
It's just generally raising the baseline of your body's own ability to secrete insulin.
It's sort of making you behave more like a person without diabetes than you otherwise would.
Yes, correct.
But many people still would need insulin on top depending how far
along the spectrum you are. Yes. So that's 2005. So then in 2007, Lata and Novo Nordisk's
liraglutide GLP-1 agonist enters phase three human clinical trials. Yep. And for those who have heard
these phrases before phase one, phase two, phase three, and never knew what they meant, phase three is the really big, really expensive one. And I'm going to quote Alex Telford, who wrote this really amazing, long blog post sort of explaining how the clinical trial process works and why drug development has gotten so expensive and all that. We'll link to it in the show notes. It's one of my primary sources. He says, typically, phase one trials focus on safety and finding an appropriate dose,
often in healthy volunteers.
Phase two, on establishing preliminary evidence of efficacy in patients.
Phase three, on confirming efficacy in a larger sample of patients and collecting robust safety
data.
And it is worth pointing out, when I say the expensive one, 29% of all R&D for a drug is spent right
here.
So phase one is 9%, phase two is 12%, phase three is 29% with the rest of it sort of coming
from that early basic research, drug discovery, preclinical studies, and a little bit later
with the regulatory review.
But like almost a third of the entire spend of the whole R&D pipeline for a drug is
here. So big freaking deal to go through a phase three trial. And my understanding is that most
drugs never make it to phase three. And if you make it to phase three, that's like very promising.
It's not automatic that you're going to get approved and it's going to work, but it's
promising. It's a great question. Thanks to Alex, we have the data right in front of us. So here's the probability that a preclinical study even makes it to the phases. That's 69%.
So you're a little over two-thirds once you enter a preclinical study to graduate to phase one,
two, and three. But in phase one, two, and three, about half of them get weeded out each time. So
52% make it through phase one, 36% through phase two, and only 62% through phase three. And once
you get into regulatory review, then there's a 90% chance that you get approved. But each one
of these gates filters out about half of the drugs that enter. But I guess if you look at the kind of
lifetime risk of approval for a drug, by the time you make it to phase three, you're pretty far.
So of the 69% that even make it into clinical development, you've got 36% left at graduating
phase one, then 13% left graduating phase two, then all the way at the end, 8% graduating out
of phase three. So it gets pretty winnowed down over that course. But to your point, it's a big
deal to enter phase three because it shows that you are one of the 13% that have made it this far.
Yep.
Cool.
Okay.
So as they're in trials, and Novo knew this, but it's starting to get confirmed, that one, liraglutide is going to be more effective than bieta.
Two, more importantly, it's only going to need to be injected once per day because the half-life is longer,
and three, it's also now starting to be observed and confirmed in these human trials,
something that Lotta had noticed all the way back in the animal trial phase,
that rats who were injected with very large amounts of liraglutide would stop eating.
And it seemed to have an effect on appetite.
And if these rats had very large amounts of it,
they would literally starve themselves to death and refuse to eat.
And this effect is persisting in humans here in the phase three trials.
Which wasn't a guarantee because there's lots of rat behaviors
that then don't replicate in human trials.
And so while they were not specifically studying it
in this trial,
they were studying the effects on type two diabetes.
The early reports of this might be replicating in humans
was promising and surprising,
but it wasn't happening to huge degrees.
Like with the dosage of liraglutide
that they were planning to sort of make the approved dose, it's not like you were seeing this crazy dramatic weight loss. It
was just like, oh, that's interesting. You also eat a little bit less when you're on this
liraglutide drug. But nonetheless, it's a pretty interesting thread to pull on, especially because
many other anti-diabetic drugs up until this point had actually caused patients to gain weight.
Right. Which, of course, compounds the problem.
Right. So, Lada and her R&D team, they push Novo Nordisk to consider also pursuing a parallel
FDA approval and commercialization path for the same molecule, liraglutide,
as a weight management drug based on this evidence that they're seeing in the trials.
Which in FDA speak is an indication. You're trying to get it approved for a second indication.
Yeah. Now this was truly an out there idea. There is a huge, huge stigma around weight loss drugs enormous yes the stigma is real but
there's also an interesting product efficacy thing here so vox.com put it really well they said
not only do weight loss medications have a dangerous history but there is also a persistent
bias and stigma against the disease that now afflicts nearly half of americans obesity is
still widely viewed as a
personal responsibility problem, despite scientific evidence to the contrary. And history has shown
that the most effective medical interventions, such as bariatric surgery, which is stomach
stapling, effectively the gold standard in treating obesity, often go unused in favor of diet and
exercise, which for many don't work. And like this is proven over and over and over and over again. You can't just tell people change your lifestyle. Most people literally
can't. There's too many things working against it, including their own biology. Additionally,
this is pretty interesting. Researchers thought it was actually impossible to create a weight
loss drug that was both safe and effective. Yeah. You talking about Fen-Phen?
Yes.
I mean, it dates way back even before Fen-Phen
to the amphetamines in the 70s.
People are taking Speed
because that's like the accepted weight loss drug.
Yeah.
Fen-Phen was a combination of a drug with Speed.
One of the Fens is Speed, I believe.
And so in the 90s, was it heart attacks?
Yeah, it was major heart damage.
Yeah. So that scared the crap out of the FDA, out of companies that are pursuing weight loss drugs.
Yeah, this was a disaster. It kind of was like a grassroots thing that built up. And the two
FENs were independently approved for separate use cases. And a physician got the idea to combine them.
And since both drugs were approved, Big Pharma was like, oh, wow, weight loss drug, miracle drug,
let's commercialize this. And so they pushed the FDA to rush the process, which they did,
thinking, again, both of these drugs are approved. And it turned out that when used in concert,
it caused major heart damage. So I think something like 6 million Americans
took this thing and like a large portion of them
ended up with major cardiovascular issues.
It's awful.
I mean, that was the worst one,
but there was like seven or eight over four decades
of these either dangerous
or just completely ineffective weight loss drugs.
So most pharma companies completely steered clear
of the black hole budget item that was weight loss drugs. So most pharma companies completely steered clear of the black
hole budget item that was weight loss research and development. It's kind of going back to the
beginning of the episode and Rockefeller's dad and the snake oil salesman. Like this is the
stigma around this stuff. Totally. And to illustrate this numerically, the annual obesity
drug sales were only $744 million up until 2020. The market for weight loss drugs,
you know, it was just tiny because basically nothing worked and everyone was scared of it.
That $744 million included the commercial sale of liraglutide for weight loss, which had, you know,
already been on sale for six years. So why is everyone freaking out about Ozempic now?
Like, does it feel like basically nothing worked before? It was true. Nothing worked before in a safe way. So there is sort of this like magic number around if you can actually safely enable
someone to lose 10% of their body weight or more, then there's a market. But otherwise,
it basically rounds to zero because people just don't think it's worth the trouble and neither
of the companies. Yeah.
It's like you need the appropriate amount of activation energy for the reaction to catalyze.
Exactly.
And just to put a really close to home, even finer point on this stigma, as recently as 2005, 2005, like same year Bietta came out, Novo Nordisk's own official position on the obesity category, as articulated by the then
CEO Lars Sorensen, was, quote, obesity is primarily a social and cultural problem. It should be solved
by means of a radical restructuring of society. There is no business for Novo Nordisk in that area.
Now imagine Yolanda and her team trying to get the company to release a Lyra Glutide for weight loss when that is the company's official position.
Right.
You're like, look, I'm looking at these humans who are eating less.
Right.
So, you know, what's going on here and why is Lata pushing for this?
You know, she's a great scientist, well-respected, you know, and at this point she's made her career
on the development of liraglutide and GLP-1 against all odds just for diabetes. Why is she
pushing this? This is a very, very different situation than what happened with fen-phen.
Totally. We still don't know the super long-term effects of it, but we certainly know that
months after taking this thing, large populations of people are not having heart attacks. Yes. And Lada knows this too, obviously,
because lirolutide, like the drug, the same drug, the same thing, has now been through 12 plus years
of super rigorous trials, starting with animals, now with humans, international approval processes.
You know, there were issues
along the way like there are with any drug. Dude, the 2010 trial was 9,000 patients across
32 countries. This is a big, expensive, almost two-year trial. Yeah. She's like, yeah, I mean,
we're pretty sure here this is about as safe as any drug possibly could be. And at least in the medium to short term, this is not a cause for
worry in terms of safety. It's just that all that testing and everything was done for a different
use case, but it's the same drug. So she eventually convinces the company to push forward with this.
And in 2007, so only two years after the CEO made that statement, Novo enters a slightly higher dose version of liraglutide into human trials for weight loss.
And why do minds change quickly on this?
The commercial opportunity here, if you can get approved, if you can get it to work, if it's safe, is unlike anything else the pharma industry
has ever seen. Like if you could really crack this market. So at this time, back here in the
mid-2000s, already about a third of the U.S. population is medically obese, you know,
defined as a body mass index over 30. Two-thirds are medically overweight. The World Health
Organization estimates that 500 million people worldwide are obese. So that's a total addressable
market here of like 100 million people just of medically obese people in the US alone,
half a billion plus, probably more like a billion worldwide. There are no other drugs and
diseases that affect this many people, not even diabetes. And just like diabetes, it turns out
that in most cases, obesity also is a chronic disease. So yes, you have this huge tam of people,
but it's also people that are then going to be taking the drug probably for the rest of their lives.
Which is just like a statin or, you know, there's a lot of treatments for chronic diseases that we give people that are drugs that you have to take for the rest of your life.
Yeah, you're right.
It's like totally different than making a vaccine or making a, you know, hepatitis C cure or something like that.
It really is a, for better or for worse,
a durable, ongoing, recurring revenue stream. This is annual recurring revenue here. Yeah.
So in early 2010, Novo gets final approval for Victoza, which is the marketing name for the
diabetes version of liraglutide. So five years after Bayeta, Victoza is finally officially
hitting the market in the US.
And remember, this is just FDA approved for diabetes. But of course, everybody knows about
these trials going on for weight loss and the ability to lose weight. It hits the market and
it is a enormous hit. It doesn't just overtake Bayeta as the leading GLP-1 drug on the market
for diabetes. It massively expands the market. So year one, in the first year that it's on the
market, Victoza does roughly $300 million in sales. The next year, the first full year it's
on the market in 2011, it does over a billion dollars in sales just in that year. So there's this concept in the
pharma industry of a quote-unquote blockbuster drug, and these are drugs that achieve a billion
dollars in annual revenue. It's sort of like the tech industry calling it a unicorn with
a billion-dollar valuation. Exactly. It's the pharma version of a unicorn.
And these are like Lipitor, Humira, Atavir. There's a bunch of examples, but
that really are a huge breakthrough, address a large enough population. There's a bunch of ways
to sort of slice it, but usually they're drugs you've heard of. Yeah. And Victoza hits it in,
you know, its first full standalone year on the market, which is super fast. So what's going on here, obviously, is that people are not using
Victoza just for diabetes. I mean, people are using it for diabetes, but people are also using
this for weight loss. And you might be asking yourself, how does that work? If the FDA has only
approved it for diabetes, what's going on there? Well, it is actually at the doctor's discretion
if they want to prescribe an off-label use. So if a doctor does enough independent research or reads a study or technically,
I don't think the drug companies can provide any marketing materials or sway the doctors in any way.
So the information can't come from the drug manufacturer. But should the doctor believe
that this drug would be good for their patient, even though their patient doesn't have the FDA-approved illness, or I guess whatever the indication is. The FDA-sanctioned indication.
Yes. The doctor can prescribe it for an off-label use. Right. And that's not illegal. And let's be
honest here. Some of this is doctors, but a lot of this is patients going to doctors and being like,
hey, I heard that this Victoza thing could help me lose weight.
What do I got to do to make you prescribe it for me?
I saw an ad that said, ask your doctor if Victoza is right for you. So I'm asking you if it's right for me. Yeah.
We should say everything in healthcare has a modifier of sometimes, and everything I just
said is true sometimes. It's not always true that the
doctor has complete control to prescribe off-label, but I think it's a reasonable way to think about
it. Yeah. But David, it's not that effective. You can lose weight taking Victoza, but it's not
necessarily a life-changing thing. Right. So at the end of 2013, Novo submits Saxenda, the official weight loss version of
lyroglutide to the FDA and EU for approval. And it's a slightly higher dose version and
expectations are at a all-time high for this. Novo's market cap has already been running.
It now passes $100 billion on the anticipation of Saxenda's performance.
And it's not that big a hit. It's a hit. It has good sales. And to be fair, I think a large amount
of the early adopter GLP-1 weight loss market was already just using Victoza. So clearly a lot of
the Victoza revenue was actually Saxenda revenue that was pulled forward, so to speak. But Ben, like you're saying, the big issue is that even with the
slightly higher dose of liraglutide, it yields long-term on average across populations about an
8% BMI reduction, which is meaningful, but it's not that meaningful.
In research, it is crazy. I heard over and over again, physicians and other people in the industry
echo this kind of magical 10% weight loss reduction number, where there was always this
belief in the industry that if something could reliably help you lose 10% or more,
then it sort of tips. And Saxenda just didn't get there.
Yep. So regardless, the next year, 2015, is a record year. Total company revenues for Novo
Nordisk hit $16 billion, which is incredible for a pure play diabetes and now diabetes and
relatedly obesity pharma company. But the stock flatlines.
Yeah. And right around the same time, you've got the insulin
pricing scandal where America is waking up to the idea that insulin is getting more and more
expensive and it's becoming more and more essential for a huge population of people.
And this is across the whole industry. It's Sanofi, it's Nova Nordisk, and it's Eli Lilly.
Everyone's insulin has gotten more expensive and they come under fire in the public eye. And so
this sort of Sixenda not being the blockbuster drug that expectations had trumpeted it up to be,
plus this increasing pressure around insulin and I think a CEO change.
Yeah. Well, the CEO change I think was a result of this. So what you're leading up to is in 2016,
the stock takes a 40% hit, which is wild. You know, today, at the beginning of 2024,
this is a half a trillion dollar company. And a few years ago, it was a well less than $100
billion market cap company. Yep. But there was that really dangerous narrative that
these GLP-1s aren't going to be as crazy as everyone, at least everyone in the know,
thinks. And also, their only franchise of insulin is suddenly under
fire. Yeah. So in September 2016, the then-CEO Lars Sorensen resigns. Current CEO Lars Jorgensen
takes over. Amazing. So wonderfully Danish. Sidebar, this is wild. So right now, today,
as we record this, Novo Nordisk is the 15th largest company in the world by market
cap. And when I was doing research for this episode, I, of course, Googled Lars Jorgensen.
When I did, the results that Google gave me, results one through six were for the University
of Kentucky swimming coach, who is also named Lars Jorgensen. Talk about below the radar. Who I'm sure is a great and storied,
you know, NCAA swimming coach.
But it wasn't until number seven
when I actually got the CEO of Novo Nordisk.
That is how like underappreciated this company is.
It's crazy.
Anyway, right around this same time,
Novo begins phase three trials
with their new next generation improved GLP-1 analog,
semaglutide, which I think is pronounced semaglutide. We've also heard semaglutide.
We did an obscene amount of research on this and don't have a good answer. So if you know,
get in touch with us. The most reputable source we could find seemed to say semaglutide. Yes. Which makes sense, you know, coming out of liraglutide, and I believe there's
a duaglutide, so we're rolling with semaglutide. Acquiredfm at gmail.com if you disagree.
And semaglutide has several benefits over liraglutide. One, it is much, much longer lasting in the body,
so it only needs to be injected once per week instead of once per day. Massive benefit just
on patient convenience there with the half-life being so much longer. Two, and much more important
for the near term, it is twice as effective as liraglutide for weight loss.
So we're talking 15% plus long-term BMI reduction, which is well beyond, Ben, as you were saying, the 10% magical threshold.
Yep. It moves from the domain of irrelevancy to the domain of, is this a miracle
drug in the press? And there's some more benefits, potential benefits that we'll talk about in a
little bit here. But this compound, this GLP-1 agonist, semaglutide, is, of course, ozempic
and weggewie. All the same thing, all semaglutide. Ozempic is the
diabetes marketing product, and Wegavy is the weight loss marketing product.
Yep. So a few words on how it affects weight. The natural GLP-1 produced in your gut
travels to your brain. This is a hormone that moves throughout your body, much like many other
hormones, and it triggers a response to tell your brain
Hey, I'm satiated
It tells you that you've had enough that you feel full and it can cause you to stop thinking about your hunger
And if you're someone that's constantly fixated on food and restraining yourself from indulging it can quiet that impulse
Or at least reports are that that is sort of what people feel. It can also slow digestion. So not only does your
brain think you're full, you literally are now full since the food takes longer to move through
your digestive system. And David, you mentioned that 15% weight loss. They're still studying
exactly why it works, but it's believed to be that it's sort of these two mechanisms working
in action together. And as you can imagine, food taking longer to move
through your system kind of can make you feel gross. Like the side effects naturally include
things like nausea, vomiting, constipation, things like that. But these reports of side effects are
pretty widespread. I listened to a bunch of things, one of which was a TIGAS call with a professor of
cardiology that cited about one out of six patients have side effects that are so severe that they discontinue the drug. So it's sort of this, we don't exactly know why it works. We have
studied a bunch, so we know that it works, but you can sort of imagine why the side effects might be
linked to the idea that if you're eating, you know, really calorie dense food, really fatty food,
hard to digest food. And it's moving slower. Right. I wouldn't want food either. Yeah. The thing that's
really fascinating to me about semaglutide as a weight loss drug is that you can't just sit around
eating pizza and ice cream and lose weight. The laws of thermodynamics in the universe still apply.
Your body will always retain the difference between the digestible calories that you eat
and the calories that you burn. But the reports from
those who are taking it, it's really more like you just don't want to eat large quantities. You
don't want to eat really calorie-dense food. And it sort of just changes your habits without you
trying, or at least you having to try as hard as you did in other attempts to lose weight.
You know, it sort of solves the debate that had been going on for decades of, is it a behavioral problem or is it a medical problem? Well, if you're taking medicine that changes the diabetes. And then in 2021, Wegevi gets approved
for weight loss. Ozempic does over a billion dollars in revenue in 2019, its first year on
the market. It's clear it's going to be a huge hit. And it's even more than that. This is even
more than Victoza back in the day. It does a billion dollars in revenue, but like it's massively supply constrained. Like it could have done a lot more. These drugs still, Ozempic
and Wegabee, could do a lot more revenue than they are doing right now. Which by the way, on earnings
calls, the company says, yeah, that's going to be true for a long time. The demand for this drug
will continue to massively outpace our supply. And we will be here on earnings calls over
and over and over again, telling you that no matter how many factories we build, we are supply
constrained still. Yes. So at this point, you know, it's funny, I think for most people that
are discovering Novo Nordisk now, us included, I didn't know anything about this company until a
few years ago. 32 years after Lada and her team started this research. Right. If anything, we think of this company as like, oh, it's the GLP-1 company. It's the
weight loss drug company. And like, no, for a hundred years, it was the diabetes and the insulin
company. But it's clear at this point now that, no, this is now a GLP-1 company. And that grew
naturally out of the diabetes and the insulin research and Lada's work
and sort of in this organic fashion that is so different than the rest of the pharma industry.
But the net result of this now is that, yes, insulin is still a large business within
Novo Nordisk, but it is a GLP-1 company. So when Wegevi finally launches in the US in 2021
as the official FDA-sanctioned weight loss version of semaglutide, it gets the same number
of prescriptions written for it by doctors in the first slightly over one month than Saxenda had in its entire drug lifetime.
People were already, quote-unquote, misusing Ozempic for weight loss before this. So, like,
Ozempic supply was fully exhausted, and then now Wegavy supply fully exhausted.
Well, in February of 2021, after the clinical trial finishes on semaglutide for weight loss, so for WeGoV to hit the market in the U.S., the New York Times runs a story and just calls it a game changer. They say, for the first time, a drug has been shown to be so effective against obesity that patients may dodge many of its worst consequences, including diabetes. So, like, with the biggest megaphone you could possibly point at people, they're being told this thing freaking works and it's a miracle drug.
Yeah.
And we'll talk a lot more about pros and cons and all of that and everything around that
in a minute here in analysis.
But just to wrap up the story, the company's market cap basically goes vertical.
In 2020, right before all this hit and as Ozempic was coming online, the market cap had climbed
back up above $100 billion. Summer 2021, it hits $250 billion. By the end of 2022,
it hits $300 billion, which, mind you, is against a market and macro backdrop of massively rising
interest rates and stocks and equities being down across the board. Novo Nordisk is up
during this period. And then this past summer in 2023, it passes $400 billion market cap,
and it is currently flirting with the half a trillion dollar mark. Revenue goes from $20
billion in 2019 to $25 in 2021, $30 billion in 2022. And in 2023, so far, in the first three quarters that they've
reported, it is up another 30% year on year. Of course, with Ben, as you said, years worth of
supply constraint demand pipeline. Yep. That is pretty crazy. David, you mentioned it as the GLP-1
company already, and that sort of transition has already
occurred. You're totally right looking at the numbers. 51% of their revenue comes from
diabetes-focused GLP-1 drugs and an additional 18% from obesity-related GLP-1. So 69% of their
revenue comes from semaglutide or liraglutide. I mean, it's crazy. That happened in a decade.
Yeah. Totally wild.
Insulin has become, to your point, it's still a part of the business, a smaller share of the
business. Again, this is of revenue, not of profits. But 22% of their revenue today comes
from insulin. That leaves about 9% from the other efforts that they're putting energy into,
rare diseases, things like hemophilia. They continue to be a ridiculously concentrated company. They make about $10 billion a year in
net income, so they're also a very, very profitable company, among the most profitable in all of
pharma. They have 55,000 employees, so it's a huge international company at this point.
And I want to talk briefly about margins. Later, we will talk
about why margins are actually not the most interesting measure to look at, but it's worth
knowing them because we talk about them on every other episode. Gross margins are better than
software. They run about 84%. Lily is also a very high margin company running about 80%. For context, Microsoft has a gross margin
of 70% and Google is 56%. How is Google's gross margin 56%? They must be stuffing a lot of other
revenue besides search into the top line. I assume all the billions they pay Apple comes out of cost
of goods sold, all the traffic acquisition costs. Probably also for their infrastructure and for Google Cloud.
Yep.
So at 84% gross margins, you should know they're 10 percentage points higher than your average successful big pharma company.
They're concentrated in terms of what they actually focus on, but they're enormous and
more profitable than everybody else.
So they've sort of threaded a needle that if you were pitched a blank canvas, you would say like, well, it's impossible. You need to make a trade-off somewhere.
If you're going to be so narrowly focused on just one or two conditions and really one singular
interrelated condition of metabolic disorders, either you can't have all the revenue or you can't
be so ludicrously profitable. And turns out the thing that they picked, they can be both. Yes. And also it gets better. So because semaglutide has such a long half-life relative
even to liraglutide, I mean, it's a once weekly injection. So like the half-life in your body is
days. It's staying in there for a long time. Remember natural human GLP-1, your body processes that in like five
minutes. So having GLP-1s active in your body for so long, it's reaching other tissues in your body
that normally GLP-1s wouldn't. And indications are showing that that is beneficial for those organs. So currently, Novo has clinical
trials going for semaglutide, like same drug, same GLP-1s, use case in treating cardiovascular
disease, in treating Alzheimer's, in treating kidney disease, many others. Again, this is all
for like a molecule that through FDA processes and EU processes has been deemed safe enough to be on the market for the accepted use cases.
Same drug now is showing evidence that it can also attack these other major disease areas.
This is the gift that keeps on giving here.
Could be.
Everything is really early, but it really
might earn the title of miracle drug. It really might. Now, not a scientist at all. This is just
my thought looking at this. But yes, could be a miracle drug for humanity and certainly already
is a miracle drug for Novo Nordisk in terms of financial performance. Like, no doubt about that one. No doubt about that. Well, this is a very good place. I've got a couple of broad topic areas
that I want to hit here. Let's start with the general state of affairs of GLP-1s today. So,
the first thing to know is sticker price. The price of Ozempic to treat diabetes is north of
$1,000, and Wegovi for weight loss is north of $1,300 per month
before insurance, and this is in the U.S. So expensive, right? That's a lot of money. In Canada,
of course, Ozempic is $147 a month. In the U.K., it's $93 a month. So everything that I'm about to
talk about is a uniquely American problem, much like most problems in our healthcare system. So how do these drugs get paid for in the U.S.? Well, that depends.
Rich people just out of pocket if they don't have coverage. We've seen all the headlines about it
being rampant in wealthy New York neighborhoods or around Hollywood, but let's segment that away
for a moment and say, well, okay, outside of that. Well, first, let's talk about private
insurers. You might have coverage by your company's insurance. And this is a good place to
talk about the two most pernicious issues in the entire U.S. healthcare system that are deeply
intertwined. One, incentive alignment, and two is time horizon. So the average American in the
private sector holds a job for 3.7 years.
That means that on average—
I see where you're going with this.
Insurance companies are going to churn you every 3.7 years or sooner if your company changes the insurance plan.
So their incentive is to cover you only in two categories of things.
One, things that pay themselves back in less than 3.7 years,
or two, things that have such an overwhelming demand from employees that their employers
think that they absolutely have to cover them to stay competitive. Now, you're sitting there
thinking exactly the right thing, which, David, you already acknowledged. But if I lose weight
today, I'll benefit in the long run. But will my insurance company lower their costs in some way?
I mean, if I'm obese, I'll almost certainly have complications later that'll cost hundreds
of thousands or millions of dollars once those become acute conditions.
But those costs won't be realized by your current insurance or your current employer.
Oh, man.
So if I'm an insurer, I'm like, great, I'm going to
offload all that onto Medicare. Exactly. The insurers are not really holding the bag for this
class, you know, these chronic conditions. This is the crux of the incentive problem in our
healthcare system. There is just a mismatch in time horizon. You are invested in your own health
for your whole life, but your insurance carrier is not.
They're invested in your health for your planned life with them.
Exactly. So what is the exception? The exception is if your carrier is the U.S. government.
So let's talk about Medicare. And Medicaid is a whole different discussion that involves states
and is unbelievably fragmented, so we'll just not actually talk about it right now. But let's talk about Medicare. So Medicare is through the U.S. federal government.
It is a health insurance for people who are over 65, basically. The U.S. federal government funds
that plan with taxpayer dollars. And so a while back, which was actually not that long ago,
just like 20 years ago, Medicare did not cover prescription drugs at all.
Medicare Part D was passed into law in 2003 and took effect in 2006. It allowed Medicare to cover
drugs, not just hospital and doctor visits, which was Part A and Part B. So today, Part D,
interestingly enough, is legally prohibited from paying for weight loss, and it is specifically
called out that it is legally prohibited. There have been loss, and it is specifically called out that it is
legally prohibited. There have been efforts to change this, but there was a bill introduced in
2013 that basically has never been passed to try to get through. Interesting. Do you know if this
was a result of the Fen-Phen debacle? That's part of it, but I think a lot of it is really just this
stigma of like, well, you really should be taking care of that yourself. You really should be making lifestyle changes. Yeah. I could see the argument of like, why is
the whole taxpayer base covering people who should just be exercising more? Yeah. Even though it's
definitely been proven that that is not the case. It's not their fault. Totally. The Wall Street
Journal has this great quote, the scientific foundation for treating obesity as a disease
rather than a lifestyle problem was solidified in the mid-1990s when researchers discovered that fat tissues
release proteins that act as hunger and fullness signals to the brain. This system is out of
balance in people with obesity, making it more difficult for them to lose weight. And for those
who do lose weight, there are biological mechanisms making it hard to keep it off.
So what is so interesting about Medicare is
that we will all end up on it one day when we retire and we get off of our private insurance.
So it does mean the government is left holding the bag with our health for the long term.
So there are really two parties with aligned interests for us to stay healthy,
ourselves and Uncle Sam. And for us, it's actually quite hard to look out for long-term interests
because the feedback loop is too long. So like, I go out and drink even though I'm going to have a hangover the next
morning and that's only a 12-hour feedback loop. Like, lots of times you make long-term bad
decisions. So the question is, can Uncle Sam fix that problem in some way? Well, it is far too
early to say whether these recent GLP-1s are actually miracle drugs that massively reduce
the complications later in life. And David, you mentioned there's research being done to figure
out it might reduce heart attacks meaningfully and strokes and liver and kidney disease. But
if all of these things turn out to be the case, the American taxpayer has a huge benefit in
investing early to keep all of our healthcare bills down later in life.
So I don't have a specific proposal.
I'm not saying the government should pay for every single person in the country to be on Ozempic.
We'll have to see where the studies kind of net out on the benefits of these long-term
things.
And taking the sort of moral thing aside of like, does everyone deserve a miracle drug
if it exists, even if there is no economics around it. It might just be ROI positive
for Medicare to do this if everyone's going to need knee replacements and hip replacements and
diabetes treatment and amputations and cardiovascular interventions.
Right. That is kind of the crux of the broader societal debate and issue here is obesity leads to such a huge amount of comorbidities and disease and health problems and issues.
And that's even just talking about the medical system, let alone everything outside of the drugs and cost and tax on society to
save those expenses later. That's the question here.
Right. So last thing to say here, payers are scared and rightly scared of how much it will
cost them in the short term if they do start covering these drugs. 40%, as we keep saying,
of the population today is obese.
And the list price of these drugs is over $12,000 per person per year.
So insurance companies, employers, Medicare, they literally don't have the budget right now to fund all the demand for these drugs.
So even if we had all the supply, so there's a lot of intentional slow rolling and campaigning
to try to get people to look at other interventions
first before these drugs, given how colossally expensive it would be right away.
Yep. Which might be a good time to talk about Eli Lilly and other companies out there that are
also bringing GLP-1 drugs to market.
Yes, please tell me about trisipatide.
Yeah, so obviously other big pharma companies
have not just been completely ignoring
this incredible development slash cash gusher
that has emerged in Novo Nordisk land.
Eli Lilly now has a GLP-1 diabetes-approved treatment
on the market under the diabetes brand name Monjaro that seems to be
as if not more effective as semaglutide in terms of weight loss when used for obesity.
And terzipatide is basically the same. It's a GLP-1 receptor agonist, but it is also a GIP,
which is basically bundling two hormones together that act in concert to be certainly a
little bit more effective on weight loss from the early trial data, but also potentially more
effective on helping your body produce insulin as well. So that's showing great promise. It was
approved in the U.S. for diabetes treatment in May 2022, and approval just came recently in November
2023 for official FDA-sanctioned weight loss use case under the
marketing name ZepBound. So look for that in 2024. What this really shows though between
Eli Lilly and Novo and other companies that are almost certainly going to get into the GLP-1
business, I think this is going to be like insulin all over again, where there's just going to be a series of product improvements and companies will drive innovation and increase supply.
I mean, the demand is so huge out there that Monjaro can be a huge hit.
Ozempic and Wegepi will continue to be huge hits.
Other companies getting into the game will be huge hits.
Novo has next generation GLP-1 drugs in the pipeline themselves.
Cagrasema is the big one that they're currently working on that they think will be as good,
if not better, than what Eli Lilly has with terzibetide. So I think we're basically just
assuming that everything continues to be proven safe in the long run. We're kicking off a new
super cycle here in pharma development around
these compounds, just like played out with insulin over the last century.
Yep. And it really also just goes to show like it was time. Multiple researchers arrived at
similar ideas concurrently, which we see over and over again in the world. Uber and Lyft is sort of
our modern canonical example. Cellular connectivity plus GPS plus iPhone
sort of made it possible to do something for the first time.
Multiple parties were arriving at the same time to do that.
And I think science had sort of just arrived at a place
where multiple parties could develop similar things side by side.
And so now there's certainly a catch-up race
among other pharmaceutical companies who weren't doing this
to now try to get into it and see if they can compete. Totally. Other things to know about these GLP-1 drugs today.
For diabetes, I tried to basically figure out from asking around, what are people actually
paying for this? Like, what are most people actually paying? Because list prices of drugs,
as we discussed earlier, is stupid. At least in the U.S., yeah. Yes. So there
are a lot of reports of people paying somewhere in the neighborhood of $300 a month after insurance
as their actual cost. And to corroborate that, a different way to arrive at that number, one person
told me that it is common for most employers to put between a 20 to 50 percent copay on these drugs.
So at $1,000, you know, that's $200 to $500.
So on the one hand, it's still very expensive, $3,000 to $4,000 out of pocket per year. That's
probably like my entire out-of-pocket healthcare spend in an expensive year. That's a big price
tag. But on the other hand, if that's the thing that changes your life that could be seen as an easy
choice now it's easy for us sitting here to say something like that because there's a lot of people
that don't have that kind of cash to spend on something that could potentially change their
life so there's definitely a meaningful access problem not just the supply constraint on the
manufacturing side but even at a highly subsidized rate from insurance a lot of people still can't
actually afford the drugs.
The last thing I want to say on the current state of GLP-1s is that not adherence is a bigger issue with these drugs than many other drugs that have come before it. There's some research that points
out that as many as 68% of people roll off it after a year year and part of this is related to price or changing
insurance that doesn't cover it or that it's hard to find since they're still supply constrained or
maybe there are side effects that a doctor is not sort of like staying on top of with you so you
just get fed up and you're like screw this i'm off but a lot of employers and insurance companies
are sort of waving their arms around and saying why are we covering this expensive thing when
people don't even stay on it and all the benefit goes away when they get off of
it? Or at least, you know, 90% of the benefit goes away and your weight yo-yos back up. So there's
some very real things to figure out in making sure that you can prescribe these GLP-1s in a way that
come with enough hand-holding to help you understand and manage the side effects and make
all the behavioral lifestyle changes that you sort of need to to make them be effective and sustainable.
Interesting. I hadn't found that about non-adherence.
Yeah, it came up in a bunch of Tegas calls. There must have been some hedge fund investor
trying to dig into building a model of non-adherence into their DCF.
Well, before we go into analysis, there is a little bit of catching up to do on the insulin market because we kind of left it as,
hey, it's still 22% of revenue in Novo's business and, you know, big three companies,
Sanofi and Eli Lilly and Novo really compete here and they've iterated to become great products
over time. Well, one thing that we didn't talk about is the complete destruction of how attractive
it is to operate an insulin business. And this is super recent. So if you would have asked any of
these companies 10 years ago, how durable is this revenue stream and how durable are the profits
from the revenue stream? They probably would have told you that it's pretty durable because we have
things like delivery pen mechanisms that we keep improving over time that are proprietary,
that give us some pricing power,
that we keep revising the formulation
so we keep getting the ability to patent new things.
It's kind of difficult to manufacture
because it is developed from living cells.
So we're not just pouring chemicals into a vat.
We do have to do some complex work to produce the insulin.
So somebody is not just going to waltz in here and figure it out. chemicals into a vat. We do have to do some complex work to produce the insulin, so somebody's
not just going to waltz in here and figure it out. And that was a pretty widely held view and one of
the reasons why I think these companies thought they had so much pricing power, which they got
in trouble for. So one thing that happened was a big controversy over pricing that we talked about. In 2021, U.S. officials alleged that Novo Nordisk increased prices more
than 600% between 2001 and 2019 in lockstep with competitors to the detriment of diabetics.
Now, Novo, of course, denied this, and they pointed out that the net prices had actually
decreased since 2017. So very convenient that they just talked about the last two years of that 18
year accusation. So my read into that is, yeah, prices were really rising. And yeah, we all thought
we had a lot of pricing power and we don't want to dig too much into it. Now, if you look at the
last five years and especially the last two, the opportunity to sell insulin for a profit has
basically completely fallen apart. So you've got regulation that came in after the public outcry.
So there's real price caps on what you can sell insulin for now. Biosimilars also came in.
Biosimilars are effectively what people call generics, but for the category of drugs that involve live cells rather than mixing chemicals together. So traditional drugs have generics,
and biologics have biosimilars. Biosimilar insulin became a thing. And so a lot of
the profits just got completely arbitraged away. And GLP-1s are here, so those are reducing demand
for insulin too. Those three things in the last like five years or so created this complete perfect
storm for insulin to be a super unattractive business. Interesting. Obviously, as we've shown throughout this story, it's not like Novo Nordisk planned it that way. However, this really did a great benefit,
right? Because of all the insulin manufacturers, I mean, I guess Eli Lilly was first to market
with GLP-1s, but Novo really created the true GLP-1 market and were the ones to really benefit
from these early years while
the competitors are catching up. In many ways, they disrupted it just in time. In some ways,
you could say, wow, it's so courageous of them to come in and disrupt themselves. But on the other
hand... It's like the headphone jack. Right. Was it courageous or did they see the writing on the
wall that eventually we're not going to make any money from insulin and so it's time to really start putting our foot on the gas on this thing
where we could have bigger market, differentiated profitability? I kind of think it was a happy
accident that the timing worked out, but there are different ways to look at it.
Yeah. I certainly didn't find anything in my research that suggests it was anything but a
coincidence. Yeah. It's interesting to think about the fact
that these companies thought that biosimilars
weren't just going to waltz in and, you know,
eat their lunch and arbitrage all the profits away.
Over time, the market for insulin
became sufficiently large
that they just had a target on their back.
The prize became worth it.
As we talked about in the NVIDIA episode,
moats are only sufficient
if the castle is sufficiently lame to invade.
Otherwise, the castle becomes better.
You need a bigger moat.
In 1999, I think it was, Eli Lilly sold $700 million of insulin in America.
1999.
By 2017, just two of their products sold $2.6 billion in America.
Yeah, two of their insulin products. Yeah. $700 million to $2.6 billion in America. Yeah, two of their insulin products.
Yeah, $700 million to $2.6 billion.
It's just an illustration of how large and how interesting
that revenue stream became for other people to go after.
Totally.
All right, should we get into power?
We're kind of there anyway.
We're kind of in analysis land here.
Yeah, let's talk power.
And for folks who are new
to the show, this is borrowed from our great friend Hamilton Helmer and his wonderful book,
Seven Powers, where he talks about the means by which a company can achieve persistent,
differential, positive returns versus their competitors in an industry. Yeah, or put another
way, how to be more profitable than their closest competitor and do so sustainably.
So the seven powers are counter-positioning, scale economies, switching costs, network economies, process power, branding, and cornered resource.
So the first thing I want to say is we are in the pharma industry, And so the one that has a blinking red light around it is Cornered Resource.
Yes.
This is a patent-driven industry.
Yes.
Novo Nordisk has the patent on semaglutide until 2032.
And this is an industry where when you have the patent and you are able to make an N of one drug, and we're not quite seeing an
N of one drug here, but it's an N of two drug, you get the profits. And frankly, the crazy thing
is when you look at some of the analysis, the profits evaporate within two years of your patent
going away. Now, that was from the previous era before biologics. So now that things are harder to copy because the molecules themselves are more complex and they require growing living tissue.
More engineering.
Yeah, that would fall more under process power and, frankly, scale economies because it requires more capital.
But right now, like historically, pharma is a patent-driven cornered resource industry.
Yep. like historically pharma is a patent-driven cornered resource industry yep i think how
this glp-1 kind of super cycle is going to play out if it continues and what's interesting about
the insulin history and the analog to that it's looking like it's going to be like this
ever stacking waves of patentable innovation and product innovation happening here. So like,
yes, the semaglutide patent will expire in 2032. But if Kagra Sema, their new kind of next
generation GLP-1 product shows the promise that they think it'll have, then that'll be a new patent
cycle starting then. And then they'll develop the next generation and it'll play out again,
just like insulin. But yes, absolutely cornered resource for sure.
Yep. The patents aren't just on the molecules. They also patent delivery mechanisms. And so they keep changing delivery mechanisms. You basically have the scenario where doctors
don't really want to prescribe the old thing. And so when you introduce a new novel form of a pen,
oftentimes doctors will say, well, that's the thing we need to be prescribing now. And so there's like
a brand that gets built around the most current thing that's patented, even if it's not that much
better than the old thing. And, you know, there's a lot of people in pharma that are going to get
mad at me for that characterization. But in addition to patenting molecules, delivery mechanisms also provide defensibility. Yep, yep, yep. One question I had
was there might be like contractual things that entrench relationships too. Like when you get
really big, and this would be a scale economy, are there contractual relationships with formularies that sort of
entrench you and make it so that even if someone else comes out with something similar to treat
any given condition and your patent isn't defending you because it's a different molecule,
well, sorry, you've locked up a distribution channel with the PBM and getting on the
formulary in such a way that, like, good luck to anyone else.
Yeah, I think that falls into scale economies, which for sure also apply here.
Yep.
I think really on three sides, on the R&D and research side,
because that is incredibly capital intensive.
$2.3 billion a drug.
Yep. The production side, as we've talked about for much of the episode,
and then also here on the go-to-market side. You can't just, you know, waltz into these markets. Right. And the gigantic amount of R&D,
it literally is $2.3 billion to bring a drug to market on average. You need to make a lot of
profit dollars on any given drug to benefit. You don't necessarily need scale of patients,
but you do need scale of dollars in order to outrun the fixed costs of R&D.
Yep. I think we can say there's no network economies here pretty safely. And I think we can probably also say there's no branding, although Ozempic has become such a buzzword.
Oh, I think there actually is. Normally there isn't, but that's one of the breakout things
about Ozempic is there actually is brand power. The first time I heard about Manjaro was 18 months after I'd heard about Ozempic.
And I was like, oh, it must be some kind of knockoff.
You know, it's my first time studying pharma.
I was like, oh, it's probably something crappy that's trying to ride this same wave, but
isn't actually the breakthrough molecule.
And like the studies show Manjaro helps you lose more weight and has a very similar mechanism plus
another mechanism that together work.
But like most people don't know that.
Most people know I read on the cover of the New York Times that Ozempic is a breakthrough.
And I heard about it at the Oscars because a joke was made on stage.
Jimmy Kimmel was talking about it.
Yeah.
Yes.
I think for the first time, and it's happened a little bit before, but for the biggest time in a while, Ozempic has actual brand power.
Yeah. I mean, there's like Tylenol, etc. But like, yeah, it's entering that category. An admission on that front too. When we very first started talking about potentially doing this episode a number of months ago, I thought the same thing you did about Manjaro about Wegovi.
I was like, oh, that must be a crappy knockoff. I did a cursory amount of research and I was like,
holy crap, it's the same drug from the same company. Like, I'm an idiot.
It's like literally the same thing.
It's literally the same thing.
Often in the same doses. It's technically a higher dosage, but you can get many different
dosage levels of either drug.
Right. And not only that, it is the one that is supposed to be for weight loss.
But you're right, Ozempic has become this brand name.
Yep. Vitamin O or Oz or, yeah, there's all sorts of...
I've been reading the Ozempic subreddit for a while to prep for this episode.
I bet you found some fun stuff in there.
Totally.
Switching costs are a thing.
Switching costs with any drug are a big thing
because once you find something that works for you, you never change. Like I've been on
citrazine hydrochloride for my allergies for 15 years. I think it's Zyrtec. And like, no,
I'm not trying anything else. It works. Why would I try something else? Yep. And especially in this
case where in the vast majority of patients, it does seem that if you stop treatment, you will
regain the weight. Yeah, that's one of the worst things about it. I will also throw in network
economies. Oh, I had said I thought there was none, but I want to hear your case for it. Well,
so I think most of the time in pharma, there's none. But with Ozempic, so I think there's two ways in which GLP-1s used for weight loss resemble consumer tech products.
One is a tight feedback loop.
When I start taking Lipitor, I don't like physically notice anything about myself, despite the fact that something that is potentially very dangerous to me has become less dangerous with cholesterol. When I lose
weight, I immediately notice, like if I lose, what, six pounds in the first month, there is a
super tight feedback loop there. And so in the same way that Zynga created these feedback loops for
mobile gaming, and that sort of psychology has been used in all tech consumer products now to
create these gratification loops, that totally exists with Ozempic. The
second one is what I think as a network economy, you kind of become a walking billboard.
There's a little bit of a taboo around sort of saying I'm taking Ozempic, but people know you
lost weight. It has almost like a shareable. Ozempic can go viral in a different way than most pharma describes going
viral. I totally agree with you. I would push back a little bit in the classification. I don't think
this is actually a network economy. I think this is just incredible word of mouth marketing because
I don't think other people actually get a benefit from you taking Ozempic. But I mean, literally,
you become a walking billboard.
Like, it is an obvious word-of-mouth marketing.
I guess the only one would be, like,
the taboo thing.
If I'm taking Ozempic and I'm ashamed of it
because I'm the first person,
if a million more people start taking it,
then it is actually better for me.
Right.
If Elon Musk tweets that he's taking it...
We govee.
Yeah.
But again, it's the same thing.
Right.
Not to mention ribelsis. That's the new oral one.
They have figured out how to make semaglutide a once a day pill if you prefer taking that to a
once a week injection. It's a little bit weird because you have to take it on an empty stomach
and then not eat for 30 minutes afterwards. But if you don't like needles. I believe it is also
not quite as effective as the injectable version. Huh. But still, it is an amazing feat of engineering that they created an oral version of this.
And this is the kind of stuff that Novo Nordisk is so good at.
It's all these decades of researching, how do we make this stuff break down differently
in the body?
Because the issue with the GLPs is it can't get absorbed into your bloodstream by you
putting it in your mouth and then it going into your stomach and hitting the harsh
environment of your stomach. So figuring out how to make something go from your stomach
into your bloodstream for a sustained period of time.
Right. Protect the molecule enough.
Right. That is sort of the novo magic.
Yep. Wow. There's a lot of power here. I think the only one we haven't talked about yet is
counter-positioning, which is interesting. Maybe you can make an argument at the beginning there was because
this could disrupt the insulin market, but I don't really think so. Yeah. And counter-positioning
basically always exists in the takeoff phase and never exists later. I think that we keep kind of
finding that pattern over and over again is incumbents don't really counter position and startups counter position.
Yep.
Yeah.
I think in the world of healthcare, there is a ton of power for basically any company
that we would study because the returns over and over and over again, keep going to these
incumbents that keep getting bigger.
And I know biotech investing in startups is a thing and there'll be new disruptions on the horizon, CRISPR and specifically biotech more on the show.
My sort of arm's length understanding of the industry is that where startups primarily are doing drug discovery and then they get acquired by the big companies for go-to-market.
Yep, that's right.
Or they do a deal, some kind of distribution deal.
But a lot of the economics of that deal are eaten up by the big pharma company as the distributor, which really they're not the distributor. The PBM handles
making sure that the reimbursements are there so doctors will prescribe them, and the wholesaler
distributors handle physically moving the drugs. But when you do a quote-unquote distribution deal
as a biotech company with a pharma, it's because the pharma has the relationship with those two
other parties to ensure that you actually can be available at broad scale.
And really, this model all started going back to Genentech and Eli Lilly. And Genentech ended up
getting acquired by Roche. But it was that partnership of Eli Lilly being the go-to
market for Genentech and insulin that started this whole startup big pharma partnership.
Yep. All right. Playbook?
Playbook. Let's do it.
So the first one that we've hit a few times but is just worth putting a fine point on
is Concentration. The focus of this company is unbelievable. 85% of their revenue is dedicated
to metabolic disorders. They are the second largest market cap pharma, second only to Eli Lilly.
It's crazy. They're that focused, but they have an ability to be that large by market cap. It is
worth knowing they aren't in the top 10 pharma companies by revenue. In fact, they're 20th.
Wow, I didn't realize they were that low.
Yeah, no, it's a multiples thing. Part of the reason why they're Europe's biggest company is
people are very optimistic about their future and about their ability to be profitable in the future, not just make a lot of revenue. But it continues to blow my mind that they have had the huge success that they have had with how focused they have stayed. is my main playbook takeaway from this one. It reminds me of our Sequoia Capital episodes
a few years ago
and Sequoia's kind of historical classic mantra
and the Don Valentine ethos of target big markets,
find a big market, target it,
and then like stay focused on it
for decades and decades and decades.
And that's the story of a lot of companies
we've covered here,
but this is such a pure play example of that.
Like one disease,
one drug area for a hundred years, and now a second drug area that came out of that first
drug area. Well, but for 60 years, it wasn't actually that interesting of a market. That's
the crazy thing. Like 1920 to 1980, it was type 1 diabetes, which again, absolutely incredible for
the world that they took children who had a death sentence
that gave them life and they got to live basically a full life.
But was type 1 diabetes actually this colossal mega interesting market?
No, not at all.
Yeah, something changed.
Yeah, absolutely.
You're totally right.
What did Charlie Munger tell us?
He said, there aren't many times in a lifetime where you know you're right and you know you
really have an investment that's going to work. You may even find it five years after you bought it. Your own understanding gets better. And I think that's basically what happened with the Novo Nordisk Foundation. They realized, oh my God, this isn't just a service we're doing for the world. This is one of the most important markets in the world. Totally right. And it's so funny. I mean, obviously we weren't in the room
as these conversations were happening,
but from reading the history,
it feels like they understood it
more than management at the time.
Management was like kind of too close to it
and thinking, you know, industry wisdom,
we need to merge, consolidation is happening.
And they were like, no,
there's this incredible wave that we are riding here.
Let's keep compounding. You should share the stat on the size of the endowment.
Oh, yes. So I kind of can't believe we haven't talked about this yet. Novo Holdings, which is
the vehicle by which the foundation holds their stakes in Novo Nordisk and Novozymes, their sort of assets under
management and thus the endowment of the foundation is worth $120 billion, which makes it the single
largest charitable foundation in the world, over 2x larger than the Gates Foundation, which is number two.
Unbelievable. Just unbelievable. And through Novo Holdings, it has actually now become one of the
largest and most active life sciences and biotech investors in the world too. They hold
venture stakes in 80 plus other companies. That's on top of giving out lots and lots of grants
to life sciences around the world and fulfilling the foundation's mission. I mean, it's just wild.
We're burying this so deep in the episode, but this is the largest charitable foundation in the
world. That's wild. Now, it's interesting that it qualifies as that because yes, that is totally
true. On the other hand 120 billion dollars
is pretty neatly just a little bit larger than a quarter of novo nordisk's market cap
and so like the vast majority of that 120 billion is their ownership of novo nordisk so it's not
like oh my god they spat off 120 billion dollars in cash that they're investing elsewhere no so if
you know jeff bezos decided to put his what does he have So if Jeff Bezos decided to put his, what does he have, like 9% of Amazon,
decided to put that into a foundation
and call it charitable suddenly,
that would be the most charitable foundation,
or, you know, up there.
Yes, correct.
But the point stands.
It's still pretty cool.
Yeah.
While we're on the topic of the foundation,
before we keep going in playbook,
it is worth pointing out that
there are formally defined objectives
of the foundation, and those objectives do not include growth. So it's kind of amazing that
they have grown the way that they have. The dual mission now is stability and supporting
scientific and humanitarian causes. So what does stability mean? I suppose it means like ensure the longevity
and duration of Novo Nordisk as a company. But it's interesting when your stated mission is
stability and this humanitarian cause that is a byproduct, you could end up being this incredible
market leader, innovator, super high growth company too. And on the point of mission,
Novo Nordisk has a stated mission
that it's not just about supplying treatment,
it's about eradicating diabetes.
And so there was a 2014 paper that came out
that suggested a real cure for diabetes using stem cells.
I think it was out of Harvard.
And at the time,
the Novo Nordisk chief medical officer replied,
we feel a responsibility for trying to prevent
or eradicate diabetes. And if that means the dissolution of Novo Nordisk chief medical officer replied, we feel a responsibility for trying to prevent or eradicate diabetes.
And if that means the dissolution of Novo Nordisk,
that would be fine.
I'm having such a hard time wrapping my mind around like,
is that actually true?
Is all of the behavior of the executives
actually in service of curing diabetes,
even if it means that their revenue would go to zero?
Isn't that at odds with the idea of stability of Novo Nordisk? That quote was from 2014, did you say?
Yeah. So previous administration, so to speak. And pre-GLP-1 is becoming really huge. It's very
easy for them to say that now because they could eradicate diabetes now and still be
Europe's largest company just based on obesity alone. But from talking to folks from the outside,
my sense is I think that is as true as it can be in a corporation.
Yep. I also found a stat that in the last six years, four and a half billion dollars of grants
have been distributed. So I was a little tongue-in-cheek about like, well, geez, most of
that is their ownership of Novo Nordisk. But like, that is a lot of outflows to research. And I think,
importantly, that research often supports what Novo Nordisk, the corporation, wants to go do.
And so it's nice to have a close relationship with researchers.
Yes, there is a cycle here.
Yes, which rolls up to the mission of stability. But yeah, they deserve to be applauded for the
reinvestment.
Certainly, it is a unique structure in the corporate world,
and one that has had a huge impact on the company's history.
Yep.
Okay, while we are in corporate structure land,
alignment of incentives is pretty interesting among management.
I don't know if you looked into this at all,
but their executives are not meaningfully incentivized by stock price performance.
Interesting. No, I didn't look at this at all.
Yeah. So they are sort of forced to think on a different time horizon than if your compensation
came primarily in the form of stock options and you wanted to make the stock go up in a
three to five year window. So executives and board members are not given stock options
as a part of their compensation.
And when you talk with folks in the industry, the employees reportedly have lower compensation
than their counterparts at other companies.
And I couldn't figure out if that was like a Danish versus American thing, or if they
intentionally try to repel the idea of mercenary employees and attract missionaries.
But it would seem that their excellence in pioneering
diabetes medicine is really mission-driven. There's what they call their remuneration policy,
which requires all board directors to hold stock. You know, you're not getting it as your comp,
but you're required to hold it, which I think is kind of a similar idea to what Berkshire Hathaway
has of, hey, we should have sticks,
not carrots. And in Berkshire's case, there's no D&O insurance for board members. You actually have
to own the liability of the company's actions yourself to be on the board, so they take it
seriously. But in Novo's case, it's, hey, you don't get the carrot of big piles of free equity
in our company. Yeah, you got to go buy the stock. Yeah, you have to actually be aligned with the owners so you get the fruit of the appreciation or the punishment if it doesn't
do well. Yeah, I suspect it's probably both. I do think Danish culture plays into this too.
It is a much, much more socialist country than America. And actually, watching interviews with
Lotte, she talks about this. And sometimes she's
asked about it. I'm like, oh, hey, didn't you get rich on basically inventing GLP-1s? And she's
like, no, I've never asked for a raise in my life. I'm a socialist. But look at what we've done for
the world. Yeah, it's pretty crazy. Now, the question is, does that thinking lead to the GLP-1
breakthrough? Other pharma companies certainly didn't make these investments and these
decisions on these time horizons, and so there's a reasonable narrative that it was actually
Novo Nordisk's focus and their time horizon that led to the decades-long work to actually bear
fruit. I mean, semaglutide isn't out of nowhere. It was built on all the work that went into
liraglutide since the early 90s and incorporated all the clever ideas they had previously developing longer-acting insulins and things like that. There is a
reasonable narrative of it's their long time horizon and their focus, their ability to learn
from doing the same thing well and iterating over a hundred years that actually led them to find
this breakthrough when others didn't. Yeah. The key point is long-term focus. And if you can do that,
as we've shown time and time again on this show, you can create something great. If you do that,
it's not like you will create something great. You still got to get lucky and also be doing the
right things in the right areas. But if you're going to build something really, really big,
you got to have that long-term focused mindset. Yeah. Okay, there are a few unexplored areas that I
think are interesting to know about healthcare as a whole and about Novo Nordisk that I want to talk
about here in Playbook. One of them is a shift that Novo has done here to broad populations
with relatively inexpensive drugs versus other pharma companies. And I know you're
going to be allergic to the idea that I just told you $1,000 is an inexpensive drug, but the crazy
thing here isn't just that the revenue and the focus is so concentrated. It's concentrated in
an area that other companies shied away from. Pharma over the last couple decades shifted away
from these mass population drugs to specialty drugs. And these are often to treat
specific forms of cancer or rare childhood diseases with super narrow populations and
huge price tags. And to put numbers around that, we're talking like total market size of a couple
hundred thousand people or fewer, as few as like 300 people in these super rare orphan diseases. Occasionally, these diseases are so rare
and the treatment is so, you know, life-changing or life-giving that the treatment, like one dose
of the pill or one infusion of the therapy or whatever it is, can be measured literally in the
millions of dollars. So it gets far more extreme than $ thousand dollars a month it's understandable why the
other pharma companies went there for a few reasons and this is a little bit of a walk
through history but it's been a while since we saw a breakthrough in a mass market drug
really the last one that we can point to is statins which was to treat cholesterol i don't
know 30 years ago is really when that was kind of the thing. HIV and hep C
are examples we can point to, but again, it's been a while.
Those are small markets compared to obesity.
Well, compared to obesity, but they still qualify as large population.
When you're treating millions of people with something, well, A, you can have a different
pricing structure. You can have much cheaper drugs,, like, you can just affect a huge swath of the population. You know, it's not like we're discovering an antibiotic or
a cure for polio every other year these days. In fact, the Alzheimer's researchers have really
been trying, but the trials have just been disappointing. And so we had this great heyday
30 years ago of small molecule drugs that you could manufacture relatively easily by mixing
chemicals. But after those patents expired, and these could be manufactured by other companies
as generics and sold to everyone for cheap, we really haven't discovered something like that
since. So that's why the shift has really gone. And of course, we have new technology to do it
too, but really shifted to biologics, the complex proteins that are harder to manufacture.
And I think a way to summarize that is a lot of the low-hanging fruit has been picked.
Compounding this problem, just because this is healthcare and you compound every problem.
Different type of compounding.
Yes. The way that FDA approval works is that you get a label for a drug if you can prove
with the right degree of statistical significance that the benefits outweigh the risks and that you are better than current alternatives
by some measurable amount. So conditions with existing alternatives are harder to get approval
for. Another factor pushing to rare diseases. A hundred percent. Going back to the piece that
Alex wrote,
he references this idea of the better than the Beatles problem.
Like, what if it was a requirement to be releasing a new pop song in the market
that it was better than Hey Jude or better than Here Comes the Sun?
You'd have no innovation.
Like, of course not.
Right, right.
So the rule both makes sense and you understand why
once we hit some minimum level of treatability for
something, you're like, geez, is the juice really worth the squeeze there anymore?
No, you go work on something that you're actually likely to get approved for
and make your billions of dollars of R&D worth it. And you're years and years of clinical trials
and recruiting all the people for the study. And by the way, these studies have just gotten so
insanely expensive to run. And, you know, it's not just the studies that cost money, but if you just
look at the cost to bring a drug to market in 1953, it costs $40 million for an approval. And
that's an inflation-adjusted figure. Today, it averages $2.5 billion. Wow. Wow, wow, wow. I don't
know. It's easy to be kind of disillusioned with,
why would I go after something large population if there's already something else that treats
a large population good enough? Right. Wow. That's interesting. Whereas you look at
almost every other market out there, if it's a big market, there's insane capitalist incentives
to go make a better mousetrap for it. Right. That's super true. So this leads into this other playbook theme. Pharma is the most classic
example of the venture business. It's super high risk. It's super high return if it works.
And the winners need to subsidize all the failures. And in fact, it's even more sort of severe
than typical venture capital
because a lot of the research can take over a decade
of investing before the winners bear any fruit at all.
So everyone was like, oh my God,
Figma spent four years writing code
before they shipped a product.
Like four years.
Oh, four years, that's nothing, yeah.
There's no MVP in semaglutide.
Like, let's put a couple billion to work, and then we'll check in a couple decades later
and see if we've changed the world.
And obviously, there are stage gates along the way.
But it's adding a zero or two to the venture business, to be honest.
I think that the most illustrative stats on this are that the top decile of pharmaceuticals
are what matters for the profits.
So if you look at the pipeline of 100 drugs that enter clinical development, 10 actually
make it to market, and one provides, get this, half the profits.
One drug.
Oh, crap.
Wow.
The initial part of what you just said jives with our math earlier, the 10% make it to
market.
I mean, that's a power law right there.
Right. with our math earlier, that 10% make it to market. I mean, that's a power law right there.
Right. 10% of the ones that make it to market provide 50% of the profits. Most drugs,
this is also a crazy stat, even after they are approved, do not earn back their R&D costs.
I mean, this is another dynamic showing why the market force has led to consolidation in this. Like you just need to be so large
and have the capital resources
to pull all the risk of these drug pipelines.
That's exactly right.
Yeah, you need to actually be able to pull risk
or have some differentiated way
versus all your other competitors
of being more likely to create a hit.
AKA, no voter risk.
Yeah.
You will not be a successful pharma company without blockbusters
and even then blockbusters might not be enough wow it's nuts all right so now we're into like
healthcare as a whole land so i have some commentary on this i'm very excited about this
i think this is going to be a new chapter of acquired because there's a lot of stuff to dive
into here and we'll still never understand it all, but it's fun learning.
So I think everybody is aware in some sense
that for every dollar that we're investing
into the healthcare system,
we're getting less and less incremental utility out.
People complain all the time that as a percentage of GDP,
which by the way is something like 17, 18%, which is nuts, right? Our
healthcare system costs us 17 to 18% of GDP. That goes up every year and the quality of care goes
down or life expectancy goes down. So everyone sort of like heard some variation of this problem
before. On the surface, things appear to be broken. Yeah. The 17.3% of GDP that healthcare costs us, you should just know as a baseline that in 1960,
that was 5% of GDP. This isn't like gone up a little bit. This is like,
you know, one of the biggest line items for the entire country used to be fairly de minimis and
is now enormous. So you should expect a lot of your healthcare system, given what it costs.
On the one hand, this is really bad. And like and there's a zillion people to blame for it.
So it's hard to blame one individual or one company.
And so it's a little bit of a tragedy at Commons where everyone throws their arms up and says,
well, I'm going to go do the best I can and make sure I'm okay.
Because I really don't know who to point to and be like, this system is effed up for this reason.
I mean, you could blame oligopoly,
you can blame regulatory capture,
you can blame too many middlemen,
too high of hurdles to get new drugs in the market.
But on the other hand, you would sort of expect this.
I mean, a lot of the low-hanging fruit is picked,
so it seems like it's going to require more money
to go eke out more rewards. People always make fun of
pharma with this thing they call Arum's Law, which is Moore's Law backwards. And the idea is like
pharma for every next generation gets more expensive. But like semiconductors also require
huge amounts of R&D. And just because we're getting that speed up every 18 months, have you looked at EUV? It's
an order of magnitude more expensive every generation to be able to make processors like
that. So I think that's a little bit of a false equivalence. I totally understand why, especially
in heavy industry, it should be more expensive to get marginal benefit out once you have already picked the low-hanging fruit.
So I have a little bit of pushback on the healthcare is getting more expensive
and we're getting less out of it.
The thing that isn't good is that the average life expectancies
have actually declined in America the last few years,
despite the fact that we're spending more money.
So it's not just that our marginal dollars are earning us less,
it's that we're putting more money in and life expectancy is actually decreasing. And unfortunately, it's kind of outside the health system's control. It's a lot of like mental health related stuff, overdosing on drugs. A lot of things impacting the length of life are, you know, cutting 60 years off of people's lives when they're young, which obviously will massively affect the data. One other thought on this though, so from 1850 onward, we got these
huge increases in life expectancy every decade. If you look at these charts, it's astonishing.
You're like, wow, there's like a miracle drug every year, or there's a miracle process, or there's
people are washing their hands, or there's indoor bathrooms, or whatever it is. Life expectancy is
getting way better. We were like curing infectious diseases that killed kids all the
time. But once we got those mostly covered, at least for the sort of big, large population ones,
and we got antibiotics and insulin and all this, if you spend money to help a 75-year-old live to
80, it has a much different effect on the data than helping a 10-year-old live to be 75. And
once you compound that with the low-hanging fruit,
of course it's going to be really expensive
to figure out how to make that 75-year-old live to be 80,
especially if there's a big fragmentation of disease.
Yeah, it's also exponentially harder
to get that five extra years of life
because you're facing 20 different morbidities out there.
Right, we rarely are getting the silver bullets like we
did with antibiotics. It's going to be $2.3 billion over here to cure this form of melanoma,
and it's going to be $2.3 billion over there to cure this form of pancreatic cancer. It's just
going to, I think, just going to keep getting more expensive to cure the more fragmented small
population things. I think there's a reasonable question of like, what do we do about that as a society?
Now that's on the benefit side.
There might be some massive cost reduction side.
Like you could imagine some technology comes along
that makes drug development way cheaper
or makes us able to like massively collapse
the time and dollars spent in a clinical trial
by using AI or something.
Or there might be ways to collapse costs 10 or 100x somewhere in the
healthcare system. But the current state of affairs is not very free market-y. So it's harder to
imagine that happening versus other ecosystems the way it happens in tech. A couple other just
like fun things that I heard from people during research, which I think are just like interesting
problems to think about. The health system that was created over the last century was really designed to treat acute and
infectious diseases. If you think about our healthcare system as it exists today, hospitals
where you go in when you're sick, doctors that you see when you're sick, surgeries you have when
you have an issue, pills that you take when you have an infectious disease, antibiotics that you
take, you look at the chart of life expectancy, the people that designed that system and solved the acute
infectious disease problems should just hang up a big mission accomplished banner. It worked.
It was amazing. Right. We made it to the moon. Human quality of life is just unbelievably high,
and there's very little in common today on the list of things that will kill you versus 1850.
It's a completely different set
of things. So the next frontier then is chronic illnesses, and they catch up with us later in
life, and they're basically undetectable for like the first 50 years or the first 30 years. I mean,
obesity leading to diabetes or cardiovascular health leading to heart attacks and strokes.
These are very different things to treat and require a very different way of
thinking, of regulating, of paying for. You don't want to wait until people are sick to treat it
because then it's too late. And so in many ways, this entire old system that we created that
consumes 18% of our GDP may actually not make sense in this new world of treating the things
that are more likely to kill us now, which is chronic illnesses. Right. Hmm.
I don't really know what to do with that.
I think it's a pretty interesting...
You did so much more of this side of the research than I did.
Did you get a sense in talking to people like,
that transition is happening or no?
Well, it's so hard in healthcare
because there's so many buzzwords.
Like, there's a thing called value-based care,
which, in a sense, it makes sense.
It's like, we shouldn't have to pay
for every little intervention someone does.
We should pay for them helping me cure the thing.
You don't pay for the interventions, pay for the outcome.
And so then that forces the right sort of thinking
all the way up the value chain
of how can we deliver a quality of service
in the cheapest way possible to achieve the same outcome,
which is like how free markets work, right? But in healthcare, the way everything gets built is on a cost basis, which we've talked
a lot about cost plus pricing and the dangers of that on the show. So I mean, to the extent that
the value-based care stuff helps, no, I didn't hear any solutions. All right. Well, listeners,
if you get inspired. I did hear one credible pushback against why is healthcare
getting so expensive as a fraction of GDP. We use a lot more healthcare. People just have a lot more
life-bettering interventions, be it from doctors, from pills, from facilities, than we did a long
time ago. And so, I don't know. I had two surgeries a few years ago one of which was an acl surgery
and like a whole bunch of pt and in 1980 would i have had those maybe the pt probably a worse
surgery because the procedures were worse back then in 1950 would i've had an acl surgery at
all no i'd probably just limp around the rest of my life there really is just actually a lot more
care delivered now than there used to be oh man i man. I mean, even like, gosh, this is so close to home. I mean, for me and Jenny and my family,
I've talked about this on the show before, but Jenny and I both have genetic cancer predisposition
mutations. So, you know, the amount of screening that we get, and then for family planning with,
you know, having our daughter and other children in the future, the amount that we have used the medical system as very healthy 30-somethings throughout our life would not have been imaginable a few
decades ago. So yes, I totally buy that. All right. We're kind of drifting into value
creation, value capture here because we're making sort of societal judgments around,
are the economics worth it? Do you want to formally enter that section of the show?
Let's do it. Maybe to start on that section of the show? Let's do it.
Maybe to start on this segment of the show, we talk about for a given company, how much
value do they create in the world versus how much they capture?
And let's start narrowly with Novo Nordisk itself.
What do we think?
Value creation versus value capture.
Undeniable that over the 100 plus year history of this company,
it has created incredible value for diabetics and now for a much broader population than
just diabetics. So the creation amount is large. It is also undeniable that it's a
half trillion dollar market cap company on, call it 30 to $40 billion of revenue,
highly, highly profitable revenue that they have also captured a lot of value.
Well, a lot of people talk about, does the pharma sector over-earn? This is sort of the way people
talk about this. And on other episodes that we've done, there's far less of a value judgment.
We're kind of like, yeah, companies should go be as profitable as they can be. My God, Visa makes so much money. And like, that's a little bit tongue in cheek, but in
healthcare, it's sort of different because there's an expectation that you sort of start from a place
of public good. And then when healthcare companies earn too much money, you sort of look at it and
you're like, Ooh, I don't know if I like that, which is so interesting, right? It's a very
different starting place than I think a lot of people tend to look at businesses. But one thing that is true is that these businesses
require a tremendous amount of investment. And so just merely looking at their margins is stupid.
I alluded to that earlier, but like, of course they have high gross margins. For the things that
they actually end up selling rather than killing, they should.
Right.
That's not taking into account all of the research that they did over the past.
All the research, because those are below the line costs, and all the failures, because
they never sell those drugs.
So you basically have to say, well, all the margin dollars they earn from the winners
both have to cover all the fixed cost R&D of that drug, but they also have to cover
all the failures of R&D of that drug, but they also have to cover all the
failures of every other drug. So when you actually look at their return on invested capital numbers,
the ROIC, they are not through the roof. They're like 13% industry-wide. But hold for Novo for a
second. It's totally in line with other industries like trucking, broadcasting, electronics, when you
sort of look at the federal data on it. I mean, the fact that on the blockbuster drugs, the companies earn a ton of money
is not the whole picture. The picture really is like, as an industry, are they over-earning? No.
They kind of used to until like 2000, but nowadays the ROIC numbers are just actually not that
interesting. And in fact, some would argue that as pharma gets less and less efficient,
capitalists should just not allocate their dollars there because there's literally not enough incentive in the profit dollars that you get to earn from your drug after it's patented
for many years. Like, should you actually index the pharma sector? Probably not. I mean, it's a
little better than other sectors, but not necessarily enough to take the sector risk
of putting all your dollars
there. Well, you're making me feel better about my career choices here to work in tech.
Now, Novo Nordisk, on the other hand, massively outperforms their peers. And there's been this
really interesting trend where ROIC for pharma as an industry over the last 50 years has declined, but the variance between companies has increased.
And so Novo far outperforms the median pharma company
in terms of return on invested capital,
but there's companies that way underperform too.
And it's interesting that the good companies
are getting better and the bad companies are getting worse
while the whole industry declines
in its ability to produce a return.
Yeah, so interesting. I mean, I'm tempted
to say from this whole episode that the moral of the story here is focus and long-term focus, but
I feel like we need to uncover this industry more and hear from folks in it. If that were always
true, why are there not more Novos out there? Right. It may also be play compounding games in
big markets. I mean, it's very clear, even if not intentionally, that a lot of Novo's
historical work led to them understanding something important better than anybody else.
And I think they might have lucked into how important it became, but play compounding games.
It's pretty interesting. I mean, pharma as a whole of the medical pie only occupies about 13%
of revenue. I really would have thought with all
the hate toward big pharma that it would be higher. 13% of revenue in the healthcare industry? Yeah.
Yeah. So that means 87% of healthcare revenue is not going to pharma. Right. If you could trade
never having drugs again or never having doctors again, which one would you pick?
Wow, that's a good question. I hadn't even thought about that.
It's, of course, kind of a farcical.
Right. It's totally farcical. You know, I think about my scenario and, you know,
Jenny and my scenario, like, it's both together for sure.
Yeah, of course it is. But do you think drugs only provide 13% of the value to all of healthcare?
No, certainly not.
It's crazy. Definitely more than
that. Especially incrementally. If the investments we're making going forward in improving humans
and their quality of life, some amount of it comes from amazing new surgeries, some amount of it
comes from amazing new medical devices, but some amount of it does not come from new administrative
billing practices.
Or the four middlemen in the middle of the equation.
Right. The improved ability to move a drug from place A to place B and come up with yet another clever way to build out the formulary so it moves money from this pocket to that pocket.
Hospitals, if you back out the drugs they prescribe, hospitals are 28% of the revenue in all of
healthcare, which is large, but hospitals provide a crap ton of value.
Professional services like doctor's offices are 26%.
They also provide a lot of value.
Do both of them provide together four times as much value as the breakthrough drugs do?
I mean, freaking health insurance, the administrative costs
of health insurance are 8%. Of a very, very, very large number. Yeah.
Right. Yeah. I mean, that's like the administrative costs of health insurance
are within spitting distance of pharma. And pharma, I will say like, who is taking
any risk in this whole ecosystem? It's only pharma. Who's taking risk to innovate and
make anything better? Every other bet that a hospital makes or that an insurance company
makes is just probably going to pay off. This is actually pretty interesting. If you look at the
net income of a pharma company, and let's just take the biggest one or a very large one, Pfizer,
super spiky. Even though they're diversified,
up, down, up, down, up, down, some years they make very little profit, some years they make a lot of profit. That is what you should expect from someone who is taking risk, trying to innovate.
Sometimes they succeed, sometimes they don't. You look at an insurance company, and by the way,
let's define insurance company. Insurance company is someone that, in the good years,
collects money, and then in the bad
years, they have a big loss. And hopefully they collected enough money such that they can still
make some profit after covering the losses. Like a hurricane hits, the insurance company has a bad
year. Does that ever happen if you look at the net income of the big insurers? No. Yeah. This is no
surprise here, but like health insurance in the US is not insurance,
it's access.
It's 100% right.
So we just had the single greatest healthcare crisis
in the last several decades with COVID.
And what happened to the profits of the big health insurers?
They stayed flat or grew.
So, I mean, we aren't here unacquired to demonize people
for making money or for being capitalists,
but I do think we should call a spade a spade.
The health insurance companies are not actually insurance. They're not actually holding the bag as the funder of last resort when calamity hits. It's the government, so really it's the
taxpayers. The big insurance companies and the PBMs make good profits in the good times, but the
taxpayer funds the bad kinds. I would be kinder here to the middlemen of the industry if I thought they were innovating and taking risks the way that the drug companies are, but the taxpayer funds the bad kinds. I would be kinder here to the middlemen of the industry
if I thought they were innovating and taking risk
the way that the drug companies are,
but the incredible consolidation
that's happened among insurers and PBMs
and, I mean, frankly, even hospitals and pharmacies too,
like there's either local monopolies in the hospital case
or kind of a three-race oligopoly
in every other part of the value chain
that really is just obfuscated and insulated
profits. So what you're telling me is that pharma are the guys in the arena. They're out there
trying things. Exactly. No matter what value judgments you want to place on them or anyone
else. And there are years where pharma way out earns. And frankly, Novo Nordisk has way out
earned many of their peers many years in a row. And it's like a very
fine question to ask of like, does any healthcare company deserve to have such phenomenal returns
on invested capital like Novo Nordisk does? But there are many players in the ecosystem for whom
it is obvious to me that they should not be as large and not be as profitable as they are.
I got no arguments here. All right, Team Novo. Yes, and frankly,
Team Pharma, at least relative to its reputation. I think there are many players in the healthcare
industry that have a fine reputation, and they probably deserve a fine reputation,
but it's weird to me when a terrible reputation Pharma has when they're the ones innovating and
trying to massively affect the trajectory of humans.
Yep. And I think that's why, you know, a lot of scientists, including, I think,
Lata and many, if not most folks at Norfolk Nordisk, I think that's why they work there.
Yep. All right. So finally, to wrap this section, listeners, this is all very, very complicated.
Every time I was tempted to say, well, XYZ party or XYZ mechanism is stupid,
which I probably did too much on this episode, I discovered a very rational argument for why that thing exists and why it isn't all that bad, which is a little bit maddening to research and also explains how the system in
America ended up the way that it did today. To close value creation, value capture, there's
sort of an interesting thing that everyone should just noodle on and try to square the circle. People feel like drugs cost too much, and they don't
understand how much they're going to cost, and they're upset because they can't get drugs that
they want. They think they're being extorted in some way. This is patients generally. Shareholders
in pharma companies feel like they're actually not making that much money. If you look at the
whole industry, their return on invested capital is maybe slightly better, but pretty much on par with
other industries. So square that circle. It's pretty weird. All right, bear bowl, David.
And we can be reasonably quick in this since I think we've hit a lot of these points along the
way. Yeah. I mean, to me, for Novo Nordisk specifically, I think it's pretty simple. Are GLP-1s the next super cycle? If yes, that is the bull case.
Right. Even if Lily's Manjaro and Zepbound are like, I think they're like 30% cheaper, they might be better, but they can both make a ton of them and all of them will get pulled off the shelves right away. There is room for everybody here. And the barriers to entry for everything we talked about to competing in this area are very,
very high. So there will be a number of competitors, including Eli Lilly, but there
will be plenty of demand and profits for everyone. That's the bull case. And the bear case is for any variety of reasons, be it health risk or lack of efficacy
or whatever, long-term, this just doesn't play out. Or it doesn't play out on the same
multi-decade long timeline that insulin did. Yep. I think that is exactly the right way to put it.
For some numbers, which I think are interesting and just sort of to illustrate if semaglutide
becomes truly a mega blockbuster an example of this is humira by abvi that generated 200 billion
dollars in lifetime sales since humira was approved for 11 different indications across
this whole spectrum of inflammatory and autoimmune disorders. So it turns out you actually
don't need a deep pipeline if you have a drug that you can be profitable on, where there's not a lot
of competitors for it. Your patent actually gives you a good amount of room. You build a brand
around it. You get approved for a ton of indications that all have large populations. I mean, there is
such a blockbuster
that for a decade, it doesn't matter how deep your pipeline is or how diverse it is, you just win.
And there's a chance that with semaglutide and terzipatide, both Lilly and Novo Nordisk
have that for the next decade. Yeah. And decade plus with further innovations and iterations that
are going to come. Yeah. Eli Lilly has this one in the pipeline called Retatretride that is a triple agonist
that adds yet another hormone to the mix. So I think assuming that Novo stays sort of neck and
neck with Eli Lilly as they both keep coming out with better and better versions, that this could
be the next Humira or potentially much bigger than Humira. And I think the defensibility is
an open question for how many years, but at least the next decade.
One other downside that I think you didn't point to specifically, but you sort of meant
in saying there's some unknown downside to this. There are some early studies that are showing
that you lose more lean muscle mass when you're on a GLP-1 than if you were just doing diet and
exercise. When you're losing weight normally, you lose like 25% lean muscle, and these early studies
are showing it's something like 40%. So that would be a bear case is that we learn a couple years
from now like, oh man, this is actually way worse for some set of people that could lose weight
through diet and exercise. But if you're obese, it's still
probably better to lose weight, even if a disproportionate amount of it is lean muscle
mass. But I think there's sort of this open question of like, is there a boogeyman in the
closet like that? Or is that a significant enough boogeyman to really change things?
Yeah. It's probably also worth mentioning quickly here before we wrap,
you know, one potential boogeyman that is out there people have talked about is suicidal thoughts. As best as we can tell from the research, it seems like that's not a major risk with these drugs based on the broad population studies. You know, certainly that's what Novo Nordisk says. Regulators have not indicated that that is an actual issue, but that narrative is out there and we don't want to go through the episode and not mention it. That could be one of these boogeymen for these drugs.
Yep. All right. Well, as much as I don't like leaving it there, I think we have beat this
horse and we should do something fun like carve-outs. Yes. Carve-outs. Let's do it.
For new folks to acquire it, and since it's the top of a new season here,
we do this for fun at the end of every episode. Yep. So I have two.
Oh, great. I do too.
One is something that my wife got me as a Christmas present, which is the Noxgear Tracer 2.
And this is, I think, a Columbus, Ohio company. It is a running vest and some lights that are
rechargeable with USB-C and waterproof. And so it's super lightweight. It fits really well.
Perfect for Seattle.
I know. I wear it on all my winter runs when I'm out walking the baby now.
Oh, you sent me a photo and you were all lit up. And I was like, wow,
Ben is really invested in some gear.
It's pretty hard to hit you when you're this lit up. It also has a optional light you can
buy that clicks into the front that's basically like a headlight, but you wear sort of on your
chest. You don't really feel it when you're running with it,
but you do light up the whole road in front of you. So when you live in a place like I do that
is dark from 3.30 p.m. to 8.30 a.m., it's a great way to get outside and be seen.
Nice. I bet we will have a lot of folks in Denmark that are interested in that.
Yes. To our Danish friends and our Swedish friends at Spotify, I highly recommend this product. Yeah. Nice. All right. That's one.
All right. Two is a recommendation from friend of the show, Ian McCormick. He texted me and said,
I listened to the holiday special. I have a show recommendation for you. Go watch Drops of God
on Apple TV+. I'm three episodes into it, and it is awesome. It is like thrilling.
It's a little bit unapproachable
if you don't like subtitles
because it takes place in France and Japan.
And so parts of it are in French,
parts of it are in Japanese,
and parts of it are in English.
And so you have to read subtitles
for the majority of it.
But it is a beautiful story about wine and family and love.
And it's got some very unexpected twists and turns and drama to it.
So I highly recommend it.
Ooh, fun.
Sounds like Apple TV's got some good shows these days.
I've been liking it.
Yeah.
Nice.
Well, I have to give you a big thank you because over the last couple of weeks since your recommendation, I have read the book Wool, which is the first in the series that is the silo
series on Apple TV Plus because I'm more of a book guy than a TV guy. And it is awesome. Book is
so good. New addition to my favorite sci-fi books and sci-fi series. It's funny. I've been holding
off on reading the book because I don't want to spoil the show too much, but I hear it actually deviates pretty significantly from the
show. I wouldn't be surprised by that, having now read the book. I'm excited to dive into the rest
of the series. Okay, my carve-outs, I've got two. The first one is a fun, timely, in-person carve-out.
It's a guest carve-out from my wife, Jenny. San Francisco Ballet, where she works,
is premiering a new work at the beginning of the season this year. January 26th here in San
Francisco is the premiere. A new ballet called Mere Mortals. And this is pretty cool. She was
like, you got to talk about this on Acquired. It is about AI and it is a Pandora's box analogy for AI.
Super cool.
The music is composed by the British DJ Floating Points.
So it's like super modern ballet choreography from a great up-and-coming choreographer.
And SFB is going to do after parties in the Opera House afterwards.
Should be like a super cool event.
So Jenny and I will be there. I think we'll be there on opening night, January 26th, and it runs through
February 1st. For listeners, Dave and Jenny lived in Seattle and Jenny was involved in the ballet
up here. And I went to an event held, you know, where the ballet performs. And it's immensely cool
to be in there with the performers and at the place where they perform at in a party setting
like i highly recommend it for any of the before or after stuff too yeah ballet is such a cool art
form because of all the classical art forms it's the most young and modern you know like these
dancers are athletes they're like nfl level athletes at what they do and you know they're
young and so there is this like new life in it relative to i I think, a lot of other classical art forms. So anyway, I love it.
And obviously, it is Jenny's whole life and career. That's one. Two, on some holiday travel
flights, I think recommended by an acquired listener, actually, I watched the Blackberry
movie. Have you seen this yet? No, but I can't believe it's Dennis from Always Sunny.
I know. It's so good. It's really, really well done.
I just watched it because I was on the flight
and it was on the entertainment system.
And I was like, yeah, sure, whatever.
I'll give this a try.
Like, I don't know, Rim, Blackberry.
Yeah.
But it's really, really well done.
I really enjoyed it.
It's hilarious.
It's also like a good business story.
It's a good example of a,
we get asked all the time of like,
oh, can you guys cover like a failed company or, you know, a cautionary tale?
And it's hard to do unacquired because a lot of these companies are still going and
RIM is still going.
But BlackBerry is a good one because, you know, like it's super obvious that they failed.
There's no argument about that one.
Although, did you just see the add-on keyboard you can get for your iPhone?
Oh, no.
Someone debuted a physical keyboard. So for you diehards out there who were Crackberry heads. You missed the clicks.
You missed the clicks. I think it's actually called clicks, maybe. Oh, nice. With that,
we have a bunch of people to thank who massively contributed to this episode. It's been fun doing
more and more of this recently, so I think we'll keep doing it too. A huge thank you to the Pill
Pack founders, TJ Parker and Elliot Cohen, for being so generous with their time and having conversations.
Yeah, PillPack, super cool company that got acquired by Amazon a few years back,
right, for over a billion dollars?
Something like that. It became Amazon Pharmacy, which I actually know some people that use and
rave about it. Also, thank you to the founder of Cover My Meds and And Health, Matt Scantland, the founder of Blink Health,
Jeff Chaykin, the CEO of JP Morgan's healthcare arm, Morgan Health. His name is Dan Mendelson.
Had an awesome conversation with him and the other folks I mentioned to kind of bounce some ideas
around that we were thinking about as what are the main points that we really need to hit in this
episode. Good friend of the show, Kate Karams, who spent her career at various pharma companies.
And finally, thanks also to some of my favorite
reading materials to prep for this.
Out of Pocket, the newsletter from Nikhil Krishnan,
very approachable, fun way to read
about the healthcare industry.
A shareholder letter from Tom Williams,
who's a friend of the show
and a portfolio manager at Fidelity.
Yeah, Tom is great.
Some blog posts from the Drug Channels Institute that Fidelity. Yeah, Tom is great. Some blog posts
from the Drug Channels Institute that were publicly available that I thought were great.
Some very helpful DMs with Ashwin Varma, who pointed me to a lot of the great information
about the profitability, or frankly, lack thereof, or the returns on invested capital for
pharma industry. He's actually a med school student and former Lux Capital associate, so he's
got a foot in both the capitalist and the medical camps. And a truly incredible long-form read on
GitHub by Alex Telford. I think that helped frame my understanding of how we got here in drug
development better than really anything else I read, so thanks, Alex, for that too. Sign up for
notifications of when new episodes drop
acquire.fm slash email. You can also get our follow-ups and the corrections and teasers at
what the next episode will be. ACQ2, you should go check it out. It is where we do follow-up
interviews when we have topics we're more interested in. Perhaps we'll do that for healthcare
or just CEOs or investors that we want to talk to, look in any podcast player. After you finish this episode, come discuss it with us
at acquired.fm slash slack. And if you want any of that sweet acquired merch, go to acquired.fm
slash store. In fact, I am wearing the t-shirt now. So yeah, check it out. With that listeners,
we'll see you next time. We'll see you next time.