The Dr. Hyman Show - Death is Inevitable but Aging is Not with Dr. David Sinclair
Episode Date: September 11, 2019Age is not the definitive factor it’s made out to be when it comes to our health. We can use our age as a baseline for tracking our health and longevity, but it isn’t stagnant. For example, certai...n types of testing can help us compare our biological age to our calendar age in order to tinker with our wellness routine and achieve the milestones we’re after. With the right steps, we can slow down and even sometimes reverse the aging process. When it comes to our biological age, or the measure of how well our body is actually functioning for whatever life stage we are in, there are many things that impact it. Diet, lifestyle patterns like exercise and sleep, and stress are all involved in forming our biological age, along with many other factors like blood sugar, inflammation, and genetics. This week on The Doctor’s Farmacy, I’m joined by Dr. David Sinclair to explore the topic of longevity and anti-aging and how he reduced his own internal age by more than 20 years. Dr. Sinclair is a professor in the Department of Genetics and co-director of the Paul F. Glenn Center for the Biology of Aging at Harvard Medical School, where he and his colleagues study longevity, aging, and how to slow its effects. This episode of The Doctor’s Farmacy is brought to you by ButcherBox. Now through September 29, 2019, new subscribers to ButcherBox will receive ground beef for life. When you sign up today, ButcherBox will send you 2lbs of 100% pasture-raised grass-fed, grass finished beef free in every box for the life of your subscription. Plus listeners will get an additional $20 off their first box. All you have to do is head over to ButcherBox.com/farmacy
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Coming up on this week's episode of The Doctor's Pharmacy.
Aging is something that we can tackle just as we've been tackling cancer and heart disease.
Hi everyone, it's Dr. Mark Hyman. Traveling between jobs in Ohio, Massachusetts, and New York,
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Welcome to the doctor's pharmacy. This is Dr. Mark Hyman. That's pharmacy with an F-A-R-M-A-C-Y,
a place for conversations to matter. And today's conversation, I think will matter to a lot of you
because it's about aging. And we have one of the world's experts on aging here dr david sinclair from harvard who
i've known for well over a decade and we're both getting younger together every time i see him he's
got basically no less wrinkles and he has no gray hair and he's over 50 i don't know what he's doing
but i want to i want to know we're going to find out david is the professor in the department of
genetics and co-director of the paul f Glenn Center for the Biology of Aging at Harvard Medical School.
And he and his colleagues study longevity and aging and how to slow down that process, which sounds good to me as I'm approaching my 60th year.
More specifically, their focus is on studying sirtuins, which are these protein-modifying enzymes that respond to changing levels of something called NAD, which is a very important molecule
we're going to learn about today, and to caloric restriction when you're eating less.
Now, I don't think that's fun, so we're going to find a way around that, right?
Is that true?
And he looks at other factors around aging, like metabolism, neurodegeneration, cancer,
how to reprogram your cells, which sounds good to me.
He's the co-creator and co-chief editor of the journal Aging, and he's co-founded several
biotech
companies and is inventor of 35 patents like thomas edison over here he's among um one of the
most uh revered scientists out there he's been included in time magazine's list of 100 most
influential people in the world and times top 50 in health care he's also the author of a book called Lifespan, the Revolutionary Science of Why
We Age and Why We Don't Have To, which is out September 2019. So it's really great to have you
here, David. Thanks, Mark. It's good to see you too. Okay. So I first really got interested in
the whole science of aging when I went to this conference i don't even know if you were there was uh with the di llama it was at uh robert thurman umma thurman's
dad's uh place up in um menlo retreat in upstate new york and there was all these tibetan doctors
and diallama but all these extraordinary scientists people like elizabeth blackburn
who studies telomeres and leonard guarte who was one of your mentors at MIT, who studied aging.
And I remember just sort of walking down the field with Leonard and saying, so what is
the deal with aging?
Why do we age?
And essentially, and how do these sirtuins work, and what's driving them, and how do
they get regulated?
And what he said to me was, shouldn't have been surprising, but it was kind of surprising.
It was like sugar.
Like sugar is the thing that's screwing up our aging process and our mitochondria and that's what actually causes
these sirtuins not to function the way they should and i thought wow that's fascinating and uh it
sort of got me thinking about the whole process of aging and then um i was watching one of your
interviews online and you you mentioned that you are um obviously studying aging but you you're
also looking at your own aging and you did some tests that indicated that you were older than you
actually were chronologically and then you did some things and you actually found that you were
younger than you were chronologically so how did that work what just let's start with your own
journey of how do you actually made yourself
younger?
Well,
yeah,
because you're the guy who knows about this stuff.
Well,
I got to say you're turning 60.
I wouldn't have thought so.
So whatever you're doing,
keep doing that.
And look at him.
He's like awesome looking.
Well,
so this is the book lifespan.
Awesome book.
Well,
that this is a download of my brain to that book of everything that I've
thought about over the last 25, 30 years.
In terms of my age, you know, this is not a clinical trial, so I'm not going to be publishing these data anytime soon.
N of 1 is good.
N of 1.
But, you know, when you're on the cutting edge of science, you start with an N of 1.
All science begins that way.
So what I did was I went to a company that does blood tests.
Should I mention their name?
Doesn't matter to me.
Inside Tracker.
I'm a consultant to them if anyone wants to know.
And they have a five-factor blood test that goes with proven correlates for longevity.
So glucose, ferment testosterone, liver function, CRP.
There might be one thing I'm missing, but those things add up to...
Blood sugar, inflammation, liver.
Definitely blood sugar is a major thing for aging.
Actually, one of the best predictors of your lifespan is your fasting blood sugar.
Yeah.
So, yeah, it does...
And by the way, not within the normal range.
It should be optimal, right?
So, if we consider normal up to 100
but if you're going to get up to 100 it's not good right oh yeah we could get into that i i find it
crazy that a lot a lot of times we don't treat high blood sugar until it's too late yeah anyway
so the so what i did was i had my blood tested and i i've been doing it since 2011 i've seen
things creep up as i got older uh and at the time I was 48 when I had this test,
when I got a real shock that it said that I was 58.
Oh, wow.
Extensibly.
For the aging researcher to be 10 years older,
it actually is.
It's not a good situation.
Yeah, right, right.
I'm worried I might die from a heart attack
and everyone will go, okay.
I'm writing this book about lifespan,
but I'm actually like way older than I look.
Right.
That would be bad.
So I did a couple of things.
I started taking metformin actually.
So this is the, many people will know this is the frontline therapy for type two diabetes.
Yes.
And I felt justified doing that for two reasons.
One is I'm a scientist.
I can see what happens.
It's fairly safe drug.
We can talk about its safety, but millions of people have tried it uh and uh i also have high blood sugar in my family
and it was edging up so my father's on it my grandmother was on it so figured why not start
before it gets out of control so that was the science part of me uh and then i also um well i saw my age come down a little bit a few months
after that it wasn't great it was better yeah i came so i started out at 58 and i was a bit worried
what came down to about 57 56 as i recall not that great no no still still not good so i went on uh
the molecule that we were studying in the lab which we were giving to mice and we could see
was improving their health
and making them run further.
And as far as we could tell, reversing some aspects of aging,
particularly in muscle.
And I started taking it, again, just as an experiment,
not as a clinical trial.
And next time I measured it, again, a few months later,
it went down to 31.4.
Amazing. So you're now older but younger well it was a good
day i my wife would tell you i was running around showing her the graph going look at this
independent studies show i'm younger and uh and it it stayed down and um but one thing that happened
was with combination of these two things i wasn't as hungry i lost a bit of these two things, I wasn't as hungry. I lost a bit of weight, about seven pounds, which certainly wouldn't have hurt.
But one thing about this inside tracker thing and other things, such as I noticed, I think that's the same ring as I've got.
The aura ring.
When you've got data in front of you every day, you think more about it and you can react.
And before, I would never know what was going on if I did something to my body.
Yeah, now they have these continuous glucose monitors.
Yeah, and that biofeedback, the bio-tracking, as we call it,
it's beneficial in nothing more, if nothing more,
just gives you more clarity about how you're doing and more mindfulness.
We know more about our cars than we know about our bodies, actually,
with all the sensors, over 100 sensors in our cars.
How many do we have on our bodies? Yeah. With all the sensors, over 100 sensors in our cars, how many do we have on our bodies?
Eventually, we'll have many more.
So it's fascinating.
One of the things that we think about in terms of aging
is that it's this inevitable and extra process
that goes in one direction.
And you're challenging that idea.
You're saying maybe what we see as aging
isn't actually healthy aging.
It's abnormal aging.
And that it's really based on a series of biological dysfunctions that we can understand and we can modify through either diet
or lifestyle or maybe nutrients that we take or supplements right well why not first of all just
philosophically let's talk about that um is aging a condition? Well, I believe it is.
I think you could argue, I make the argument in the book that disease is something that happens over time that's deleterious, reduces function, if it happens to less than 50% of the population.
If it happens to 51%, we call that aging, and it's arbitrary.
And the mere fact that it happens to most of us, if we live long enough and if we're
lucky enough, doesn't mean it's any less important.
In fact, I would argue it's more important.
And so one of the things that I'm very keen on explaining to everybody is that aging is
something that we can tackle just as we've been tackling cancer and heart disease.
And this inevitability, cancer is inevitable if you live long enough so is heart disease so is dementia the
longer you live the more chance you'll get it okay but not inevitable well i would say every disease
of aging is inevitable as long as you live long enough right so you don't you have to die of
something you can't just die of old age uh well something has to go wrong but what is the driver
of all of those diseases yeah science says it's aging you if you're if you're a teenager you don't
get alzheimer's you don't get cancer and we don't often think why that is but the most important
factor by a factor of a hundred or more is the aging process so if you can keep the body younger and functioning like it
did when we're in our 20s you're you're literally not going to get heart disease you're not going
to get alzheimer's yeah and as we learn more and more about how to reverse not just the effects of
aging but actual the age of cells themselves i believe we will be able to prevent in large part
these diseases because we've removed the largest cause of
these diseases.
Yeah.
I mean, I think, you know, what you said is sort of implying that there's common root
causes of all these diseases we see with aging.
And if we focus on those root causes, that we can modify the trajectory of all those
diseases and we don't have to treat all of them independently.
Right.
Well, I call it whack-a-mole medicine the way we do it now.
Yeah.
Which is fine. You know I think anybody who focuses on medicine and research is
doing a great service to the world. I do think we can have a big impact if we can
find out what's driving all those diseases and it's not intuitive unless
you're in the field that what's driving those diseases that we all see in our families there's
something common and actually in the book i have a theory that explains why or what is the underlying
cause of all the diseases that we get as we get older and not just all the diseases wrinkles yeah
and gray hair and all of that stuff it's all the same i believe it's all the same process that
can not just be slowed down but even reversed well this is such a radical
shift in thinking in medicine right in traditional medicine you've got your diseases and they're all
separate and dementia is different from heart disease from diabetes from cancer different from
you know all these hypertension right they're all separate illnesses in in functional medicine we
think about the body as a system and it's having a few common root causes and a few key systems that when they function well, disease doesn't have a chance, right? So whether it's the mitochondria,
which you've been studying when you're talking about the powerhouse of the cell, whether it's
inflammation in your immune system or whether it's your microbiome or whether it's your
hormonal regulation, these are all connected. And the key to solving the puzzle of disease
and aging is really understanding
these common links right well that that's why i think we hit it off over a decade ago is that i'd
rarely met a doctor who talks like you do more and more are but uh it really it's it's been missing
and i teach medicine at harvard medical school uh for what that's worth and the way we teach it is
treat the symptom not treat the cause yeah yeah and it's in
and so in aging it seems like there's things that happen uh and and i want to get into why but we
see increase in inflammation and aging we see a decrease in mitochondrial function which are
these energy cells so we lose energy basically our engine gets the carburetor gets full or whatever
and it doesn't work we see horm hormonal changes, lower testosterone, higher cortisol, lower growth hormone, increased insulin, increased blood sugar. We see changes in
the microbiome that degrade over time. We see changes in our ability to sort of metabolize
things and toxins. These are all things that we can understand now with the science we have,
which we couldn't even a few decades ago. It's what we've been doing in functional medicine
without really understanding that much of the science because it, which we couldn't even a few decades ago. It's what we're doing in functional medicine without really understanding
that much of the science because it's all emerging.
But your work has really started out with looking at the mitochondria
as a key to aging, and that has sort of led you to some of these other linkages, right?
Well, mitochondria, I didn't set out to study mitochondria.
Our research pointed in that direction that they were part of the puzzle.
We started out when I was with Leonard Garenti,
you mentioned my former mentor and still friend.
We started out with the question,
why do organisms grow old in the first place?
Simple question.
Very few people had actually asked it.
And so we studied yeast cells from, you know,
bakers and brewers use it all the time.
Why do yeast cells not live forever?
And they typically live a week.
We actually found out that these genes that you mentioned, and brewers use it all the time. Why do yeast cells not live forever? And they typically live a week.
We actually found out that these genes that you mentioned, sirtuins, are regulators of yeast aging.
And we have seven of these genes in our bodies.
And they do phenomenal things.
They repair DNA, help telomeres.
And one of the things we found they do very well is keep the mitochondria healthy.
And actually, we found what was surprising was how
reversible the aging of mitochondria are in animals at least and we're now doing human
studies in clinical trials that within just a week of treatment with a molecule that a few molecules
we've tested that enhance the function of sirtuins whereas veritrol was a famous one we worked on
now nad boosters all seem to be able to reverse
mitochondrial dysfunction within days and we never knew that aging was that malleable until then
yeah we we see it all the time i see it you know treating patients where they're they're literally
biology can reverse at any time you know you see people who are in their 60s who have all these
end-stage diseases like heart failure and diabetes and severe obesity and hypertension and kidney failure.
And you see these things go away when you start to modify these factors that drive inflammation and blood sugar and mitochondria.
It's pretty amazing.
Yeah.
Well, there have been a few paradigm shifts in the field.
So when I started out, and this is we're talking about the early 1990s, the idea was our bodies are
like cars we eventually wear out.
There's not much you can do about it.
You can slow down the rusting, be radicals, and that's about it.
But what we discovered in the 90s, thanks to works by Cynthia Kenyon and Lenny Garanti
and others, is that these genes, sirtuins, and there are some others we can talk about
later, I think, but these protective pathways exist.
We didn't know that we had protective pathways.
It's as though we've discovered not just that our bodies are better than cars,
that we actually have inbuilt repair systems.
Yeah, it's like a self-cleaning oven, right?
Yeah, and they get lazy if you're lazy.
They get lazy if you become obese and don't eat well and if you eat too much.
There are other things you can do to kick them into action with how you eat, what you eat.
But also what we found is that they're basically inbuilt survival mechanisms that are very ancient.
They're found in yeast cells and plants in our bodies.
Probably our microbiome plays a role.
And so we can basically make a call to the Pentagon of the body,
and they can send out the troops without actually damaging the body.
You don't have to have a war to get ready for war.
And these protect us against diseases, in many cases, reverse aspects of aging.
Another paradigm shift was that we could delete the bad cells in the body,
the senescent cells that accumulate.
And there are some molecules in clinical trials as well that might be paradigm shifting.
How do you delete those?
Well, they're called senolytics, senescentlytics,
lytic meaning lice, the cells kill them.
And there are molecules that can do that.
There are some natural molecules, quercetin,
quercetin from onions and apples,
desatinib's a drug on the market.
We, well, actually work at the Mayo Clinic
primarily and Judy Campisi out at the Buck Institute found that you can treat animals
and delete their senescent cells and they get younger.
So you basically like go in and like clean up all the bad cells.
Yeah, we call these the zombie cells, senescent cells and zombie cells. They're half dead.
They sit there, they should be be dead but they're actually causing
havoc they're they're secreting inflammation factors cytokines that cause other cells to
senescent to become um potentially cancerous and when you delete them uh mice live longer and
what's exciting about that technology that's science is you can instead of taking a pill
every day which is the kind of stuff that i work on if their stuff works you can, instead of taking a pill every day, which is the kind of stuff that I work on, if their stuff works, you can have a treatment
once every decade maybe, and that's it.
And the treatment is a drug?
Is it a supplement?
It's like quercetin, you say?
Well, you can supplement.
There's nothing fully proven in humans yet.
There are some early studies from the Mayo Clinic.
Just this year, a study in humans came out
that was promising from Jim Kirklandirkland uh but in mice a
lot of studies now point to this being a phenomenal way to address aging so you had kind of different
pathways you can work on at the same time right you can work on the killing all the bad aging
cells and you work on optimizing and revving up your engines like tuning up your engine
well we're in a remarkable time for aging because we've moved from just understanding what's causing it and how we might intervene to truly understanding what can be done.
And now we're in a phase where the question is, what are the right combinations of diet, exercise, food, supplements, and eventually drugs that are on their way?
And so I mentioned two paradigm shifts.
There's a third one that maybe we can touch on later yeah
and that's reprogramming cells and with an understanding of actually what's controlling
the clock of aging and how to wind it back because you're saying you know this limit of
100 years or 120 is not necessarily a hard stop that there there may be ways of understanding
the aging process that we can interrupt that. Well, there are plenty of animals and certainly species across the planet that live longer than
we do. It's not a biological impossibility to live hundreds, actually thousands of years. There's even
some corals that live for 10,000 years. So it's not a fact of life that we have to die at 120.
If you remove predators and war and disease, species evolve longer lifespans.
It's happening right now on a Japanese island where a lizard was released and it's got no
predators.
It's breeding slower and living longer.
That's what happens.
And give us a few more minutes.
It doesn't actually.
It just sits there in the sun all day, right?
Well, you know, we don't have to necessarily live at the bottom of the ocean like a Greenland
shark or on a rock.
But what these organisms show us is that lifespan is malleable.
It changes over millions of years, sometimes in the course of a few generations, as we're seeing with this lizard.
What is happening?
That's what I want to figure out.
What is it about those organisms that we can learn from and instead of letting us evolve having to wait for us to evolve over millions of years why don't we just accelerate that gene
editing or is this going to involve more of these other kinds of therapies i touch on gene editing
in the book in my lab where we're using gene therapy to kind of leapfrog uh and really see
how powerful our genome can be we're having some remarkable results in mice
and truly reversing the clock of aging and seeing what can happen.
Maybe I'll reveal that later.
Okay.
It's fascinating.
I have an ApoE2 gene and a 3,
which is 2 is like the ones who can live forever,
drink, smoke, and not exercise and live to 120.
And then the 4 is the bad one you get alzheimer's so how do i like change my three out for a two can i do that i'm gonna get a double two it'll it'll be possible where we're
at with gene therapy is so there are a couple of drugs on the market that are used for rare
diseases because that's usually where new technologies are first used uh you know there
are scientists who could probably do this to themselves
if they were crazy right now.
The technology is there.
Where we're not at, the science doesn't allow us to change every cell
in the body right now.
Even in a mouse where we've been studying this longer,
and my lab does this every few weeks in the lab,
the problem is we can infect about 30% of the cells
and it infects and changes the genes
in some organs more than others.
Yeah.
So it's very easy to change most cells in the liver,
but not so much in the muscle and the brain.
And you only get one or two shots at it
because an adenovirus,
which is what carries the gene therapy,
causes an inflammatory response.
Right, that's not good
so i you know i'm not i'm not planning on doing that anytime soon yeah uh but if i had a rare
disease and i was it was going to kill me or i was 95 and i had nothing else to lose maybe i'd
consider it unbelievable so the whole goal here isn't just to extend lifespan, right? It's to extend healthspan, right?
Which is how long of vibrant years you have.
And there's a lot of thinking that if we extend lifespan,
there's going to be a lot of old people who are going to be sick
and cost the system money and drain our society,
and that's not a great thing.
And yet there are others that sort of pointed to research
that maybe that's not the case,
that if we figure out how to create health, that we can do what we call rectangularize
the survival curve.
James Freese wrote about this decades ago, where he talked about how people who didn't
smoke, who exercise and kept a normal body weight, live longer and were healthier and
just didn't get sick.
They just basically fell off the cliff and died as opposed to long, slow, painful deaths.
They died quickly, painlessly, and cheaply.
Yeah.
Well, that's what the science is pointing to.
And in my lab, we see that a lot.
When we intervene with a molecule, we see those mice, they are healthier for longer.
And actually, you know, when I talk to people about living longer and I ask, how long do people want to live?
A typical answer is, oh, I wouldn't want to live over 100 because people have seen what 100-year-old looks like.
You get decrepit, right.
You know, God forbid that we get there.
But what changes their minds is what if you could be 100 and still play tennis and hang out with your great grandkids and still be productive?
You don't have to be earning a living.
You can be helping the community, nonprofit work.
And then everyone raises their hand pretty much.
So it's all about health.
And that's the
key point um i want everybody to know that i don't know how to extend lifespan without keeping people
healthy in fact the reason that's how you do it that's how we do it that's the only way we can
extend lifespan is to keep animals and eventually people free of disease for longer and then
eventually something gives out fairly quickly typically typically. And that's the idea. Someone like my father, who's 80 now and still traveling the world and going out every night and hanging out with friends.
His girlfriend is 20 years younger.
Well, yeah, multiple friends who are girls.
I don't know if they're girlfriends, but that's a life that I think is well lived.
And if he can keep going and helping my family and his community, which he's doing for another 10 or 20 years the the economics show and we've modeled this for australia we've done some others have
done this for the uk gdp goes up it's not that there's a drain at all in fact the the amount of
health care it's 17 of gdp right now in the us it's only going to keep going up the reason is
we're getting older and sicker the last 10 years years of life can be spent in wheelchairs and not
going outside and being spoon-fed. I've seen that with my grandmother. So my father's mother at 80
could barely walk. She was in a wheelchair, spent the last 10, 13 years of her life in a state that
you wouldn't wish on your enemies. And the expense to keep her alive was ridiculous my father on the other hand he's
contributing yeah you know what that's that's what i talk about in the book is that the future
is bright if we can tackle this problem keep people healthy for longer the problem is if we
don't succeed we are we have an issue too the world's economy is going to be dragged down by
all the sick elderly people that are coming along it's true i just read a study the other day that was a macroeconomic analysis of chronic disease
just in the United States.
The direct and indirect costs over 35 years, it's $95 trillion with a T.
That's over $3 trillion a year.
And if we figured out how to fix that, we literally have money for everything we need
in this country.
Infrastructure, free education, forgiveness of student loans, free healthcare for everybody,
raising everybody out of poverty i mean it just would be a game changer right yeah you know i couldn't have said it better one of the things that that people challenge me on they
say why work on aging don't we have more important problems global warming species extinction i'm all
for that i'm the biggest greenie and and you know i was going to be an animal rights activist if it wasn't working on aging but i think the best way to tackle the
problems we have is actually first solve the biggest drain on the planet which is taking care
of the sick and the elderly yeah and then like you said there's trillions of dollars if we could
just reduce one disease of aging by 10 it's about three trillion dollars over the next decade
we're talking about a lot more than that.
And that's money you can use to fix the world.
And your thinking is actually the thinking
that I think can solve the problem,
because in medicine, most of the thinking
is focused on disease.
You're focused on the mechanisms of health.
Well, sure, I mean, it's important to know why people die.
And we have a list of 14,000 diseases in the handbook.
Well, it's now
155 000 yeah but but knowing why people yeah fall off a cliff i would argue it it's also just as
important if not more important to know what drove them to the cliff in the first place
yeah so so let's get down and deep a little bit so the the thing you're working on now is is similar
to what you're working on around resveratrol, which is the active ingredient in red wine.
Except, you know, the equivalent amount of dose you'll use, I think, was like 1,500 bottles
of red wine.
So it's not something people should try at home.
But you've, because that worked on sirtuins, it worked on mitochondria.
But now you're working on a different mechanism, which has to do with increasing the function and health of mitochondria using a compound that helps increase NAD.
Now, can you explain what NAD is?
A little bit about why mitochondria are important.
And before you do, I just want to sort of back up a little and say that all the studies on aging that have shown any benefit to increased lifespan in animals have all been often through
calorie restriction which means you eat less like two-thirds a third less you live a third longer
and and also new things like fasting mimicking diets are being studied and other things related
to calorie restriction now that that apparently affects the mitochondria that's how it works and
that's really what you're trying to figure out how do you get around having to starve yourself
all the time yeah well a large part of it is mitochondria um they do other things
which we can touch on this probably they probably do 100 things that we'll we're still working on
um let's go back to yeast because i think that's a good framework in when we started in yeast we
didn't know why they were dying we figured that out it's mainly genome instability that that
affects their cell identity and then they die.
Discovering the sirtuins was a game changer because what we figured out was there are three levels to aging.
There's the base level, which is the things that kill you.
DNA damage, telomere shortening, mitochondrial dysfunction.
That was pretty much worked out in the 90s.
Then there was a level above that, that there were these regulators of aging the sirtuins are
major regulators and and but then in the 2000s my lab and others found there was
this top layer which is the environment and when the environment is a little bit
harsh adversity or even perceived adversity it kicks these protectors into
action and then they slow down or reverse these causes of aging.
So think of it as a hierarchy pyramid.
So what you want to do is start at the top.
So how do you trick the body into thinking that it's going to run out of food
or that there's some other adversity?
And we found in yeast cells, if you reduce the amount of sugar,
getting back to sugar, they kicked into action the sirtuins.
I'll talk about how they did that in a minute.
And then the yeast cells lived longer.
They protected the DNA.
They boosted mitochondria, and they lived longer.
Wait, I just want to pause here.
So sugar, you're saying, accelerates aging,
and restricting sugar actually helps increase longevity in these animals.
Well, certainly for yeast and a lot of data on humans
that lower sugar is better, and fasting blood sugar is lower is better too for longevity.
But there are other ways to kick the sirtuins into action.
So there's in humans, intermittent fasting is easier, I find, than calorie restriction.
I tried calorie restriction for a week.
It was pretty hard.
I met a guy once who said he's doing calorie restriction and he was a member of
the calorie restriction society so what do you have for breakfast i have five pounds of celery
and three pounds of tomatoes and i'm like uh no thank you right
well eating is one of life's pleasures um but i find uh if for me if i skip breakfast it's no big
deal yeah right so intermittent fasting is basically time restricted eating where you eat within a certain time window of eight hours or or 10 hours right
yeah there are plenty of varieties i talk about them in the book there are some other books that
talk about that um you've mentioned this many times on your show the there are some
uh skip a meal protocols they skip two days a week yeah there are some people peter t is doing skip
a week of food he says after three days magical things happen he thinks i haven't tried that yet
but i'm going to but yeah no one knows actually what the optimal amount of fasting is but i can
tell you is some time of being hungry is good we can can see that in our animals. There's no question.
If we give our animals, our mice, food every other day, they live longer.
And in fact, if we gave them resveratrol and the combination of eating every other day,
we got some very long-lived mice, and the combination was great.
So that's one of the things I do to myself is have resveratrol and try to be hungry once in a while.
Yeah, that's what the Okinawans do.
They call it harahachibu, which is 80% false.
So you push yourself away from the table when you're 80% false.
There's a lot to that, for sure.
Having a lot of food and glucose in your bloodstream, just not a good thing.
So getting back to how to mimic this, mimic exercise and diet, you can do it in yeast.
You can do it in mice by either taking resveratrol
we showed that was one of the ways to activate sirtuin enzyme that protects the the body
but we have something that's i think more interesting now which is the nad molecule
you mentioned so nad let me tell you what that is uh anyone who's studied biology will have heard
of nad but probably forgotten about it because it's so boring.
It's a life cycle.
Yeah, it's the molecule that nobody really wants to care about.
What we discovered is that it isn't just a housekeeping molecule
for biochemical reactions.
Germans discovered 100 years ago you needed it for life.
Without it, we're dead in 30 seconds.
But what became interesting was, thanks to Lenny's work when I was in his lab
and then later in my lab, we showed that the NAD levels of an organism are important for
controlling the sirtuin protective enzymes. And as they get lower, they're not as active.
And if you can get them higher, either artificially or by exercising or dieting,
they get kicked into action. We get the benefits of calorie restriction and exercise without
actually having to do those things and the but they're added to
I don't that's a good message no I was gonna add to that which is but if you add them together
is that it well we we just published last year actually in the journal cell that if you have a
mouse and you give it an NAD boosting molecule and you exercise then they become super mice and
they can run okay that's good so you it's a it's
a lot of added value if you eat well and exercise oh definitely because i remember reading original
studies way back when and i was like wow these mouths these mice were eating terrible diets
and they were metabolically younger they were fitter and they didn't do any exercise i'm like
whoa but then i was like wait a, it's 1500 bottles of red wine.
It's not gonna work.
Yeah, well, in the resveratrol study,
we did show that you could live,
make a mouse live just as long on a high fat diet
as a healthy mouse with resveratrol in the diet.
But I don't wanna send the message
that that's all you have to do and you'll be fine.
No, definitely.
There's other things that go wrong
and we're not mice after all.
And you feel better if you're healthier anyway, right?
So anyway, getting back to the NAD.
NAD, yeah.
We can raise NAD in everything from a yeast to a human by giving them what are called NAD boosters.
And these are either NAD itself
or precursor molecules to allow the body to make NAD.
The one that we use a lot in my lab is called NMN,
nicotinamide mononucleotide is its real name.
And the cells in the body take it up.
There's a transporter.
They get sucked up into cells and they immediately convert it into NAD.
And we can see that there's a spike of NAD produced after NMN
after about two to three hours.
And then it eventually goes back
down but what we are seeing especially in mice where we can take out tissues I'll look at tissues
and blood is that that has phenomenal effects on the body's protective mechanisms through
largely through the sirtuins and mitochondrial activity. So on the market there's a lot of these
products out there that are being sold as NAD or some varieties of them, combining them with bisferatrol.
Is it ready for prime time?
Should people be running out and getting this stuff?
Or is the data not there?
I mean, is there clinical studies?
There are a few clinical studies.
So Lenny Garenti and I, he's my mentor, we took two different paths. And I can only guess why. I think
one was that Lenny's, I think, 15 years older than me and clinical trials take about a decade. So
he was in more of a rush than I was. So he's gone the supplement route and decided to use
that supplement to test in clinical trials. And he's just had a paper that came out, I think,
yesterday in Parkinson's that looks really promising that Parkinson's patients do better
on his combination of another NAD booster called NR,
which you can buy, and a resveratrol analog called terastilbene.
Now, that's actually one of the first studies, if not the first,
that says that there's some positive benefits in people.
There have been quite a few safety studies, and so far everything looks safe.
But I just –
We know that mitochondria are the main organelles of the things that get injured in Parkinson's,
and that mitochondria is really the cause of Parkinson's.
In a sense, when the mitochondria aren't working well, you can't have proper motor function
because it runs your muscles, and they're easily damaged by toxins and other things.
So using something that helps upregulate.
And I've had patients where I've given them NAD and their Parkinson's tremors get better.
It's impressive.
Fantastic.
Yeah.
I hope that this is the first glimmer that this is a really big change in how we can
approach many diseases, not just Parkinson's.
So Lenny took the supplement route route i'm taking the pharmaceutical route um they're both going to be complementary
there's no right way yeah we we have clinical studies that are just finishing up phase one at
harvard where things look good we can raise nad in humans and um no sign of toxic effects our plan
is to next year early next next year, go into diseases where
mitochondrial are dysfunctional. Yeah. For example, in diabetes, half of primary relatives
of type 2 diabetics, like son or daughter, brother, sister, they have a 50% function of
their mitochondria, even if they're, quote, healthy. So there's genetic things that regulate
mitochondrial function that can be inherited, but then can
be modified through some of these approaches.
Well, they can.
And going back to the mouse studies, we showed, I think 2013 now, that within a week we could
make old dysfunctional mitochondria function and appear exactly like a young animal's mitochondria
in their muscle.
And to me that was remarkable because we were told that mitochondrial dysfunction was
largely due to mutations that were irreversible.
And we can find mutations.
There's no question about that.
Very late in life in a mouse and in humans, they exist.
But if you catch it early enough, and in the case of a mouse, it was about the age equivalent
of a 60-year-old, we could turn a 60 a 60 year old equivalent mouse back to a 20 30
year old within a week and to me that that defied all everything that we expected yeah it's true you
know i first became interested in mitochondria because mine stopped working really yeah i i had
um about 25 years ago i lived in china and I got exposed to a lot of mercury and came back and got very sick
from the mercury and it caused severe muscle damage. And my muscle enzyme CBK was like 600,
which was really high. And I had muscle fasciculations and twitching and aching and
pain and I had severe chronic fatigue and my system just shut down.
I went from like riding my bike 100 miles a day
to not being able to walk up the stairs.
My cognitive function basically was like,
I felt like I was severely impaired.
I had ADD and depression and dementia all at once.
It was really bad.
And so I began to sort of learn
about functional medicine and mitochondria
and started treating myself
by actually upregulating all my mitochondrial pathways and all the cofactors and nutrients
and removing the mercury. And I've used this approach and it made me get better. My numbers
are great and I feel good. And I see this a lot of my patients who have sort of these weird sort
of mitochondrial problems. So my wife has this. So if she goes for a walk or aerobic exercise,
she'll feel crappy afterwards.
And there's a syndrome of patients who just,
when they exercise, they don't get the runner's high,
they don't feel good,
and they feel tired and wiped out and have to take a nap.
And so I started to say,
well, why don't we just try to give you
a mitochondrial cocktail?
So I gave her a whole bunch of things,
including NAD, CoQ10, carnitine, ribose, some amino acids, B vitamins, I don't know, something else maybe.
And should we do that before she'd go for a walk?
And no problem.
And I've seen this over and over again.
So I think, you know, it's a lot of these things that we have to think about, not just sort of one pathway, right?
Yeah. things that we have to think about not just sort of one pathway right yeah well what's been amazing
to me is that we yeah we used to think aging and these diseases were one-way streets and we were
lucky if a medicine could help and slow down the disease but what you're saying and what i've
learned is our bodies are remarkably good at healing yeah better than we thought as long as
you just tweak them the right way and we're at that that point in medicine and history where we have a fundamental understanding.
It's not perfect.
We have a lot more to do.
Future generations will look at us and think of us as primitive.
But we do have the tools right now to be able to change a lot of our disease processes
and our aging process as well.
It doesn't surprise me that this is happening.
With my father, he was going downhill.
He was approaching 80. He was seeing his friends go downhill he started taking the nmn and and saw
in his view the same thing we saw in the mice what we saw was it wasn't just mitochondria going up
we actually found that the muscle started growing new capillaries or capillaries as though they were
being exercised and so he's blood american and australian i try i try you've got a global audience so may as well sometimes when i'm watching these english shows
with my wife she's from new zealand i literally have to pause the show and say what did they say
and she's like we're watching the crown and you know i'm like what did she say
she like translates and then i'm like okay right or game of thrones like what did he say
yeah well stop me if i'm unintelligible you're good you're good you've been here a long time And then I'm like, okay. Right. Or Game of Thrones, like, what did he say?
Yeah, well, stop me if I'm unintelligible.
No, you're good.
You've been here a long time.
So one of the things that is remarkable is,
one of the things I've found is that aging is also caused by a lack of blood flow.
So you have buildup of toxins, lack of oxygen.
And by inducing mitochondria to get them healthy and give them more energy more of the ability to take in the nutrients and get rid of the toxins in mice it's remarkable in people
we think we'll be able to give them a lot more vitality if my father's any indication of what
we're going to see it's going to be remarkable we haven't tested it on vascular dementia but
i'm hopeful that this could be a way around that too i've seen data somehow on alzheimer's and nad2 right an amyloid yeah there's
some at least in mice do you know of any human results you know in mice yeah no pretty exciting
so does nad also affect inflammation does it affect glucose and blood sugar and how does it
work to those other mechanisms that are so central to aging yeah so the sirtuins do a lot they control blood sugar they control liver and the pancreas
the muscle um so they do a lot and often people say this sounds too good to be true but it's not
just my lab is now hundreds of people working on this on the blood sugar side of things that was
shown way back in 2012 by shin mi at washington university in. Louis. So yeah, it does reduce blood sugar. It
controls the pancreas insulin levels. It controls uptake of blood sugar. On inflammation, we know a
little less about that, but my lab has done a fair bit. We haven't published a lot, but we find that
as macrophages, one of the main inflammatory cells in the body, as they become hyperinflammatory,
they move into that stage, that requires NAD. And if you control that and prevent them from
chewing up their NAD, which they need to, to convert into the inflammatory state,
we suppress inflammation. So what we're finding finding is if we give them our NAD
booster or we block them from chewing up their NAD as they convert into this
inflammatory state we can reduce inflammation and one of the problems
with aging we think is that the NAD levels of these cells and across the
body they go down with time and not so much in the bloodstream but in tissues
we think that the levels of NAD such as the skin or we can measure that go down about half by the time
you're 50 I don't about a 60 year old but I'm sure you're looking after NAD
I'm hopefully I'm taking it yeah well that certainly is a way to boost it
I like to sort of experiment on myself so I try to put things see how it works
yeah me too if we wait 30 years for this
all to be proven we'll be gone by that point i mean my view is what's the risk what's the benefit
what's the cost what do we know like is there a scientific premise that makes a reasonable
explanation of why this should work is it safe right does it cost a million dollars or 10 cents
and you know just some simple metrics that allows you to sort of try stuff with pretty much impunity.
For sure.
Well, let's get into that because that's a good point.
The NAD levels are 50%.
You get them back up to a young level or even beyond.
That's when we see this reversal of aging.
So that, I think, it makes sense what you're doing.
Of course, we don't have proof yet, but we will.
A lot of people are doing IV.
Is that better? we don't have proof yet, but we will. A lot of people are doing IV. Is that better?
I don't know.
We've done IP, which is in the gut for mice.
Yeah.
I've heard a lot about it.
I think it makes sense that that should work just as well.
But getting back to the risk-reward thing, that's really important.
So it's a fact that a lot of these molecules are relatively cheap. In the case of metformin what is it less than a dollar a day it might be a few cents a day
for some countries okay so that's not a lot of money all right that's that's that's the cost
what's the risk something like metformin has been in probably 100 million people used for the last
40 years risk is extremely low no there's some side effects like gut issues and everything yeah exactly you're a real doctor i'm just a phd but metformin you can have you know
i think the biggest risk is you'll have an upset stomach but there can be some severe side effects
you want to do these want to do these things under medical supervision do some blood tests
okay so now we know the cost we know the risk okay so just use metformin as an example um the the downside
what's the upside well the upside is you you might have a few extra years maybe another five years of
healthy longer life that's a pretty good trade-off yeah um what i think what most people have trouble
in the calculation that we just did and you and i have done this calculation similarly is what's the risk if i don't do anything yeah all right but most people are in denial you know
when you when you're five years old you realize that everything dies your parents you'll die
it's horrifying every kid goes through this and we we don't remember typically going through this
i remember you know it's horrifying that may be why you you and i do what we do because we have we we haven't forgotten the shock but uh i think most of us we don't we
don't like to think about this every day yeah it takes a lot of guts to think about your loved
one's mortality and it's even worse if you seriously contemplate your own mortality every
day that's that's brutal you don't want to do that but if you if you do think about it at least
you know once in a while that calculation that we just did becomes pretty easy to do yeah um yeah it's it's
pretty scary what what is going to happen to everybody it's not pretty um and we're all in
denial that this is something that we might be able to do something about and that's what i'm
talking about in the book yes so you this book lifespan the revolutionary science of why we age and why we don't have to uh is is kind of a manifesto for
how we can think differently about aging and the things we can actually do to slow or even reverse
aging so why don't you give us the the take-homes from the book about what what after doing this for
30 years what you've learned and and what are priorities? Because my guess is, is probably not just, you know,
taking your supplement and going to McDonald's every day, right. And sitting in front of the
TV, watching TV and having a, you know, cake, right. It's not that.
It's, it's not. And what we've, we've found in our studies and many others around the world, so I've probably read 10,000 studies on this.
So if I can synthesize it, which I've done in the book and in my life, and I do list what I do daily in the book.
Yeah, I want to see that.
So I won't remember everything.
And so you'll have to read the book. But one of the main take-home messages is if there was one thing I could tell people to do,
if there was nothing else, it was eat less.
Not to an extreme, I think.
There's a lot of mental diseases where people are eating far too little.
But if you're a regular person and know how to eat the right things.
Not in Brexit, yeah.
Yeah, yeah.
You know, teenagers, don't do this.
But anyone who's through puberty knows how to eat the right foods,
a lot of plants, not a lot of carbohydrates in my view,
get most of your protein from plants.
Occasional meat is fine, but I try to restrict my meat.
I know that there are a lot of carnivores out there.
Joe Rogan doesn't like it when I tell him that meat might be.
But you also don't eat carbohydrates so people get confused carbohydrates can be good
right so the right one broccoli is a carbohydrate but so is you know a bagel and they're very
different exactly right and and you know and you've spoken a lot about this so i don't need
to hammer it too much but the right carbohydrates for sure uh but yeah be hungry once in a while so
that's that's the first point um so keep your blood sugar low um if you can but not too low
because you need your energy you need to your brain needs glucose another thing i do is i um
i exercise now i'm always at a keyboard or on my phone so it's it's hard so i spend about four
hours at the gym uh on a sunday with my son which
is does two things it's fantastic four hours yeah well i have to make up for it somehow
i don't think it works like that you don't okay i'm probably wearing out my body but i i do a
combination of weights uh and then some aerobic yeah some high impact uh training intensity
training and then i also do something else that else that I think is becoming more common,
which is, so those are two, what I call hormetic,
what you would call hormetic induces.
You like stresses.
Small stress.
Yeah.
Better.
Exactly.
What doesn't kill you makes you live longer.
Yeah.
That's why organic food has more nutrients because the phytochemicals are
there to protect it.
And then when you have the stress of being organic, which is harder to survive, you actually make more nutrients.
Right.
So that was one of the theories that I put out, xenohormesis, the idea you can get the messages from stress plants and get them for our body.
So the other stresses, which we know less about, there's enough data which i put it have put
in the book that says this is probably real is uh sauna and cold stress oh my god i do that all
every day really i have like a steam shower and i have a sauna and i have a big bathtub and i go
hot and they go in the ice bath fantastic ice bath it's like the best thing ever well it'll
certainly wake you up and it makes you
feel good if nothing else but i've looked into the data i did a lot of research for the book and
so the cold stress um it'll boost your brown fat brown fat has a lot of mitochondria puts out a
lot of good molecules so that's what you can do this cryotherapy is not nonsense i don't think so
but you know there's not hasn't been long-term studies but it makes sense um and my harvard
professor but there's not been long-term studies yeah i have to i always have to do that uh you're tenured now you can
say whatever you want i get slapped on the wrist uh but the the the what's interesting about it is
that the the brown fat we didn't know it existed in humans until fairly recently only a decade ago
but it seems more you have the better and the best way to induce brown fat is to be cold, especially across your back. There's a lot
of it back there if you can induce it. The problem is I found that, at least in animals, the older
you get, the harder it is to build up. So you want to start early in life if you can and build it up
then. The heat stress I looked into, and I was really skeptical that any of this was real. My
wife told me about soreness. I went, come on, that can't be good for you. But looked into, and I was really skeptical that any of this was real. My wife told me about saunas.
I went, come on, that can't be good for you.
But you look, and actually there's a lot of studies in Helsinki.
Of course, Finnish saunas.
Yeah, well, they're selling the saunas.
So they've done a lot of research.
So thousands of Finnish men mostly have been studied.
And in those studies, it's pretty clear that men who go to the sauna a few times a week have less cardiovascular disease risk and heart attacks.
Now, there's one caveat, which they actually admit in one of the papers, is that people who are sick or in hospital don't go to the sauna as often.
So there's that caveat.
But I looked at the data.
To me, it looks like it could be real.
So I do both.
And it does increase the resiliency of your cardiovascular system when something called heart variability improves and heart failure patients do both. And it does increase the resiliency of your cardiovascular system
when something called heart variability improves
and heart failure patients do better when they actually go on saunas.
Yeah, that's right.
So these are the stresses that I do on my body.
I take a gram of resveratrol in the morning with a tiny bit of homemade yogurt,
not a lot of food, but I found that there's a type of yogurt
that's
that's really great um for me at least like wine yogurt now with the research well i i don't know
if if uh if you want me to talk about actual products but there is one out there that i use
and make it it's pretty tasty uh the resveratrol dissolves in the yogurt that's the important part yeah um if you just take a dry pellet of resveratrol most of it won't be absorbed and that's the
problem uh i take uh metformin um a couple of them a gram oh wow sometimes in the morning
sometimes at night depending on how i feel i don't do well on metformin it's actually pretty
rough on my stomach so i don't really need it no not if you do the other things yeah well probably
probably i'm trying i'm trying to see on my body what works what doesn't it's an experiment in
progress uh what else do i do so at night i take the usual things i take coq10 i take a statin
you'll probably frown on that but i had very high cholesterol when I was a kid. I started on a statin when I was 29, and my grandmother had a stroke when she was in her 30s.
So I have really bad eschatology genes.
And you're not worried about the mitochondrial effects of statins?
I am, but I'm also worried about really high cholesterol up in the high 200s.
Oh, yeah.
Yeah.
So I had to do something.
I'd like to go off the statin.
That would be probably the best thing I could try.
Well, there's experiments you can do where you can change your diet,
change your lifestyle, do different things, stop it, see where you do, restart it,
check your particle size and number.
I mean, those are all relevant.
Right, right.
I also have another bad gene on particle size,
so I'm not destined to live long enough, so I do something.
Plant sterols, I'm trying that to see if I can use those to replace the statins.
But CoQ10 is good, and I take actually alpha-lipoic acid
for mitochondria.
Yeah, alpha-lipoic acid.
Yeah.
And one of the – actually, the thing that turned me on to that was
I spoke to Denham Harmon's family.
So Denham Harmon, you may know him.
He's the father of the oxidative stress theory of aging.
Yeah.
And so I was fortunate to win an award with his name on it.
And I went out there and his family were very generous to host me.
And he was still alive at the time.
He passed away a few years ago.
But he was still healthy and going into work at 92.
And so I said, what's his secret?
Oh, lipoic acid.
I thought, well, at the very least, it didn't hurt him.
So again, that risk-
I take it every day.
If you understand what it does,
it's basically one of the most powerful antioxidants.
It helps boost glutathione, which is detoxifier.
It's anti-inflammatory.
It helps your mitochondria.
It helps detoxify from metals.
It sort of helps with blood sugar and diabetics.
It helps with diabetic neuropathy.
I mean, it's a really well-studied molecule.
And it's all about the mitochondria. Well, it helps with diabetic neuropathy. I mean, it's a really well-studied molecule.
And it's all about the mitochondria.
Well, yeah, I would say that too.
The other thing that I should point out is,
so I monitor myself fairly regularly.
I'm not crazy about it.
I don't like having my blood drawn often,
but I'm looking at myself with rings.
I've got the watch, I've got the blood draws.
If something goes out of whack and i
change my diet or i do something i'll know about it i measure through inside tracker others can do
that yeah about 34 different things and you know i'm adding things i'm subtracting them like you i
know if something's going wrong so i just had a blood test because i'm going to africa and uh i
sat down with a with the nurse actually yesterday and she took me through my blood test because i'm going to africa and uh i sat down with a with the nurse actually yesterday
and she took me through my blood test yeah and she went perfect perfect better than perfect better
and so she said and you're turning 50 and you've got those blood markers yeah she goes i'm jealous
i said what do you think and she goes just keep doing what you're doing right right so i think
that's the proof that we're not hurting ourselves and we will know it if we were.
Yeah.
Maybe long-term, you don't know.
So what does it look like 10, 20, 50 years from now in terms of aging?
I mean, I'm, you know, turning 60.
I'm like, what's going to happen in the next 20, 30 years in this aging research? And what's coming on the horizon that's going to help me live long and meet my great-grandchildren?
Yeah.
Well, so I've been blown away.
It's all about me after all,
right?
I just want to live longer.
Well,
sure.
I mean,
if we're all honest,
we don't want to get sick and we do want to see what the future looks like.
Most of us.
Well,
so the last 10 years have been remarkable.
Just made my head spin.
We can,
we can challenge and test hypotheses in a week.
Things that used to take a decade.
So the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the, the that the we now have these hallmarks of aging that we've all in the field agreed on cause aging
mitochondrial dysfunction telomeres we've heard them all pretty much senescence all I mentioned
there's been a new change and it's we're undergoing a new paradigm shift and And it's a theory that I put in the book called the information theory of aging.
And the idea is that all of these hallmarks actually are manifested by a loss of cellular information from when we were young.
And essentially what that means is that our genomes, which have the digital information in our bodies are largely
intact it's the reason we can reverse mitochondrial aging pretty quickly in an old mouse it still has
the information to do that in its genome the problem is that we have this other type of
information called the epigenome which is the next layer of information that controls the digital
yeah so it's similar to a dvd DVD player. The information's on the disc,
but the ability to read the songs at the right time degrades over time. And so the epigenome
gets less and less accurate. And it's similar to scratching the DVD and you can't read the
genes at the right time. You can't read the songs. And what I've been questioning or at least curious about for the last 10 years,
and what's funny, let me just tell you something, Mark, as a secret with millions of people,
is that I've been so busy. I haven't written a lot of these ideas down in scientific publications.
I've been working on the book. So it could be that the world will be able to read about all this science before scientists do, which is very unusual.
We are about to submit these.
So what is the idea is that if you scratch the CD, do you end up with premature aging?
And we've done that now in a mouse.
We can actually do that.
We can mess up the epigenome and the mice get rapidly
old and they actually we can measure their age now we've got what's called the epigenetic clock
or the horvath clock named after steve horvath and we can do that i could take your blood uh and
measure your biological age very accurately okay i'm coming in we should both do that i haven't
done it yet for myself but those, we can accelerate their actual age.
They're not just looking old, they're old.
And so that's the Scratch DVD.
The question is, is there a way to polish that and get back the ability to read our genomes correctly like we were young again?
And I think we've figured out a way to do that.
And that's what we're working on.
We have this, I can't say too much because I'll scoop not only the book, but my publications.
But we've got this combination of genes that tells the cell how to be young again and reverse that clock of aging, the epigenetic clock, and polish the CD.
And one of the things that's been remarkable is that if we take an organ or a part of the body that normally would never get young, never would regenerate.
And we chose the hardest thing of all, which is the eye.
We looked at old eyes or damaged optic nerves.
We can actually damage them or glaucoma.
These are things that right now you just can't reverse.
You're lucky if you can slow them down.
If we give our reprogramming treatment, and it is a gene therapy currently,
we put it in the eye and old mice can see
like they were young again
within just a few weeks of treatment.
It's like Jesus.
Well, yeah, it's funny.
It's a blind to see, right?
Well, when we discovered this
and I have to give full credit to my collaborators
at Harvard who actually do this.
I don't know how to do it, but they're experts.
I went home and said to my family,
we've cured blindness in old mice.
Who cares?
Right.
My kids went, uh yeah that's fine
um can you set the table and my wife goes oh no first can you empty the dishwashers come on jesus
got respect what's going on yeah uh but it's it's early days but i think that we've we've cracked a
big one is that we don't don't just slightly reverse aging we might actually truly reprogram
the body this is so exciting so all these ideas are in your book, Lifespan, the revolutionary science of why we age and
why we don't have to.
I encourage everybody to get a copy because it's not just about aging, it turns out.
It's about how to create health, which will help you with all the diseases you have, regardless
of whether you care about aging or not, which is kind of the sort of silver lining in the
whole thing is as we're discovering the magic of how to solve aging,
we're actually solving all the other things as well. Exactly. And it's a glimpse into where
we've been, where we are right now, what you can do and what the future looks like.
So exciting. I'm glad we're living today and I'm not living a thousand years ago.
And David, you're around doing the science and helping us understand how to
live well and live longer and die young as late as possible. So thank you for being on The Doctor's Pharmacy.
If you love this show, please share with your friends and family on social media.
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Hi, everyone.
It's Dr. Mark Hyman.
So two quick things.
Number one, thanks so much for listening to this week's podcast. It really Dr. Mark Hyman. So two quick things. Number one, thanks so much for listening
to this week's podcast. It really means a lot to me. If you love the podcast, I really appreciate
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This could be books, podcasts, research that I found, supplement recommendations, recipes, or even gadgets.
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And if you'd like to get access to this free weekly list, all you have to do is visit drhyman.com forward slash pics.
That's drhyman.com forward slash pics. That's drhyman.com forward slash pics. I'll only email you once a
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Hi, everyone. I hope you enjoyed this week's episode. Just a reminder that this podcast is
for educational purposes only. This podcast is not a substitute for professional care by a doctor or
other qualified medical professional. This podcast is provided on the understanding that it does not
constitute medical or other professional advice or services. If you're looking for help in your
journey, seek out a qualified medical practitioner. If you're looking for a functional medicine practitioner, you can visit
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