Lex Fridman Podcast - #189 – David Sinclair: Extending the Human Lifespan Beyond 100 Years
Episode Date: June 7, 2021David Sinclair is a geneticist at Harvard and author of Lifespan. Please support this podcast by checking out our sponsors: - Onnit: https://lexfridman.com/onnit to get up to 10% off - Clear: https://...clearme.com/lexpod and use code LexPod to get 2 months free - National Instruments (NI): https://www.ni.com/perspectives - SimpliSafe: https://simplisafe.com/lex and use code LEX to get a free security camera - Linode: https://linode.com/lex to get $100 free credit EPISODE LINKS: David's Twitter: https://twitter.com/davidasinclair David's Website: https://lifespanbook.com PODCAST INFO: Podcast website: https://lexfridman.com/podcast Apple Podcasts: https://apple.co/2lwqZIr Spotify: https://spoti.fi/2nEwCF8 RSS: https://lexfridman.com/feed/podcast/ YouTube Full Episodes: https://youtube.com/lexfridman YouTube Clips: https://youtube.com/lexclips SUPPORT & CONNECT: - Check out the sponsors above, it's the best way to support this podcast - Support on Patreon: https://www.patreon.com/lexfridman - Twitter: https://twitter.com/lexfridman - Instagram: https://www.instagram.com/lexfridman - LinkedIn: https://www.linkedin.com/in/lexfridman - Facebook: https://www.facebook.com/lexfridman - Medium: https://medium.com/@lexfridman OUTLINE: Here's the timestamps for the episode. On some podcast players you should be able to click the timestamp to jump to that time. (00:00) - Introduction (09:34) - Staying young at heart (13:31) - Bringing people back to life (19:05) - Wearables and tracking health data (28:18) - How to solve aging (38:23) - Why do we age? (43:50) - Genetic reset switch that reverses aging (46:20) - AI in biology (48:52) - Health data (56:58) - Fasting (1:04:29) - Diet (1:12:41) - Exercise (1:18:01) - Sleep (1:26:29) - Data (1:32:00) - Extending lifespan (1:34:42) - Immortality (1:40:28) - Denial of death (1:43:45) - Meaning of life without death
Transcript
Discussion (0)
The following is a conversation with Davidson Claire.
He's a professor in the Department of Genetics at Harvard
and co-director of the Paul F. Glenn Center for the Biology of Aging at Harvard Medical School.
He's the author of the book, Life Span and co-founder of several biotech companies.
He works on turning age into an engineering problem and solving it, driven by a vision of a world
where billions of people can live
much longer and much healthier lives. Quick mention of our sponsors. On it, clear,
national instruments, and I, simply safe, and, linoid, check them out in the description
to support this podcast. As a side note, let me say that longevity research challenges
us to think how science and engineering will change society.
Imagine if you can live 100,000 years, even under control conditions, like in a spaceship,
say, then suddenly a trip to Alpha Centauri that is 4.37 light years away takes a single
human lifespan.
And on the psychological, maybe even philosophical level, as the horizons of
death drift farther into the distance, how will our search for meaning change? Does
meaning require death? Or does it merely require struggle?
Reprogramming our biology will require us to delve deeper into understanding the human
mind, and the robot mind. Both of these efforts are as exciting of a journey as
I can imagine. Now is the part of the program where we do the ads, try to make the
interesting, but if you're going to be clever and skip the ads because there's timestamps,
please still check out the sponsors in the description. It really is the best way to
support this podcast. This episode is sponsored by Onit, Nutrition Supplement and Fitness Company.
You may have heard they make Alpha Brain, which is a new tropic that helps support memory,
mental speed, and focus. I started using it recently in the following way. After I get a bit of work
done in a deep work session, when I'm maintaining really deep focus on a problem,
sort of that clear thinking, clear mind focused, either it's programming, you're just thinking
through a problem. If I get to a certain milestone, I reward myself on an alpha brain to get like a
second wind. So I say I'm going to take it and then I'm going to go for another two hours.
I like little ritual things like that, like a Pavlovian type of mechanism. I'm always with all supplements very careful
to make sure I don't become dependent on anything, but I do use the right tools in moderation
and alpha brain is a good example of that. Anyway, go to LexFreedman.com slash on it to
get up to 10% off alpha brain. That's LexFreedman.com slash on it. This episode is sponsored by Clear, a secure identity platform that lets you use just your
face or eyes to go quickly through security at over 50 airports, stadiums, concert halls,
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I personally love the frictionless experience this creates. I've used it in Austin and Boston that you play something often.
It brings a bit of a technological joy to me through the airport experience.
And the airport experience can sometimes be aggrined, so it's nice to have a source of joy.
Everybody has a different style in terms of how they like to go to the airport,
but I usually go last minute.
I don't think I've ever been late for a flight, but I just kind of relax. I maintain the calm
and patience, but move through the airport with a kind of calm urgency. And I really enjoy
when there's aspects that are frictionless. We just kind of go through very quickly effortlessly.
Clear is one such example of that.
I wish the entirety of the airport experience was that.
Just like getting coffee, getting on the flight,
getting parking, the whole thing.
I wish it was that frictionless and effortless.
Anyway, have to celebrate the companies that do a good job
of this.
Get your first two months of clear, free.
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This show is sponsored by National Instruments,
now called JustNI.
NI is a company that has been helping engineers solve the world's toughest challenges for
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Their motto is Engineer Ambiciously.
As far as models goes, it doesn't get better than that.
I'm a long time fan of theirs.
Check out their next 100 series where they publish an engineering related article or video
each week for 100 weeks.
The website is ni.com slash perspectives.
This week, Devon, interview I enjoyed on autonomous vehicles
and advanced driver system systems, ADAS.
If you know me for my work on autonomous vehicles,
you know that I'm a big believer in ADAS.
I think driver sensing not only can accelerate the journey towards autonomous
vehicles, but enrich the experience of any point along that journey that you're on, whether
that's level two, level three, level four, level five, or you're in a spaceship heading
out to Mars or outside the solar system.
I just think that like how 9000
style system is able to perceive everything about the occupants and interact with them in an
enriching way both for the machine that's trying to control the trajectory of the vehicle
and for the human that's trying to collaborate with the machine in defining that trajectory.
So I love ADAS so you'll probably get to hear me talk about that more in the future.
But NI has a good article on that on their website.
You should definitely check out it's NI.com slash perspectives.
There's a lot of interesting content on there to read, listen, and watch.
NI.com slash perspectives.
This show is also sponsored by SimplySafe, a home security
company. Protect your home with a simple 30-minute setup. You can customize the system for your needs
on SimplySafe.com slash flex. I have a setup in my place and I love it. For people curious about
the sponsors usually send you these copies that give you suggestions. Like if you're not able to come up with random crap yourself, they give you suggestions
of what to say.
Here they kind of try to equate the protective elements of simply save for the feeling
of being tucked into bed of the comfort you feel.
I think I'm going to save that analogy more for the eighth sleep read.
I don't get to have that experience of being tucked into bed often.
I think the one
time that does happen these days, if I get like really trashed on vodka with some friends
pass out on the couch, there's always going to be like the carrying friend is going to come over
with a blanket, it kind of tuck you in. So maybe simply save this exactly like that, pass out on
the couch getting tucked in.
Anyway, go to simplysafe.com slashlex to customize your system and get a free security camera
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This episode is also sponsored by Linode, Linux Virtual Machines.
It's an awesome compute infrastructure that lets you develop, deploy and scale
what applications
you build faster and easier.
This is both for small personal projects and huge systems.
Lower cost in AWS, but more important to me, is the simplicity quality of customer service
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Let me just briefly say, how much I love Linux, just the simplicity of it, especially
if you're a Windows user, there's a kind of bulkiness to Windows. You know, sometimes
these heavy closed systems, when they break, you really don't know why, and you have nobody
to talk to about it. On the flip side, in Linux, first of all, there's a community, so there's usually
going to be a lot more descriptions when stuff goes wrong.
So you'll be able to debug things,
because most things are open source in Linux.
The errors you get are much clearer.
There's constantly people contributing code
to so they're fixing the errors, both at the lower level,
the drivers and the higher level,
the particular pieces of software.
There's really nice package managers that make installation of random software really easy for you.
I mean, the whole thing is just beautiful. Plus, there's a whole ecosystem of a variety of different
flavors of operating systems. Like, I've been an Ubuntu person for a long time, all that is just a brief homage to the beautiful operating system that is Linux.
Linux motto is if it runs on Linux, it runs on Linux.
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Leno that.com slash Lex.
This is the Lex Friedman podcast,
and here is my conversation with David Sinclair.
I usually feel like the same person when I was 12. Like when I right now, as I think about myself, I feel like exactly the same person that I was when
I was 12 and yet I am getting older, both body and mind, and still feel like time isn't
past at all. Do you feel the tension in yourself that you're the same person and yet you're
aging?
Yeah, I have this tension that I'm still a kid, but that helps in my career
scientists need to have a wonder about the world. And you don't want to grow up at 12
year olds and even younger, I would say, six, seven year olds. I've still got that boy
in me. And I can look at things. It's a gift, I think, that I can see things for the first
time if I choose to and then explain them as I would to a six year old, because I am
that mentally.
But on the other hand, I'm getting older.
I run a lab of 20 people at Harvard.
I've got a book, I've got science to do,
companies to run.
And so I have to, on most days,
just pretend to be a grown-up and be mature,
but I definitely don't feel that way.
There's something I really appreciated in opening your book.
You talked about your grandmother.
And on this kind of theme, on this kind of topic, she first of all had a big influence
on you.
My grandmother had a big influence on me.
You also mentioned this poem by the author of Winnie the Pooh, Alan Alexander Milney. Maybe I can read it real quick, because I love...
On the topic of being children, when I was one, I had just begun.
When I was two, I was nearly new.
When I was three, I was hardly me.
When I was four, I was not much more.
When I was five, I was just alive.
But now I am six.
I am as clever as clever, so I think I'll be six now forever and ever.
So this idea of being six and staying six forever, being youthful, being curious, being childlike,
this and other things. What influence has your grandmother had in your thinking about life, about death, about
love?
Yeah, I was getting misty-eyed as you read that because that poem was read to me very often,
if not every day by my grandmother who partially raised me.
And she was as much a Bohemian as an artist, philosopher. And she's one of
those people that wouldn't talk about the little things she said, I hate small talk. Don't talk to me
about politics or the weather. Yeah, it took me about human beings and culture. So I was raised on
that. And this poem was one that she read to me often because she knew that the mind of a child
that she read to me often because she knew that the mind of a child is precious, it's honest, it's pure.
And she grew up during the Second World War and in Hungary and Budapest witnessed the
worst of humanity.
She was trying to save a whole group of Jewish friends in her apartment, saw what happened
after the World War, which was, there was,
the Russians were in control and locals weren't necessarily treated well if they were rebellious,
which she was.
And then there was the revolution in 56, which she was part of and had to escape the country.
So she saw what can happen when humans do their worst.
And her words to me, expressed in part through that poem was David
always stay young and innocent and have wonder about the world and then do your best to make humanity
the best it can be. And that's who I am, that's what I live for, that's what I get up in the
morning to do is to leave the world a better place and show to whoever's watching us whether it's
aliens or some future human historian that we can do better than we did in the 20th century.
You know, we mentioned offline this idea of bringing people back to life through artificial
intelligence, sort of, I don't know if you've seen videos of basically animating people back to life,
15 videos of basically animating people back to life, meaning whether it's for me personally, I've been working on specifically about Albert Einstein, but also Alan Turing, Isaac Newton,
and Richard Feynman.
And it's an opportunity to bring people that meant a lot to others in the world and animate
them and be able to have a conversation with
them. At first, to try to visually explore the full richness of character that they had
as they struggle with the ideas of the modern age. It's less about bringing back their
mind and more bringing back the visual quirks
that made them who they are. And then maybe in the future it's using the textual, the visual,
the video, the audio data to actually compress down the person who they are and be able to
generate text. There's a few companies, there's replica, which is a chat engine, those born out of the idea of bringing the founder lost
her friend to he got run over by a car. And the initial reason she founded the company
was trying to just have a conversation with her friend. She trained a machine learning
natural language system on the text that they exchanged with each other and try she had a conversation with him sort of after he was gone. And it's very the conversation was very trivial.
It was obvious that it's you know AI agent, but it gave her solace. It made her actually feel really good.
And that's the way I wonder if it's possible to bring back people that are, that means
something to us personally, not just Einstein, but people that we've lost.
And in that way, achieve a kind of small artificial immortality.
I don't know if you think about this kind of stuff.
Well, I definitely think about a lot of things. That one's a really good one.
There's a great black mirror episode about the wife who brings back the
the boyfriend or husband. I think one of the challenges with bringing back Richard
Feynman would be to capture his sense of humor, but that would be awesome. But yeah, bringing back
loved ones would be great, especially if it's your, they're young and they die early.
Though it may hold you back from moving on, that's another thing that could happen as
a negative.
But I think that's great, and I also think that it's going to be possible, especially
when we're recording some of us every aspect of our lives, whether it's our face or things
we see, eventually one day, everything we see can be recorded.
And then you can build somebody's experience and thoughts, speech,
and you will have replicas of everybody, at least digitally, and physically you
could do that too one day. But that's a good idea, especially because there are
people that I'd like to meet, and I think it's easier than building a time machine.
One person I'd love to meet. And I think it's easier than building a time machine.
One person I'd love to meet is Benjamin Franklin.
Really?
Well, I wouldn't go back in time, I would, but I'd prefer to bring him into the future
and say, can you believe we have this thinking machine in our pockets now?
And he just see the look on his face as to where humanity has come, because I think of
him as a modern guy that just was before his time.
Yeah.
So you're thinking Benjamin Franklin as scientist, not Benjamin Franklin, the political
thing, because he'd be very upset with Congress right now.
Right.
So maybe you talk to him about science and technology, not politics, or maybe you just
don't get on my Twitter because he'll be very upset with human civilization.
You know, I wonder what their personalities are like.
Isaac Newton, it does seem complicated
to figure out what their personalities like.
Even Friedrich Nietzsche, who I also thought about,
Feynman is, we just have enough video
where we get the full kind of,
it shows you how important it is to get
not the official kind of book level
presentation of a human, but the authentic, the full spectrum of humanity.
You mentioned collecting data about a person, collecting the whole thing,
the whole of life, the ups and downs, the embarrassing stuff,
the beautiful stuff, not just the things that's condensed into a book.
And then with Fime and you start to see that a little bit through conversations, you start to
see peaks of like that genius. And then through stories about him from others.
And then certainly you, the sad thing about Alan Turing, for example, is there's
very little if any recording of him. In fact, I haven't been able to find
recording allegedly, they're supposed to be a recording of him. In fact, I haven't been able to find recording. Allegedly, they're
supposed to be recording of him doing some kind of radio broadcast, but I haven't been
able to find anything. And so that's truly sad. It feels like it makes you realize how
the upside, how nice it is to collect data about a person, to capture that person.
There's, that's the upside of the modern internet age, the digital age, that
that information, yeah, creates a kind of immortality. And then you can choose to
highlight the best parts of the person, maybe throw away the ugly parts and
celebrate them even after they're gone. So that's a really interesting opportunity.
You've also mentioned to me offline that's a really interesting opportunity.
You've also mentioned to me offline
that you're really excited about all the different wearables
and all the different ways we can collect information
about our bodies, about the whole thing.
What's most exciting to you in terms of collecting
the biological data about a human being.
Well some are biologists.
I find animals and humans as machines very interesting.
It's one of the reasons I didn't become an engineer or a surgeon.
I wanted to understand how we actually are built.
I think a lot about machines merging with humans.
And the first of that are the bio-awareables.
And so I talked a lot about this.
I wrote about it in lifespan, the book, and pictured a future
where you would be monitored constantly so that you wouldn't
suddenly have a heart attack.
You'd know that was coming or you wouldn't go to the doctor.
And they don't know if you need an antibiotic
or not.
Long term, how old are you?
How to fix things?
What should you eat?
What should you take?
What should your doctor do?
These devices, I predicted, would be smarter, better educated than your physician and would
augment them.
And then there'd be a human that would just tick off to see if that it's correct and they approve. I also was predicting in the book
that we would have video conferences with our doctors
and that medicines would be delivered initially by curia
but eventually by drones and get it to you,
sometimes in an emergency.
And that we could even have pills
that were synthesized or delivered in your kitchen
and combined certainly.
What's amazing about that is that what are we now,
two years since the book came out, even less,
and that future is basically here already.
COVID-19 accelerated that incredibly.
So where we're at now in society,
is if you want to pay for it,
you can have a blood test that will detect cancer
10, 20 years earlier than it would before it forms a tumor.
You can, of course, do your genome very cheaply for less than $100 now.
There are bio-awareables already I wear this ring from Aura that I have a number of years
of data.
I've been doing blood tests for the last 12 years with a company called Inside Tracker,
which I consult for.
And so I have all of that data as well.
And there's 34 different parameters on my testosterone,
my blood glucose, my inflammation.
And I use all that data to, of course, I wear a watch that measures things as well.
I use that data to keep my body in optimal shape.
So I'm now 51.
And according to those parameters, I'm at least as good as someone in their early 40s.
And if I really work at it, I can get my biochemistry down to early to mid 30s, though I like to,
you know, now eat a little dessert once in a while.
So that's the future we're in right now.
Anyone can do what I just said.
But in the very near future, just in the next few years, are you can be wearing
wearables? So I'm currently wearing a little, what's called a bio sticker. This one, I just
put on last night, it's about an inch long, a few millimeters.
Yeah, for people just listening, it's a San Davis chest. It's just a, how does it attach
is just kind of, it sticks on.
Yeah, so on one side you have an on button that you press.
The lights come on, flashes for time.
It's good to go, it immediately sings to your phone.
And this one, it's called a bio button.
Nice name.
And there's another one that I haven't tried yet
that does EKG on your heart.
This is mainly for doctors to monitor patients
that go home after a heart attack or surgery, but that's medical grade FDA approved device. So there will be a day, in fact,
it's already here that doctors are using these to get patients to go home and save a week in
hospital, $2,000 at least for each patient. That's massive savings for the hospital. But ultimately what I'm
excited about is a future that isn't that far off where everybody, certainly in
developed countries, eventually these will cost a few cents and rechargeable.
The only cost will be the software subscription that can be monitored
constantly. And to give you an idea what this is measuring me at a thousand
times a second is my vibrations as I speak,
my orientation, it already has told me this morning how I slept, where I slept, what
side I slept on, we've got sneezing, coughing, body temperature, heart rate, heart of other
parameters of the heart that would indicate heart health. These data are being used to now to predict sickness.
So eventually we'll have just in the next year or so the ability to predict whether something
or diagnose whether something is pneumonia or just a rhinovirus that can be treated
or not.
This is really going to not just revolutionize medicine,
but I think extend lives dramatically.
Because if I'm gonna have a heart attack next week
and that's possible, this device should know that
and I'll be in hospital before I even have it.
Maybe you can talk a little bit about inside tracker
because I saw there's some really cool things in there.
Like it actually, so maybe you can talk about, I guess, your colathy and blood, and you need
to give it the data.
It has basic recommendations on how to improve your life.
We're not just talking about diseases, anticipating having a particular disease, but it's almost
like guiding your trajectory to life, how to, whether it's extend your life or just live a more
fulfilling, like improve the quality of life, I suppose this is the right way to say it.
What, how does inside track or work, what the heck is it, because I thought there was also
pretty cool.
Yeah.
What is it?
I guess it's something other people can use.
You can definitely use it.
You can sign up.
It's consumer.
It's like a company, consumer-facing company.
It is, yeah.
And I also want to democratize the ability
to just take a mouth swab eventually.
We don't need to have a blood test necessarily.
But for now, it's a blood test.
And you'd go to a lab core request in the US.
It's also available overseas.
You can upload your own data for a minimal cost
and get the algorithms, the AI, in the background,
to take that data plot where you are against others in your age group, in terms of health and
longevity at bio-age, they call it inner age, but also it provides recommendations. And this
isn't just a bunch of BS. It sounds like it might be to say, I'll go eat this, or go to that restaurant, or that. But it's actually based on, they've basically, this company has entered hundreds, now it
would be thousands of scientific papers into their database, and hundreds of thousands
of human data points.
And they have tens of thousands of individuals that have been tracked over time.
And anonymously, that data is used to say, what works and what doesn't.
If you eat that, what works? if you take that supplement, what works. And I was a co-author on a paper
that showed that the recommendations for food and supplements was better than the leading
drug for type 2 diabetes.
That's so cool. The idea that you can connect, like skipping the human having to do this work, you can connect
the scientific papers, almost like meta analysis of the science connected to the individual
data, and then based on that sort of connect your data to whatever the proper group is
within whatever the scientific paper is to make the suggestion of how that work applies to your life and that ultimately maps
to a recommendation what you should do with your life.
It all, this giant system that ultimately recommends you should drink more coffee or less.
Right, and we'll have the genome in there as well.
You can upload that.
These programs will know us way better than we do
and our doctors as well.
The idea of going to a doctor once a year for an analgenic
and you'll check up and having, you know,
males get a finger up there, and you know, you cough.
That, to me, is a joke.
That's medieval medicine.
And that's very soon going to be seen as medieval.
Yeah, it's, to me, as a computer science person,
it's always upsetting to go to the doctor
and just look at him and realize,
you know, nothing about me.
Like, you're making your opinions based on,
like, it is very valuable,
years of intuition building about basic symptoms,
but you're just like, it is medieval.
They're very good at it.
In fact, doctors in medieval times
are probably damn good at working with very little.
But the thing is, I'd rather prefer a doctor
that doesn't really know what they're doing,
but has a huge amount of data to work with.
Well, you're right.
And many of my good friends are doctors. I work at Harvard. So I'm not against
the profession at all. But I think that they need just as much help as anyone else does.
We wouldn't drive a car without a dashboard. We wouldn't think of it. So why would doctors
do the same?
If we could, could we step back to the big profound philosophical, both tragic and beautiful question about age.
How and why do we age?
Is it from an engineering perspective?
You said you like the biological machine.
Is that a feature or a bug of the biological machine?
It is both a bug and a feature.
Evolutionary speaking, we only live as long as we need to to replace ourselves
efficiently. If you're a mouse, you're only going to live two and a half years, three years.
You're probably going to die of starvation, predation, freezing in the winter. So they divert
most of their resources to reproducing rapidly, but they don't put a lot of energy into preserving
their soma, which is their body. Conversely, a
baline type of whale, a bowhead whale in particular, will live hundreds of years because they're
at the top of the food chain and they can live as long as they want. So they breed slowly
and build a body that lasts. We're somewhere in between because we've, you know, we've
really only just come out of the savannas where we could be picked off by a cat. We were
pretty wimpy, going back six million years ago.
So we actually need to evolve quicker than evolution will.
And that's why we can use our oversized brains
and intuition to give us what evolution
not only didn't give us, but took away from us.
Now we're pathetic.
Look at our bodies.
These arms, if any of us, even the strongest person in the world
went in a cage with a chimpanzee, the chimped could knock that person's head off, no question. So we're
pathetic. So we need to engineer ourselves to be healthier and longer lived. So getting
to aging, we can do better, right? Wales do way better. We're trying to learn how
whales do that. And if you ask really anybody in the field now, Professor, they'll say there are eight
or nine hallmarks of aging, which are really, it's a word for causes of aging.
So you probably have heard of some of these, your listeners will have lots of telomeres,
the ends of the chromosomes, like their little ends of shoelaces, that kind of thing.
They get too short, cells stop dividing, become senescent, they become, they put out what are called mitogens that cause cancer
and inflammatory molecules. That's another aspect of aging, cellular senescence.
Another one is loss of the anodgetics, so mitochondria, the battery packs, wind
down. There's a whole bunch, stem cells, proteastasis. Well, these are our
achilles heels that I'm talking about.
They're a common amongst all life forms, really.
But if you want to meet a jump to the chase
as to where what is the upstream defining factor?
If we boil it down, what do we get?
So most biologists would say, you can't boil it down.
It's too complex.
I would say you can boil it down to an equation,
which is the preservation of information
and lost to entropy, i.e. noise.
And that is the basis of my research.
It originally came out of discoveries in yeast cells,
where I went to MIT in the 1990s.
You studied bread.
I kind of did.
I studied the makers of bread,
a little yeast called Saccharomyces cerevisia, which at the
time was one of the hottest, excuse the pun, organisms to work on.
But we figured out in the lab why yeast cells get old and found genes that control that
process and made them live longer, which was an amazing four years of my life. One of those genes had a name with an acronym SIR2.
Now, the two is irrelevant.
The SIR is important, and the most important letter out of all of those three is I, which
stands for information.
Silent information regulator number two.
When you put more copies of that gene in, just put in one more copy, the yeast cells
lived 30% longer and suppressed the cause of aging, which was just put in one more copy, the yeast cells live 30% longer
and suppressed the cause of aging,
which was the dysregulation of information in the cell.
And then, so fast forward to now,
I've been looking in humans and mice
because they live shorter and cheaper to study,
where the loss of information in our bodies
is a root cause of aging.
And I think it is.
Your boldness in viewing biology in this way is fascinating,
because that also leads to a kind of,
it's almost like allows for a theory of aging,
like could boil it down to a single equation.
And at least to perhaps a metric that allows
you to optimize aging.
So in the fight against entropy, it's to figure out which mechanisms, like you said, the
the silent information regulator, which mechanisms allow you to preserve information without
injecting noise, without creating entropy, without creating degradation of that information.
For some reason, converting biology,
which I thought was mostly impossible
into an engineering problem,
feels like it makes it amenable to optimization
to solving problems to creating technology
that can, whether that's genetic engineering or AI,
it makes it possible to create the technology that would improve the degradation of information
and aging. Is there more concrete ways you think about the kind of information we want to preserve?
And also, is there good ideas about regulators of that information, about ways to prevent
the distortion and degradation of that information. Right, so we have some information regulator
genes in our bodies. We have seven of them, CERTI-1 through seven they're called and we found in
my one way to slow down the loss of information is to just give more of these to upregulate these genes. So we made a mouse that has more of this 31 gene
turned it on and that slowed down the aging of the brain and preserved their information. Now
what information am I talking about, you might ask? Well, again, you can simplify biology. There
are two types of information in the cell primarily.
The one we all read about and know about is the DNA, the genome.
And that's base for information, ATCG, the four chemicals that make up the various sequences
of the genome, billions of letters.
And that also degrades over time.
But what's been fascinating is that we find that that information is pretty much intact in old
animals and people. You can clone a dog, one of my friends in LA just cloned his dog three times.
So this is doable, right? It means that the genome can be intact, but what's the other type of
information? It's the epigenome, the regulators of the genetic information, and physically that's
really just how the DNA is wrapped up,
or looped out for the cell to access it and read it.
So it's similar to an excuse this analogy,
but it's a good one.
A compact disc or DVD.
Those pits in the foil are the digital information.
That's the genome.
And the epigenome is the reader of that information.
And in a different cell, you read different music, different songs, different symphonies.
And that's what gets laid down when we're in the womb.
And that gives, makes a skin cell forever, a skin cell, and not a brain cell tomorrow.
Thank God otherwise our brains wouldn't work very well.
But over time what we see is that the brain cells start to look more like skin cells.
And the kidney cells start to look more like liver cells. and that kidney cells start to look more like liver cells.
And they, what we call x-differentiate, this is a term that we use in my lab, but isn't
yet widely used.
But we needed a term to explain this.
And now, those, that process of x-differentiation, the loss of the reader of the CD or the DVD,
we liken that to scratches on the DVD, so that the reader cannot fully access the information.
Now we can slow down the scratches, as I mentioned, we can turn on these genes, we can even
put in molecules into the cell or even eat them and turn on those pathways, which my
father and I have been trying to do for about a decade to slow things down. But the question that I've had is, is there a repository of information still in the body?
Because anyone who knows anything about the loss of information or even has tried to copy
a cassette tape or photocopy or Xerox anything knows that over time you lose that information
irreparably.
So I've been looking for a backup copy inspired largely by Claude Shannon's
work at MIT as well in the 1940s. His mathematical theory of communication is just brilliant. And so I've
been looking for what he called the observer, which is the backup copy. We today might call that the
TCP IP protocol of the internet that stores information in case it doesn't make it to your computer, it will fill in the gaps.
And we've been spending about the last five years to try and find if there really is a backup
copy in the body to reset the epigenum and polish those scratches away.
That does incredible.
Finding the backup, so whenever there are too many scratches, pile up, you can just write
a new version.
Like write the not a new version, but go to the backup and restore it.
Right. That's really all we're talking about. It's not that hard.
Once you know the trick. And for people that actually remember,
like DVDs and scratches on them, how frustrating it is, that that's a brilliant
metaphor for aging.
frustrating it is. That's a brilliant metaphor for aging. And then the reader is the thing that skips and then it could destroy your experience, the richness of the experience that is listening to
your favorite song. Right, but in biology, it's even worse because you'll lose your memory, your
kidneys will fail, you'll get diabetes, your heart will fail, and we call that aging
and age-related diseases. So it's it most people forget that diseases that we get when you get old
are 80 to 90% caused by aging. And we've been trying to fix things with band aids after they occur
without even generally talking about the root cause of the problem. Is there the scratches?
cause of a problem? Is there the scratches? Do those come from? Are those programmed or they failures? Meaning is it? So if it's by design, then there's like an encoded timeline
schedule that the body is just on purpose degrading the whole thing. And then there's the just the
wear and tear of like the scratches and a disc that happened through time, which one is it?
That's the source of aging. It's more akin to wear and tear. There isn't a program. I'm getting
back to evolution. There's no selection for aging. We're not designed to age. We just live as long
as we need to. And then we're at the whim of entropy, basically. Second law of thermodynamics stuff falls apart. We live a bit longer than age 40,
only because there are robust resilient systems, but eventually they fail as well. Current limit
to human lifespan, where they completely fail as 122. But I don't like to think of it as wear and
tear, because there's two aspects to it.
There's a system that's built to keep us alive when we're young,
but actually comes back to bite us as we get older.
And we call this this issue antagonistic pleotropy.
What's good for you when you're young can cause problems when you're older.
So we've been looking what is the cause of the main causes
of the noise and we've come, we found two of them definitively. The first one is broken
chromosomes. When a chromosome breaks, the cell has to panic because that's either going
to cause a cancer or kill the cell. There's only two outcomes. It's pretty much a problem.
And so what the cell does is it reorganizes the epigenum in a massive way.
What that leads to is, think of it as a tennis match or a ping pong game. The proteins
of the balls, and they now leave where they should be, which is regulating the genes
that make the cell type, whatever it is. And they have a dual function, they actually
go to the brake, the chromosomal break and fix that.
And then they come back.
You might ask, well, why is it set up that way?
Well, it's a beautiful system. It coordinates gene expression, the control systems with the repair.
You want them coordinated.
Problem is, as we get older, this ping pong game, some of the balls get lost.
They don't come back to where they originally started.
And that's what we think is the main noise
for aging. And we've also the other cause of aging that we found is is cell stress. We
damaged nerves and they age rapidly. So that's the other issue. There's probably others.
Smoking chemicals, for example, we know accelerates biological age pretty dramatically. But
the question is, can you slow that down or can you reset them to
get those pink long balls to go back to where they originally started in the game? And
we think we found a way to do that. What can you mean, hence, whose fault is it in the
balls not coming back is that the protein themselves, like are they are they starting again,
I've been a possessive the protein folding problem from the eye perspective. So is it the
proteins or is it something else?
Well, we know who hits the balls and recruits them.
So that the break is recognized by proteins who send out a signal through phosphorylation
as typical way cells talk to other proteins.
And that recruits those repair factors, those ping pong balls to the brain.
So the cells actively doing this to try and help itself, but we don't know who's to blame
for them not coming back.
That could just be a flaw in the quote unquote design.
I don't think that there's something saying, well, 1% of you balls, proteins never go
back.
I just think it's hard to reset
a system that's constantly changing. We have, in our bodies, close to a trillion DNA
breaks every day. And imagine that over 80 years, what damage that does to our epigenomic
information. Now, we know that this is, well, we never know anything in biology, but we
have strong evidence that this is true because we can mess with animals, we can create DNA breaks and tickle them with a few
breaks, maybe raise it by threefold over background levels of normal breakage.
And if we're right, those mice should get old and they do.
We've created these breaks in a way that's titratable. We can, it's like a real stat.
We can send it to 11.
I drove my Tesla here, a big fan of spinal tap too, go to 11.
If we go to 11, we can make a mouse old in a matter of months.
We prefer to go to a level of about four and it gets old in 10 months.
But it's definitely old.
It's got all of the hallmarks of aging.
It's got diseases. It looks old. It's skin is old. It's got all of the hallmarks of aging. It's got diseases.
It looks old.
It's skin is old.
It's got gray hair.
But importantly, we can now measure age by looking at the scratches.
We can look at the epigenum.
We can measure it and use machine learning to give us a number.
And those mice are 50% older than normal.
So you can replicate the aging process in a controlled way.
You can know, I mean, in a way. You could accelerate it in a controlled way
and measure how much exactly it's aging. And that gives you step one of a two step process
to when you can then figure out, well, how can we reverse this?
And now we're reversing those mice. Is there a good, I love what you said. I mean in biology you really don't know
It's it's it's such a beautiful mess
Is is there is there ideas how to do that is that I'm a genetic engineering level?
Is it like what can you mess with is it going to the
Trying to discover the backup copies and restoring from them like Like, what's, if it's possible to convert into natural language words, what are the ideas here?
What is the observer?
And how do we contact it?
Exactly.
What's the observer and how do you contact,
or if there's other ideas, how to reverse the,
the, the, the ball is getting lost process.
Yeah, well, you, you can slow it down.
Slow it.
But we found a reset switch recently. We just published this
in the December 2020 issue of nature. And what we found is that there are three embryonic
genes that we could put into the adult animal to reset the age of the tissues. And it only takes
four to eight weeks to work well. And we can take a blind mouse that's lost its vision due to aging. Neurons aren't working well
towards the brain. Reset those neurons back to a younger age. And now the mice can see again.
These three genes are famous actually because they're a set of four genes discovered by Shania
Yamannaka, who won the Nobel Prize in 2016 for discovering that those
four genes went on at high levels in adult cells can generate stem cells.
And this is, I think, well known now that we can create stem cells from adult tissue.
But what wasn't known is, can you partially take age back without becoming a tumor or generating
a stem cell in the eye, which would be a disaster?
And the answer is yes, there is a system in the body that can take the age of a cell
back to a certain point, but no further, safely, and reset the age.
And we're now using that to reset the age of the brain of those mice that we age prematurely
and they're getting their ability to learn back.
This is really exciting, right?
Like what's what's the downside of this?
Well, the downside is if you overdo it
and you don't get it right, you might cause tumors.
But we do it very carefully
and we also know that in the eye, it's very safe.
We also injected these, we deliver them by viruses
so we can control where and when they get turned on.
And in this paper we've published that if we put high levels in the mouse into their veins
throughout the body, they don't get cancer for over a year. So I'm so optimistic that we're going
into human studies in less than two years from now. Is there a place where AI can help?
Is there a place where AI can help, sorry, to inject one of the things I'm very excited about and passionate about?
So Google DeMind recently had a big breakthrough with Alpha Fold two, but also Alpha Fold two
years ago, with achieving sort of state of-art performance on the protein folding problem, single protein
folding, but it also paints a hopeful picture of what's possible to do in terms of simulating
the folding of proteins, but also simulating biological systems through AI.
Is there something to you combined with this brilliant work on the biology side that
you're hopeful about where AI can be a tool to help? Where isn't that a tool?
I mean, if you're not using AI right now in biology, you're getting left behind. We use it all
the time. We're using it to generate these biological clocks to be able to read those scratches.
We're using it to predict the folding of proteins so we can target molecules
and modulate their activity. We're using it to assemble genomes of different species.
What else? We'll use it to predict the longevity of a mouse based on how it reacts to certain
things, hearing eyesight, generally frailty. So we have, we just put out a paper last year
on that. The other thing
we can use it for, which is a little off the track here, but we use it for predicting
which microorganisms are in your body, actually not predicting telling you. So our daughter,
Natalie, was infected with Lyme disease a few years ago, almost went blind from it and
the test took four days and I thought, just give me the DNA.
From a spinal fluid, I'll go tell you what's in it.
If it's Lyme disease or not, they refused.
And so at that point, I said, this has to be done better.
So I started a company that now can take a sample
of any part of your body.
It's typically done now with liver transplant patients
to detect viruses that come out of their organs.
But that's another area that AI is extremely important for.
I think if you're not, in five years, if you're not using deep learning, you've got a problem
because the amount of data that we generate now is biologists is just terabytes.
It can be terabytes per week, it'll eventually be terabytes per day.
And then we just go from there.
And I actually have trouble recruiting enough bioinformaticians.
A lot of our work is now just number crunching.
Part of that is collecting the data, which is kind of something
we've talked a little bit about.
But is there something you can say about how we can collect
can collect more and more data, not just on the one person level, like
for you to understand, you're like various markers, but to create huge data sets, to
understand how we can detect certain pathogens, detect certain properties, characteristics
of whether it's aging or all the other ways that you can embody can fail.
It seems like with biology, there's a kind of privacy concerns that, well, actually not privacy concerns, almost like regulation that kind of prevents like hospitals and sharing data. You know, I'm not sure exactly how to say it, but it seems like when you look at
a Thomas vehicles, people are much more willing to share data. When you look at human biology
system, people are much less willing to share data. Is there a hopeful path forward where
we can share more and more data at a large scale that ultimately ends up helping us understand
the human body and then treat problems with the human body.
So we're right in the middle. We're living through what's going to be seen as one of the biggest
revolutions in human health through the gathering of data about our bodies. And 20 years ago, people
didn't want to go on social media that worried about it now. You have to, if you're a kid, that's for sure.
worried about it now, you have to, if you're a kid, that's for sure. Same with medical records, these are becoming all digitized and expanded.
Ultimately, we're going to, even if we don't want to, have to be monitored.
There's going to be a court case that I bet two, three years from now, someone's going
to say, how come my father died from a heart attack?
You had these biosensors, 20 20 bucks and you didn't use it.
Low suit right there and suddenly all hospitals have to give you one of these.
There'll be a reversal like to where it's your fault if you don't collect the data.
That's brilliant.
That's in that's absolutely right.
I mean, that's absolutely right.
That's the frustration I feel on going to the doctor is like,
That's the frustration I feel and go to the doctor is like,
it's almost negligent to not collect the data.
Because you're making,
if there's something really wrong with me
and you're making decisions based on very few tests,
that's almost negligent.
When you have the opportunity to collect
a huge amount more data.
Well, let me tell you something.
Like I've got this inside tracker data for, for myself over a decade. And you'd
think my doctor would roll his eyes at this. Oh, he's gone to a consumer company, blah,
blah, blah. I had my first checkup in a year with him through video conference. And he
was running blind. He really didn't know what was going on with me.
He asked the usual things, how am I sleeping, how am I eating, these kind of usual things.
And as well, I've got a new test back from inside tracker.
And he said, great, I'd love to see them.
So I'd share screen and we look at the graphs, look at the data.
And he's loving it.
Because he cannot order these tests willingly. So I said, well, let's order
a HBA-1C blood glucose levels because I'm very interested in that. That tracks with longevity.
And he said, well, I have no reason to order that. Do you have a family history? No. Do
you have any symptoms of diabetes? No. Well, I can't order the test. I almost wanted to
reach through the computer and strangle him. But instead, you know, I pay a little bit to get these tests done and then he looks at them. So that's
now the way consumer health is going is that you can get better data than your doctor
can. But they like you to do that.
Quick human question. Maybe you can educate me. I think doctors sometimes have a little
bit of an ego. I understand that the doctor has super experienced a lot of things,
but this is a fundamental question of human variability.
Like, I know a lot of specific details about like,
I mean, it depends, of course, what we're talking about,
but there's a, I bring a lot of knowledge,
and if I have data with me,
then I have like several orders of magnitude, more knowledge.
And I think there's an aspect to it
where the doctor has to put their expert hat,
like take it off and actually be a curious,
open mind to person and study and look at that data.
Do you think it's possible to sort of change the culture
of the medical system to where the doctors are almost,
as you said, are excited to see the data.
Or is that already happening?
It's really happening.
Now, we've probably lost the last generation
that there are no hopeers, but so I teach it
how to medical school, and they're excited about this.
They're excited about aging, which is a new aspect
to medicine.
Oh, wow, we can do something about that.
And then, yeah, all this data, what do we do with it?
There's still the traditional pathology and all that stuff, which they need to know.
But time will change their mindset. I'm not worried about that. And like we were discussing,
this isn't a question of if it's just a matter of when. And it's, you know, I have a front receipt
on all of this. I had breakfast with a CEO who is making this happen.
Just yesterday, I can tell you for sure that most people have no idea
that this revolution is occurring and is happening so quickly.
If you're running a hospital and you can save $2,000 per cardiac
patient, what are you going to do?
You have to use it.
Otherwise, you know, the hospital down the road is going to be beating you. And there are large hospital aggregations,
so there's ascension and others that just have to go this way for budgetary reasons. And
right now, the US spends 17% of their GDP on health care. Let's say one of these buttons on
my chest costs 20 bucks.
It's rechargeable.
And it can predict people's health and save on antibiotics for prevent heart attacks.
How many billions, if not trillions of dollars, will that save over the next decade?
Yeah. So when the public wakes up to this, they'll almost demand it.
Like this, this should be, this should be accepted everywhere.
This is obvious. It's going to save a lot of money. It's going to improve the quality
of life.
Well, and the CFOs of hospital groups will have to and insurance companies are going to
want to get in on this. So now that gets to privacy, right? If should an insurance company
have access to your data, I would say no, but you could voluntarily show them some of
it if they give you a discount
and that's also being worked on right now.
I hope we do create kind of systems where I can volunteer to share my data and I can
also take the data back, meaning like delete the data, request the delete share of data
and then maybe policy creates rules to where you can share data, you can delete the data.
And I think if I have the option to delete all my data that a particular company has,
then I'll share my data with everyone.
I feel like if, because that gives me the tools to be an intelligent consumer of awarding my data to a company that
deserves it and taking it back when the company is behaving.
And in that way, encourage as a consumer and the capitalist system, encourage the companies
that are doing great work with that data.
Well, yeah, healthcare data security is number one.
On my mind, inside tracker, made sure that that was true.
These buttons on your chest, there's very private stuff.
They can probably tell if you're having sex one night, right?
So this is not the kind of stuff you want leaked.
So I don't know whether it's blockchains or stuff that's on the shelf.
I want this public.
I guess it depends on how you go. There's a lot of stuff
you don't want out there. This definitely has to be number one because it's one thing to
have you credit card information installments, not the thing you health records are permanently
out there. So there's on the biology side, super exciting ways to slow aging, but there's
also on the lifestyle side. I've recently
did 72 hour fast, just an opportunity to take a pause and be, you know, appreciate life.
Think about life. There's something about fasting that encourages you to reflect deeper than
you otherwise might. The time kind of slows and you also realize that you're human because
your body needs food and you start to see your body's almost as a machine that takes food
and produces thoughts. And then ends breath. I mean, you start to, depending who you are,
if you're like engineering minded, you start to think of this whole thing as a kind of yeah as a machine and
then also feelings
fill this machine
feelings of gratitude of love but also
the uglier things of
jealousy and greed and hate and all those kinds of things and you start to think okay
how
How do I manage this body to create a rich experience?
All of that comes from fasting for me.
Anyway, but there's also health benefits to fasting.
I intermittent fast a lot.
I eat just one meal a day, most of the time.
Is there something you could say about the benefits
of fasting in your own life and in general,
the anti-aging process?
Well, you're a philosopher too.
Sorry, I apologize.
No, I'm impressed.
True Renaissance man, it's a joy to be here.
So when it comes to fasting, this is being
epistemious is one of the oldest ways to improve health.
Probably they knew this 5,000 plus years ago.
So that's not new.
But what we're figuring out is what is optimal and how does it work?
And one of the things we help contribute to, which I can speak to with some authority, is that these
longevity genes we work on, we showed back in the early 2000s, are turned on by fasting. And at least in
yeast, we were the first to show that how calorie restriction fasting works to extend lifespan. That was the first for any species. Something similar happens in our bodies. When we're hungry,
or put our bodies under any other perceived adversity, such as running, our bodies think,
wow, we're getting run chased by a Cybertooth, say, a tooth cat or something. If we're really
hot or cold, these probably also work to put our bodies in this defensive state,
to activate these genes in the way that whales do
and mice don't.
And so hunger is the best way to do that.
In fact, I don't think you have to feel hungry.
You can get used to it.
But if there was one thing I would recommend
to anybody to slow down aging,
would be to skip a meal or to a day.
Now, it doesn't mean you don't have to live well.
You can go
out. I go to restaurants. I eat regular food. I try to be as healthy as possible. But I've
gone from skipping breakfast most of my life now just skipping lunch as well. And I have
my physique back that I had when I was 20. I feel 20 mentally. I'm much sharper. I don't
feel tired anymore. I sleep well. So I'm a huge
fan of the one meal a day thing, where I'm not good at is going beyond one day.
But if you have a faster, longer than 24 hours, I tried doing two days, I might have made
it to the third and given up. I just find that I'm not, I don't have a lot of willpower,
I also hate exercise, so I'm not sure how long't have a lot of willpower. I also hate exercise.
So I'm not sure how long I'm going to live,
but I've managed to do one meal a day.
So if I can do that, seriously, anybody can do that.
To your listeners and viewers, I would say,
don't try to do it all at once.
You can't go from snacking and eating three meals a day
to what I do easily.
Work your way up to it, but also compensate
with drinking. If you like tea, if you like coffee, put some milk in it, that's fine. You
can fill your stomach up with liquids, diet sodas. I get criticized for drinking, but I'm
going to continue to have those. But then, you know, I power through the day. I definitely
don't feel tired. I don't have a lag anymore. But get also give it at least two weeks because
you, there's a habit as well.
Having something in your mouth chewing, feeling that fullness, you can break that habit
and within two, three weeks you'll have done it.
Absolutely.
I'm not actually even that strict about it.
It's a tad sorta.
Yeah, people are very kind of weirdly strict about fasting, the rules and the fasting,
for example, I'd drink element electrolytes when I was fasting, and that has
like five calories.
So technically it's not fasting, or people will say, if you drink coffee, there's caffeine
and they'll say, that's technically not fasting because there's some kind of biological
effects of caffeine, whatever.
Of course, there's biological benefits that you can argue about, but there's also just
experiential benefits.
Just calorie restriction broadly has a certain experience to it that like for me personally, just as you said, has made me feel really good.
That said, like, especially, I've gained quite a bit away, like maybe even like 15 pounds, some like that, since I moved to Austin, Texas.
And I still keep the same diet,
but I eat a lot of meat in that one,
just because it's delicious,
because it's also the amazing people I met in Texas.
It's just there's like camaraderie,
a friendship, a love to the people that like makes you really enjoy
the the atmosphere of eating the brisket and the meat. Is this Joe Roganit insisting?
Joe is that means very different. Joe loves bread and pasta. Like he knows that his body feels
best doing keto carnivore. So that's what he usually tries to stick to,
but he also does not hold back. And he'll just eat pasta when he does pasta. And he sort
of enjoys life in that way. I can't, I don't know how to enjoy life in that way. I also
love pasta, but I'm just not going to enjoy it because I know my body ultimately does not feel good
with pasta.
So it's a funny kind of dichotomies.
I would like to cheat, I guess, by eating more
meat than I, you know, like overeating
on the things that I know my body feels good on.
As opposed to eating stuff I shouldn't like cake and all those kinds of things. I tend to
find happiness in overeating the good stuff versus
eating the bad stuff and that's the kind of balance. Him, he's like,
fuck it. Every once in a while you got to enjoy it. And then also coupled with that for him is just
exercise like then faces demons the next day and just like burn a huge amount of calories, which is
I mean whatever whatever is up with that guy's mind there's an there's a
ability to fully experience life, which is represented by the pasta and the
ability to just like fight the demons, which is represented by all the crazy cataballs
and running the hills and all this kind of stuff that he does.
That takes a lot out of you doing that kind of insane exercise.
I think I'm more like you, or at least towards your direction, is like, I really hate exercise.
So I do it, but I really hate it.
And so it's a balance that you have to strike.
Is there something you could say about the diet side of that?
Offer you personally, but in general,
in order to achieve calorie restriction,
like for me eating, I don't mean that sound healthy,
but eating carnivore, eating mostly meat
has made me feel really good, both mentally and physically. Is there something you could say about
the kinds of diets that may improve longevity, but also enable calorie restriction?
Well, sure. I mean, the first thing that's important to know is that while
many people are interested, slash obsessed with what they eat, the data that's come out
of animal studies, at least, is it's far more important when you eat than what you eat.
And this was a fantastic study a few years ago by my friend, Rafael de Carbo, the National
Institute of Health and Bethesda.
And he had 10,000 mice on different diets, hoping to find the perfect mix of carbs, protein,
and fat.
And it turns out that the only ones that lived longer were the ones that only ate once a
day.
And so that, if we're not mice, but I think that we're close enough to mice, that this
tells us a lot.
But okay, but I still think the best bang for the longevity
buck is to do both well, eat less often and eat the right things. Now, I'll preface this
to say, I'm not a nut about this. I will eat occasionally, very occasionally, a dessert.
Usually I steal from others, which doesn't count, right? But you've got to live life, right?
What's a long life, if it's not enjoyable, Anyway, but what I've I also found and this is I'll get to your question a second, but my
microbiome right now is and stomach is at a point where if I try to overeat on a steak,
which I did a couple of days ago, I actually had a chicken, a fried chicken, specifically.
For two days, I felt terrible. I couldn't sleep, it wouldn't go down.
So I'm now at a point where even if I want to binge on meat and fried foods, I just can't,
it just feels bad. But what do I recommend? Well, what the data says, which I try to follow
is that plant-based foods will be better than meat-based foods. And I know that there
are a lot of people disagree. But one of the facts is,
as a few facts, one is that people who live a long time
tend to eat those type of diets,
metatranian, ocanawa diet,
they're eating mostly plants with a little bit of meat
and not a lot of red meat.
And the other fact is that in animals,
we know that there's a mechanism that's called
m-tore, a little m-capital teor
that responds to certain amino acids that
are found in more abundance in meat, and when it responds, it actually shortens lifespan.
And the converse, if you starve it of those three amino acids, mostly in meat, then it
extends lifespan.
And there's a drug called rapamycin, which some people are experimenting with, that does
that.
So you might be able to, you know, I'm just saying this here
from all my colleagues, we don't know the results here,
but you could potentially take a rapper mice and like drug
and counteract the effects of meat on the long run.
Don't know, we should try that actually.
We could do that in the lab.
But getting to the bottom of this,
what I think is going on is that just like testosterone
and growth hormone, you will get temporary,
maybe not temporary, immediate health benefits. You'll feel great, you'll get more muscle energy. But the problem is, I think it's at the expense of long-term health and longevity.
Well, this is actually something I worry about in terms of long-term effects or the cost in terms of longevity. It's very difficult
to know how your choice is effect your longevity because the impact is down the line. Just because
something makes me feel good now, eating only meat makes me feel good now, I wonder what
are the costs down the line.
Well, think about what I was saying about the trade-offs between growth and reproduction,
which is what a mouse does, and a whale that grows slowly, reproduces slowly, lives a long
time.
It's called the disposable somatherie.
Coke would just propose that in the 70s.
What meat probably does is put you in the mouse category, super fertile, grow fast, heel
fast, and then if you want
to be a whale, you should restrict meat and do things that promote the preservation of
your body.
Is it difficult to eat a plant-based diet that you perform well under, so mentally and
physically? So mentally and physically just almost I'm asking almost like an anecdotal question
Unless you know the science
Well the science is still being worked out but from the synthesis of everything that I've read I try to
It a diet that's
definitely full of leafy greens
Particularly spinach is great because it's got the iron that we need for plenty of
vitamins.
I also try to avoid too much fruit and berries, particularly fruit juice, definitely avoid
that sugar high.
Spiking your sugar is not healthy in the long run.
The other thing that's interesting is we discovered what are called what we call zeno-hormetic
molecules. Let me unpack that because it's a terrible name and I take full responsibility
with my friend Conrad Howitz. The Xenoh means cross species and hormisus is the term
that what doesn't kill you makes you live longer and be healthier. And so we're getting cross species
health improvements by molecules that plants make.
And plants make these molecules where they're also under adversity or perceived adversity.
For instance, I understand if you want really healthy or good oranges,
you can drive nails into the bark of the tree before you harvest.
Same with wine, you typically want them to be dry before you harvest or covered
in fungus. And that's because these plants make these colorful and xenochematic molecules
that make them self-stress resistant, turn on their seroton defenses, the sergens, remember.
And when we eat them, we get those same benefits. That's the idea. And we've evolved to do so.
This isn't a coincidence. It's my theory, our theory, that we want to know when our food supplies is under adversity because we need to get
ready for a famine. And so we hunker down and preserve our body. And by eating these colored food,
so I'm practically speaking, if it's full of color, if there's been some chewing by a caterpillar,
caterpillar, organic, grown locally in local farms.
I'll eat that versus a watery,
insipid, light colored lettuce that's been grown
in California.
So you want vegetables that have suffered?
You want the David Gaggins as a vegetables?
That's the Zeynotch Chromatic molecules.
I love that term.
I'm gonna take that one with me, thank you.
Yeah, oh, I follow my Instagram, that one with me. Thank you. Yeah. Oh, I follow him on Instagram.
It's always screaming.
So you want to say that he's basically the xeno-harmonic version of a human.
I like it.
So these are the molecules that are representative of stress that a plant has been under.
Yeah. The best example of that is resveratrol,
which many people, including myself, take as a supplement,
grapes, grape finds produce that in abundance
when they're dried out or they have too much light or fungus.
And that, we've shown, activates the serotonin enzyme in our bodies,
which, remember, is what extends lifespan in yeast
and slows down aging in the brain.
That's beautiful.
Yeah, to attempt to avoid fruit as well.
So green veggies, anything that's not very sweet.
So I would just say you're relatively low.
Like you try to avoid sugary things as well.
Yeah, I'm fairly militant about that.
I rarely would add sugar to anything.
Occasionally I would eat a slice of cheesecake, but that would be maybe once or twice a year, you have to
give in occasionally. But yeah, anything that's sweet, I would rather substitute something
like stevia if I need a sugar hit.
What about exercise, your favorite topic. Is there a...
I don't know if I'm talking about it.
Okay, great.
Is there benefits to longevity from exercise?
Well, no doubt. That's proven. Just like fasting, it's pretty clear that that works.
For example, there are studies of cyclists. It was something like people that cycle over 80 miles a week have a 40% reduction in a variety of diseases, certainly heart disease.
So that's not even a question. But what's interesting is that we're learning that you don't need much to have a big benefit. It's an asymptotic curve.
And in fact, if you overdo it, you probably have reduced benefits, particularly if you start to wear out joints, that kind of thing.
reduced benefits, particularly if you start to wear out joints, that kind of thing. But just 10 minutes on a treadmill a few times a week, getting your lose your breath, get hypoxic as it's called,
seems to be very beneficial for long-term health. And that's the kind of exercise that I like to do,
aerobic. Though I do enjoy lifting weights, so that is what I call my exercise, which has other
benefits, including maintaining hormone levels, male hormone levels, but also really why I do my exercise, which has other benefits, including maintaining hormone levels, male
hormone levels, but also really why I do it is I want to be able to counteract the effect of
sitting for most of the day. And as you get older, you lose muscle mass. It's a percent or so a year.
And I don't want to be frail when I'm older and fall over and break my hip, which happens every
20 seconds in this country. So maintaining that strength, but also doing the cardio for the longevity, for the avoiding
the heart disease.
Yeah, I definitely just like with fasting, have the philosophical benefit of running long
and running slow.
I enjoy it because it kind of clears the mind and allows you to think, actually listen
to brown noise as I run.
It really helps remove myself from
the world and just like zoom in at particular thoughts.
What are the brown noise? It's like white noise but deeper. So like the white noise is like
shh, and then brown noise is more like shh, like ocean.
That sounds great. I might try that. Yeah. Yeah, it's a more soothing probably. I'm not sure. There could be signs to this. I need to look this up. I might try that. Yeah, it's a... It's also a thing probably.
I'm not sure. There could be signs to this.
I need to look this up. I've been meaning to.
But when I started...
This is maybe like five years ago,
I started listening to Brown Noise when I work.
And the first time I listened to it,
something happened to my mind
where I just went like...
zoomed in to like...
in a way that... it felt like really weird
like how how precisely was able to sort of remove the distractions of the world
and really help my mind. Obviously like the mind is trying to focus and then
it just enabled that process of trying to focus on a particular problem. I
don't know if this is generalizable to others.
People should definitely try to feel listening to this.
Maybe it's just my own mind, but it's funny.
Like, it made me, brown noise made me realize
that there's probably hacks out there
that work for me that I should be constantly looking for.
It's almost like an encouraging and motivating event that maybe there's other stuff out there. Maybe there's
other brown noise like things out there that truly like almost immediately make
me feel better. I don't know if it's generalizable to others, but it does seem
that it's the case that there's probably for many others things like that that
could be discovered.
And so it's always disappointing when I find things in life that I wish I would found earlier.
I got laced eye surgery a few years ago.
And the first thought I had like the next day when I woke up is like, damn it, why didn't I do this
way earlier? There's all this stuff of
that nature that there yet to be discovered. So it pays to explore.
Yeah, though you have a different mind. You have quite a beautiful mind. So I suspect
Brown noise helps you focus and because you're probably all over the place if you don't
control it. Yeah, exactly. It means something about it. It's a programmer thing. A programmer is a really difficult
mental journey because you have to keep a lot of things in mind. You have to
say, you're constantly designing things, then you have to be extremely precise by making those
things concrete in code. You also have to look stuff up on the internet to sort of feed like
information and looking up stuff on the internet, internet is full of like
distracting things. You have to be really focused in the way you look stuff up
in pulling that information in. So it requires a certain discipline and a certain
focus that I've been very much exploring how to do. Like I do it really well in the morning.
Coffee is involved, all those kinds of things.
You're trying to optimize, keeping very positive,
inspired, no social media, all those kinds of things
and trying to optimize for.
And everybody has their own kind of little journey
that they try to understand.
You get this from like writers,
when you read about the habits of writers,
like the habits they do in the morning, they usually write like two, three, four hours a day,
and that's it. It's like they optimize that ritual. And then there's always Hunter Thompson. So
sometimes it pays off to be wild. What about the sleep? How important is sleep for longevity? I would guess,
based on the evidence that it's really important, and because we don't know for sure. But what
we know from animal studies is the following, if you restrict sleep from a rat for just
two weeks, it'll develop type 2 diabetes. It's that important. So that's the main thing.
What we also know is at the molecular level that if you disrupt your sleep wake cycle,
so we actually have proteins that go up and down that control our sleep wake, all of us,
most of our cells do that. If you disrupt that, you'll get premature aging. And guess what,
the opposite is true. That as you get older,
that cycle, the amplitude becomes diminished. And this is why it's harder to get to sleep
as you get older and then you've got all sorts of problems. And I think what's going
on is there's a positive feedback loop, which is a disaster in your old age, which is
right, you're aging. You can't at this moment totally prevent that. And then it's disrupting
your sleep and you get not enough sleep. And then that's going to accelerate your aging
process. And so it's known that the people who shift workers are most susceptible to certain
age-related diseases. So your bottom line, you definitely want to work on that. It's
one of the reasons I have this ring on my finger, which helps me optimize my sleep
and learn what I do the day before if it was a bad idea and I'll stop doing that like eating
a fried chicken.
I see you're still carrying the burdens of that decision, but yeah, sleep is one of those
things that's making me wonder about the variability between humans a little bit and how science is often focused on
Like it's not often focused on
high performers in a particular way and
It's looking at the aggregate versus the individual cases
For example like for me. I don't know what the exact hours are but like power naps are incredible
what the exact hours are, but like power naps are incredible. I tend to look at the metric of stress and happiness, enjoy and try to optimize those. So decreasing stress, increasing
happiness and using sleep as just one of the tools to do that. Because like hitting the
5, 6, 7, 8, 9 hour mark or whatever the correct mark is, I find that to be
stress-inducing for me versus stress relieving. Like thinking about that. I feel best if I sleep
sometimes for 8 hours, sometimes for 4 hours in the power nap and as long as I have a stupid
private usually smile in my face, that's what I'm doing good
as opposed to getting a perfect amount of sleep according to whatever the latest blog post
is.
And I also have pull-on-nighters still.
I also think there's something about the body, like as long as you do it regularly, it's
not as stress-inducing. You know what it is.
The reason I pull all nighters isn't for like, I'm playing Diablo 3 or something, is because
I'm doing something I'm truly passionate about.
Well, I can also love video games, but I'm doing something I'm truly passionate about.
And it's almost like there's the jacquo-willing feeling of when I'm up at 7 a.m. and I haven't
slept all night and still I'm working on it.
There's a kind of a celebration of the human spirit that I really enjoy it.
Like, uh, and that's happiness.
And to sort of then, and I usually don't tell that kind of stuff to people
because their first statement will be like, you should get more sleep.
It's like, no, I'm doing stuff I love.
You should get more love in your life, bro.
That's right.
So, but that said, in aggregate,
when you look at the full span of life,
it's probably you should be getting
a consistent amount of sleep.
And it seems like it's in that seven, eight. You have it, it's similar to food.
It's the quality, not the quantity, and when you get it.
So I look at my data pretty often and what makes a difference to me is not the amount of
hours, but the quality, the depth and the deep sleep is what will do it.
So if I have a lot of alcohol before, I'll go into sleep and I can see my heart rate being different, but what really kills me is that I don't get a lot
of that deep sleep, and I wake up, you know, barely remembering stuff. So that, like you say, if you're
happy and contented and you're not done with these quarters old chemicals going through your body,
you will more naturally get into that deep state. And even if you just get four hours way better than
eight hours of none of that.
Yeah, that's beautiful.
And some of that could be genetic.
For me, I just fall asleep like this.
If you want me to fall asleep right now, I can do it.
It's no, I have no problem with it combined with coffee.
I just had two energy drinks that can probably sleep.
So that, I don't know if that's genetics or it's kind of, I don't know what it is.
Or maybe that I don't have kids that I'm single. So I don't have, I'm almost listening to
some kind of biological signal versus societal signal. I'm not supposed to go to sleep.
So I just go to sleep whatever I feel like going to sleep. Well, that's because you're
self-employed. Self-employed. Most people don't have that luxury, but we're lucky to have us that we can make our own
hours.
But, yeah, it's super important, and those people who have the shift work, I mean, they
really need to change the way that works because they're literally killing those people.
Is there something you could say about the mind and stress in terms of effect on longevity.
Because I don't know if you think about it this way, but when you talk about the biological
machine, it's always these mechanisms that are not necessarily directly connected to the
brain or the operation of the brain. What's the role about stress and happiness and
the higher cognitive things going on in the brain on longevity?
Right. Well, that's a great point. The brain is the center for longevity. We do know
that. First off, when I'm stressed, I can see mentally stressed, then I can see it
in my body.
Heart rate, hormones, it's clear.
That's the most true surprise.
So you've got to work on your brain first and foremost.
If you are totally freaked out, agitated all the time, you will live shorter.
I'm certain of it.
I keep fish.
I'm a of it. You know, I keep fish. I'm a big
Accurium guy and you can see the difference between the fish that's having a good time and dominant and one that gets picked on
Yeah, it just looks like crap
Yeah, you don't want to be that the little fish getting picked on if you can help it
So I used to be extremely stressed as a kid. I was a perfectionist very shy
Always worried about being a failure.
If I didn't get an A plus, you know, I was crying in my bedroom, that kind of sad existence.
I got into my 20s, then in my 30s and realized that's not the way to live. So I've worked very
hard to get to this point where I almost never get stressed, never. There's nothing that I've
never gotten angry in my lab. I've got 20 kids, Sometimes it's like a most of the time it's like a kindergarten. I haven't lost my temper.
I very calm, but that's intentional. And I don't worry about stuff. Millions of dollars,
billions of dollars it's take. Sometimes keep it cool. It's only life. We're all headed to the same
place anyway. Don't worry about it. But to answer your question, I think in a better way, if you manipulate the brain of an animal,
I'll give you an example.
If we turn on this sort of gene that I mentioned, sort one, we, a good friend of mine at Washoe,
she and I might did this.
They upregulate that, I'll bring that gene just in the neurons of the animal.
It lived longer.
So that's sufficient to extend lifespan. We also know that you can manipulate the part of the animal, it lived longer.
So that's sufficient to extend lifespan. We also know that you can manipulate the part of the brain
called the hypothalamus, which leaches a lot of chemicals
into the body and proteins, most of which we don't know yet,
but just changing the inflammation of that little organ
or part of the brain is sufficient to make animals
live longer as well.
So get your brain in order first before you tackle anything else I would say.
So you kind of mentioned this.
With the inside tracker, there's ability to take blood measurement and then infer from that.
A bunch of different things about your body, how you can improve, how you can improve longevity. And you've also mentioned saliva and more efficient ways to get data.
What's that involved? What's the future of data collage?
Yeah, for the human biological system.
Right. Well, the issue with blood is you need someone to take it.
I mean, all you prick your finger, which hurts. So you've got to have something better. So I think what the issue with blood is you need someone to take it. Or you prick your finger, which hurts.
Yes.
So you've got to have something better.
So I think what the future looks like is that you'll spit onto a little piece of paper
and stick it in a machine and it'll do that for you.
But we're not there yet.
So the intermediate future that I'm building right now is that you would take a swab of the
inside of your mouth, which is the easiest way to take cells out of your body
and just ship them off.
Okay, so it's called a buckle swab.
I think we became very used to that right now,
because of COVID, people don't like going to the doctor
as much, they don't like going out,
they just wanna have home tests.
And so that, I think, is the next 10 years,
where you'll get a kit in the mail, you'll swab your cheek,
stick it back in and envelope, send it off,
and a week later you have either a doctor's report
or a health recommendation.
And what can you get off a cheek swab?
Well, you can get anything, you can get hormones,
stress levels, stress hormones, blood glucose levels.
You can also tell your age reasonably accurately doing that,
actually quite accurately.
And those clocks cannot just tell you how you're doing over time, but can be used to
give you recommendations to slow that process down.
Because some people sometimes are 10 years older biologically than their actual chronological
age.
I mean, why does it matter how many times the Earth's gone around the Sun, seriously?
Because about birthdays, it's how long your body's clock has been ticking and how fast.
So I could take a cheek swab from you today.
Let's take it back to my lab.
And we then, by tomorrow, tell you how old you are biologically based on what we call the
epigenetic clock.
And you might be freaked out, you might be happy.
But either way, we can advise you
on how to improve the trajectory because we know that smoking increases the speed of that
clock. We also know that fasting and people who eat the right foods have a slower clock.
Without that knowledge, you're flying blind. But I like the idea of a swab because it's
just so easy. We've a lot of us have done something like that for COVID tests. It's not a
good thing. because it's just so easy. We've a lot of us have done something like that for COVID tests. It's not a problem. I've been doing that stuff, a rapid antigen test.
So let me say that particular one rapid antigen test, they've been a source of frustration
for me because like everybody should be doing it. It's so easy. We've also been working in my lab
on democratizing these tests to bring them down from a few hundred bucks to a dollar.
So it's just to clarify, you're talking about not research, you're talking about like company
stuff, like actual, just facing things.
Right.
Well, right, the research on bringing the price down has occurred in my lab at Harvard,
and then that intellectual property is being licensed and has been licensed out to a company
that will be consumer facing.
So anybody for a small amount of money can do this.
Well, you got subscriber number one obsessed. I think that's a
beautiful, beautiful idea. So somebody who maybe I would have been
more hesitant about it until COVID, but home tests are super
easy. I almost wanted to share that data with the world, like in
some way, not not the entirety of the data, but like some
visualization of like how I'm doing.
It's almost like when you share
if you had a long run or something like that,
I wish I could share,
because it inspires others,
and then you can have a conversation about
what are the hacks that you've tried,
and have a conversation about how to improve lifestyle
and those kinds of things that's grounded in data.
That's exactly what's gonna happen. Now, everything's anonymous, of course.
We talked about security there, but once it's anonymized, you can then plot these numbers.
And I've plotted my epigenetic age versus hundreds of other people who have taken this test now.
And I can tell you where I fit relative to others in terms of my biological age.
And I'm happy to share that with you all because it's been pretty low.
You can choose to share it, of course, not everyone wants to share that.
But when you go to the doctor, first of all, your doctor doesn't, does treat you as though
you're an average person.
And none of us are average.
It's not such thing.
But second of all, we never know how we're doing relative to others because we all, most
of us, we don't share our
information. So we might have this number and that number, but do you know that your number
is a good for your age or not? You have no idea. Even your doctor probably doesn't even know.
So this graph that I'm talking about is the beginning of a world where you can say,
how am I doing? I'm a, you know, for the two of us, we're white and we're male and we're
at this age and we do this. Are we good? Are we doing the right things or the two of us, we're white and we're male and we're this age. And we do this.
Are we good?
Are we doing the right things or the wrong things?
Do we need to fix certain things?
And this is what the future is.
It's forget about just experimenting and not knowing the result.
I mean, who does an experiment and doesn't look at the data?
No one.
It makes no sense.
So we're going to enter a world where we have a dashboard on our body, the swabs, the blood
tests, the biosensors where our doctors can look at that, but we can also look at it and
they can recommend.
You know, go to this restaurant down the road.
They've got this great meal.
It's high in whatever you need today because you're lacking vitamin D and vitamin K2.
Go for it.
Radiculous question or perhaps not.
If you look maybe 50 years from now or 100 years from
not person born then, what do you think is a good goal in terms of how long a person would
live?
Like what is the maximum longevity that we can achieve through the methods that we have
today of, or developing some of the things we've been talking about in terms of genetics, in terms of biology.
What's, is there a number? Right. Well, so it changes all the time because technology's changing so
quickly. I keep revising the number upward, but I would say that if you do the right things during
your life and start at an early age, let's say 25, we don't want malnutrition,
starvation, that's not what I'm talking about. But in your 20s,
start eating the kind of diets that I talked about, skipping meals.
In animals that gives you an extra 20 to 30%. We don't know if that's true for
humans and that would, you know, even 5% more would be a good
big deal for the planet. I think that we should all aim to at least reach
a century. I'm a little bit behind. I was born too early to benefit the most from all of
this discovery. Those of you who are in your 20s, you should definitely aim to reach
a hundred. I don't see why not. Consider this is really important. The average lifespan of a human that looks after themselves and doesn't pay attention is
about 80.
Okay?
Japan, that's the average age for a male bit higher.
If you do the right things in your life, which is eat healthy food, don't over eat,
don't become obese, do a bit of exercise, get good sleep and don't stress. That gives you, on average, 14 extra years. They get you to 94. So getting to 100, if you just focus
on what I'm talking about, it's not a big deal. So what's the maximum? Well, we know that one human
made it to 122 and a number of them make it into their teens. I think that's also the next level
of where we can get to with the types of technologies
that I'm talking about.
Medicines like I mentioned Rapa Mison, there's one called metformin which is the diabetes
drug which I take.
That in combination with these lifestyle changes should get us beyond 100.
How long can we ultimately live?
Well, there's no maximum limit to human lifespan.
Why can a whale live 300 years, but we're basically the same structure. We just need to learn from them. So anyone who says,
oh, you max out at X, I think is, is full of it. There's nothing that I've seen that
says biological organisms have to die. There are trees that live for thousands of years,
and their biochemistry is pretty close to ours.
What do you think it means to live for a very long time? Let's say if it's 200 years we're talking about horror, thousands of years.
There's some sense you could argue that there is immortal organisms already living on earth,
like there's bacteria, so there's certain living organisms that in some fundamental way do not die because they
keep replicating their genetic and they keep cloning themselves.
Is it the same human if we can somehow persist the human mind, like copy, clone certain aspects
and just keep replacing body parts. Do you think
that's another way to achieve a mortality, to achieve a prolonged sort of
increased longevity is to replace the parts that break easily and keep
because actually from your theory of aging as a degradation of information, so information theory of aging,
like what is the key information that makes a human?
Can we persist that information
and just replace the trivial parts?
Yeah, I mean, the short answer is yes.
We're already replacing body parts,
but what makes us human is our brain.
Everything else is subopt us human is our brain. Everything else is sub
optimal, except our brain. The ability to replace actual neurons is really hard. I think it might
be easy to upload rather than replace neurons. Because they're so tight, it's such a network,
and just put tubing in the system. It's frugging, there's cat. You change everything
once you get in there. The problem is, well, I guess the solution, let me go to the solution,
that's more interesting. What we're learning is that if you reverse the age of nerve cells,
they look like they get their memories back. So the memories are not lost. They're just
that the cells don't have to interpret them and function correctly. And this is one of the things we're
studying in my lab. If you take an old mouse that has learned something when it was
young, but forgotten, does it get that back? And all evidence points to that being
true. So I'd rather go in and rejuvenate the brain as it sits rather than replace
individual cells, which would be really hard.
What do you think about like efforts like neural link, which basically you mentioned uploading,
are trying to figure out, so creating brain computer interfaces that are trying to figure
out how to communicate with the brain, but one of the features that is trying to record
the human brain more and more accurately.
Do you have hope for that? Of course, it will lead to
us better understanding from a neuroscience perspective of the human mind, but do you have
hope for it, increasing longevity in terms of how it's used?
I think that it can help with certain diseases, but I see at least within our lifetime that's
the best use of it is to be able to replace parts of the body that are not functioning, such as the retina and
other parts, the visual cortex back here. That's going to be doable. In terms of longevity,
maybe we could put something on the hypothalamus and start secreting those hormones and get
that back. Ultimately, I think it, the best way to preserve the brain is going to be to record
it, but also I think it's going to require death, unfortunately, to then do very detailed
scans, even if you have enough time and money, atomic microscopy, and rebuild the brain
from scratch. We build from scratch, yeah. I mean, we are living more and more in digital world.
I wonder if the scanning is good enough
for the critical things in terms of memories,
in terms of the particular quirks of your cognitive processes.
They're not.
They're not.
Yeah, we're not, we're not close, yes,
but we've made quite a bit of progress.
So it's, if So it's if you're
If you're an exponential type of person. Yeah, well, let's dream a little here. Yes, that's the point. The way it would work
that I could see it working is you take a
single cell slice through your your dead brain and
We can now the problem with the engineering aspect is that the engineering
is the physical aspect of the brain is not even half the problem. The problem is which genes
are switched on and off. This experience that we're having here is altering certain genes
in neurons that will be preserved hopefully for a number of decades. But you cannot see that
with a microscope easily.
But there are technologies
that have invented actually just down the hall
in the building I'm at,
George Church invented a way,
his lab invented a way to look at
which genes are switched on and off,
not only in a single cell,
which any lab can do these days,
but in situ, where it's situated in the brain.
So you can say, okay, this nerve cell had these genes switched on and these switched off
We can recreate that
But just scanning the brain and looking how the nerves are touching each other is not gonna do it
Wow, okay, so you have to scan the full biology the full details
And the epigenome had the epigenome to yeah, which genes are on and off?
It's just easier to reset the epigenome and get them to work like they used to.
We're doing that now.
We use the hardware we already have, just figure out how to make that hardware last longer.
Right.
Ultimately, information will be lost, even genetic information degrades slowly through
mutation.
So, immortality is not achievable through that means.
So, I think we could potentially reset the body hundreds of times and live for thousands of years.
Okay, so we talked about biology.
Let's forgive me, but let's talk about philosophy for just a brief moment.
So somebody I've enjoyed reading Ernest Becker wrote the denial of death.
There's also Martin Heidegger.
There's a bunch of philosophers who claim that
most people live life in denial of death. So we don't fully internalize the idea that
we're going to die. Because if we did, as they say, there will be a kind of terror, a deep fear of death.
The fact that we don't know what to do with non-existence, with disappearing.
Like, the way we draw meaning from life
seems to be grounded in the fact that we exist
and that we, some point, will not exist is terrifying.
And so we live in an illusion that we're not going to die
and we'll run from that terror.
That's what Ernest Beckord say.
Do you think there's any truth to that?
Oh, I know that's true to that.
I experience it every day when I talk to people.
We have to live that way, although unfortunately,
I can't, but for most people,
it's extremely distressing to think about their own mortality.
We think about it occasionally,
and if we really thought about it every day,
we'd probably be brought to tears.
How much we not just miss ourselves, but miss our family, our friends. We are
of all living life forms have evolved to not want to die. And what I mean want, biochemically,
genetically, physically, that yeast cell, the cells that I studied at MIT, they were fighting
for their lives. They didn't think.
But our brain has evolved the same survival aspect.
Of course, we don't want to die, but the problem for us, unfortunately, it's a curse
and a blessing, is the way we're now conscious.
We know that we're going to die.
Most species that have ever existed don't.
That's a burden, that's a curse.
And so what I think has happened is we've evolved certainly to want to live for a long time,
perhaps never want to die.
But the thought about dying is so traumatic that there isn't innate part of our brains,
and it's probably genetically wired to not think about it.
I really think that's part of being human.
Because, you know, think about tribes that obsessed with longevity every day
and that we're going to die, they probably didn't make much technological progress because
they were just crying in their huts every day or, you know, on the savannah.
I really think that we've evolved to naturally deny aging.
And it's one of the problems that I face in my career.
And, you know, when I speak publicly and on social media is that it's one of the problems that I face in my career. And you know, when I speak publicly
and on social media is that it's shocking. People don't want to think about their age, but I think
it's getting better. I think my book has helped these tests that we're developing should help people
understand. It's not a problem to think about your long-term health. In fact, if you don't,
you're going to reach 80 and really regret it.
And the other side of it, so again, I'm his becker, but also Victor Frankl, I recommend to highly mansource for meaning, burning our Williams is a moral philosopher.
They kind of argue that this knowledge of death, even if we often don't contemplate it,
we do at times. And the very, what you call the curse,
which I agree with you, it's a curse and a blessing
that we're able to contemplate our own mortality.
That gives meaning to life.
So death gives meaning to life.
As will Victor Frankl's argues,
I will probably argue the same.
There's something about the scarcity of life
and contemplating that,
that makes each moment that much sweeter.
Is there something to that?
I think it's individual.
In my case, it's completely wrong.
I appreciate you saying that.
I don't get joy out of every day
because I think I'm gonna die.
I get joy out of every day because every day is joyous.
And I make it that way.
And even if I would, if I thought I was going to live forever,
I would still be enjoying this moment just as much.
And I bet you would too.
Well, that's a, I think about that a lot.
I think it's very difficult to know.
I'm almost afraid that I wouldn't enjoy it as much as I was immortal.
I'm almost afraid to want to be immortal or to live longer.
Because it perhaps is a kind of justification for me to accept that I'm going to die.
It's saying like, oh, if I was immortal, I wouldn't be able to enjoy life as much as I do.
But it's very possible that I would enjoy just as much. Of course, enjoying life whether you're
mortal or not takes work. Like it requires you to have the right kind of frame of mind. You can
discover, you can focus your mind on the ugliness of life. There's plenty of ugly things in this world and you can focus on them, you can complain.
Whenever like, you know, if it's raining outside, you can focus on the fact that you have shelter
and enjoy the the hell out of it or you can enjoy running in the rain when it's warm.
And like the beauty of nature, just being one with nature,
or you can just complain this fucking weather again
in Boston, and never see, there always raining
or freezing dammit, and like,
the same thing with like, Wi-Fi going out on airplanes.
Like, you can either complain about like,
stupid Wi-Fi and on dead blue or something or you could say like how
incredible it is that I can fly through the sky and in a matter of hours be
anywhere else in the world and then it could also on occasion watch like check
email and even watch movies through this while connecting through satellites
that are flying through space so it's a matter of perspective and perhaps
there's an extra level of work required
when you're immortal because it's easier when you're immortal or live longer to to be lazy,
to delay stuff. But if you're not, you can still derive the same idea of joy. It's possible,
it's possible. It's definitely possible in my life. I went from being the nothing's working to
in my life, I went from being the nothings working to everyday is great to wake up to. And I think even if you live, I think you can live forever, you can enjoy everyday.
What I do is everything's relative. We can compare ourselves to our neighbor who has more money
or to the flight that should have had Wi-Fi or which is what I do. I'm still six years old, remember. What a six-year-old does says,
look, I can, when I tell my fingers to form a fist,
they actually do that.
That's really cool.
That's how I live my life.
I can pick up on your desk here, this metal object.
It's a metal cube about an inch by an inch by an inch.
And I tell myself not about cubes,
but about inanimate objects.
Probably once a day I'll say, I'm a living thing. I can think, I can move, I can eat, I'm full of energy. And there's that leaf or this cube here that will never be alive.
That's what I look at and compare myself to. And for as long as I live, if it's forever,
of course, it won't be, but even if it was forever, the relative
to this lump of metal on this table here, we are wondrous things in the universe and
probably the most wondrous things in the universe.
Yeah, we're able to deeply appreciate the leaf or the cube and deeply appreciate ourselves,
which is, it can be a curse, but it's mostly a gift, especially when you're such
a beautiful poem.
Now I'm six.
I'm as clever as clever.
So I think I'll be six now forever and ever.
That's a good thing to aspire to.
Your grandmother was onto something.
David, this was an incredible conversation.
I'm a huge fan of your work. So thank you for wasting your valuable time with me today. I really, really appreciate this was awesome. Thank you for having me on Lex. Appreciate it.
Thanks for listening to this conversation with Davis and Claire. And thank you to on it, clear national instruments, simply safe and Linode. Check them out in the description to support this podcast.
And now, let me leave you some words from Arthur Schorpinow.
All truth passes through three stages.
First, it is ridiculed, second, it is violently opposed, third,
it is accepted as being self-evident.
Thank you for listening, and hope to see you next time.
you