The Rich Roll Podcast - Mastering The Microbiome
Episode Date: January 21, 2021Our bodies are comprised of about ten trillion cells. But only half those cells are human. The remainder comprise our microbiome—a vast and complex ecosystem of bacteria, viruses, and fungi that liv...e in or on our bodies. Only now is science beginning to understand the profound impact of these microbes on human health. We choose to believe that we are fully sentient and self-governing, wholly responsible for our health, moods and decisions. But the truth is far different. In fact, to a large extent, our emotional state, propensity for disease, the nature of our cravings, and even some of our decision making can be traced back to the nature of our gut ecology. Most of these microorganisms are symbiotic. Maintaining a healthy culture of the right microorganisms is fundamental to good health. But should the quality of your microbiome go awry, health havoc ensues. To better understand the vital role these microorganisms play in our health and lives, today’s show is a veritable microbiome masterclass courtesy of the gastroenterologists, scientific researchers, and gut experts that have graced the show over the years. After 8+ years and 500+ conversations, I’ve compiled a vast library of bankable, timeless information and advice. As a steward of this archive, I feel a responsibility to convert the best of it into a more helpful, productive, accessible, and practical resource. As an initial step toward this goal, I will be periodically offering curated wisdom focused on a specific theme or subject (as opposed to a guest). This episode is an embryonic experiment in doing just that—the first in what will be an evolving series of deep dives, commencing with this microbiome intensive courtesy of the following collection of past podcast gut health expert guests (all hyperlinked to their respective full episodes): Robynne Chutkan, M.D. Ara Katz and Raja Dhir Zach Bush, M.D. Rhonda Patrick, Ph.D. Will Bulsiewicz, M.D. FULL BLOG & SHOW NOTES: bit.ly/richroll575 YouTube: bit.ly/microbiome575 I sincerely hope you find this experiment helpful and instructive. Peace + Plants, Rich
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The major source of all inflammation in the body is actually the gut.
So your gut hosts the largest number of immune cells in the body.
So most of the immune cells in your body are found in your gut.
You've got them in your spleen, your thymus, and obviously in your blood.
So in addition to immune cells being in your gut, you also have a lot of bacteria in your gut.
And those bacteria play a very, very important role in regulating your immune system. So you're talking about people that are eating unhealthy,
they're not getting enough fiber, and they're doing damage in the gut, and that's causing a
lot of immune cells to become active chronically every day. You have to feed those bacteria the
right types of foods. You can kind of think of them as little chemical producing factories, actually, because when you feed them the right type of food, which
happens to be fiber, fiber gets digested by this bacteria in your gut, in your colon specifically,
and it produces a bunch of different chemical products called short chain fatty acids,
which are little signaling molecules that tell your immune cells in your gut
to become a certain type of immune cell.
So they'll tell them,
okay, become this type of immune cell
that is involved in preventing autoimmune diseases,
making sure your immune system doesn't get so ramped up
that it starts to just attack everything,
including your own organs.
That's very important.
That's Dr. Rhonda Patrick,
and this is a special deep dive edition of the Retro Podcast.
The Rich Roll Podcast.
And now for something a little bit different.
After eight years and 500 plus conversations, I've compiled quite a library of bankable, timeless information and advice.
functions and or the way the human animal operates, there does seem to be this sense that content created in the past is somehow less meaningful than more currently published content.
In many ways, this is incorrect. And so to rebut this falsehood, I felt compelled to
better organize the best of our thousand-plus-hour audio library and, a guest, but instead around a single
theme or subject matter. This episode is an initial experiment in doing just that. The first
in what will be an evolving series of deep dives, beginning with today's exploration of the
microbiome, courtesy of a collection of gut health experts that have
graced the show in the past. A couple more things to say about all of this, but first...
We're brought to you today by recovery.com. I've been in recovery for a long time. It's not hyperbolic to say that I owe
everything good in my life to sobriety. And it all began with treatment and experience that I had
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times before, but because it is so mind-blowing, I think it's worth repeating, and here it is.
Only about half our cells are actually human.
The other half is comprised of all the bacteria,
the viruses, and the fungi that live in or on our bodies.
And we choose to believe nonetheless,
that despite the fact that we're the symbiotic host of essentially an entire
kingdom of life, that nonetheless, we're still fully sentient and self-governing, that we're
entirely responsible for our health, our moods, our decisions. But the truth, of course, is far
different. And in fact, to a large extent, our emotional state, our propensity for disease, the nature of our cravings,
and even some of our decision-making can be traced back to the nature of our gut ecology.
Most of these microorganisms, as I said a moment ago, are symbiotic. Maintaining a healthy culture
of the right microorganisms is fundamental to good health.
But should the quality of your microbiome go awry,
health havoc is certain to ensue.
So to better understand the vital role
these microorganisms play in our health and our lives,
today's show is intended as a microbiome masterclass,
courtesy of the gastroenterologists,
the scientific researchers, and various gut experts
that have graced the show in the past.
The full episodes for whom can be found
in the show notes, of course.
We begin today with a basic definition of the microbiome,
the vital functions microbes play in regulating our bodies, how antibiotic use can compromise our gut flora and in turn our immune systems,
and the adverse effects of over-sanitation. All of this is coming to you courtesy of my
awesome friend, Dr. Robin Shutkand, respected integrative gastroenterologist, microbiome expert, and bestselling author of books that include Gut Bliss and The Microbiome Solution.
So probably the first thing we should do is define what the microbiome is.
So probably the first thing we should do is define what the microbiome is.
So it's basically the trillions of bacteria that live in and on our bodies. Mostly bacteria, but also viruses and protozoa and helminths, worms, for those of us who have them.
So about 100 trillion in all.
100 trillion.
And how many human cells are we?
We are outnumbered 10 to 1 by our microbial cells and genes. So it's this crazy
thing where we're really just hosts to something that outnumbers us 10 to 1. It's crazy when you
start to think of it that way. And there's this idea that when we talk about the microbiome,
we're really talking about the gut bacteria, but really it applies to everything that's on our skin
and our hair, like our biggest organ,
obviously our skin, right?
And the ecosystems really vary tremendously.
So even on your skin,
the bacteria that live in your nasolabial folds
close to the nose and mouth
are completely different to the bacteria
that live on your cheekbones a couple inches away
on the same part of your face.
So it is the microbes from the gut to the vaginal milieu,
to the lungs, to the mouth, to again, just a couple of inches away on the skin are all
completely different based on the differences in moisture and oxygen content and sweat glands and
all sorts of things. So pretty fascinating, the different landscapes. And really the idea is that most of
these microorganisms are not foe, they're a friend or they're kind of like neutral, right? Yes,
exactly. And how did you first become interested in this? So my area of expertise or interest is
inflammatory bowel disease, Crohn's disease and ulcerative colitis. And those diseases, Crohn's,
which is sort of the prototypical inflammatory bowel disease, was described by doctors Crohn, Oppenheimer, and Ginsberg in the
1930s at Mount Sinai Hospital, where I did my GI training. And we still, almost 100 years later,
just a little short of 100 years later, we're not really that much closer to figuring out
what caused these diseases. Like most autoimmune diseases, the medical community, it's sort of like, well, you just have them. There's a genetic predisposition,
but they're not really genetic diseases. So I was seeing a lot of these patients and I,
like a lot of other people in this area, started noticing that many of them had this common thread
of frequent antibiotic use. So I started asking and people would say, yeah, well,
I was on a bunch of antibiotics for strep throat, but that was decades ago.
Or I took tetracycine for acne in my teens, but what does that have to do with me having
colitis now or Crohn's now in my thirties?
And then there was an article, a meta-analysis, look at a compilation of many different studies
from Mount Sinai that came out and actually showed that antibiotic use, interestingly,
the two antibiotics that we use to treat these diseases
were main risk factors for developing them.
So I just started to have this really uncomfortable feeling
like we're creating disease and not realizing it.
And we really have to let people know.
I would see patients coming in
and they tell me they've been on antibiotics for acne
for three or four years. And lo and behold, now they were developing GI symptoms. And there didn't seem to
be a really clear connection between those things in the minds of the people who were experiencing
it and certainly not in the minds of the doctors who were prescribing. And I'd been one of those
doctors up until very recently. So I felt this very strong urge to spread the word a little bit. And unlike
my first book, Gut Bliss, which probably 90% of the stuff in the book I knew and was just my daily
experience seeing patients with GI problems and very little research, the microbiome solution was
sort of the opposite. I learned so much writing this book. I had this basic idea that we were on
the wrong path, that we, again, were thinking of our microbes as foes rather than friends,
but I had no idea how much of the wrong path we were on until I really started researching it.
Interesting. So let's explain maybe or explore a little bit about the function of a healthy
microbiome and what kind of biological functions it helps regulate and
in terms of like keeping us healthy or leading us astray from health.
So you talked about us being host to the microbes. If you think of our body as a factory and all
these different things have to happen, the kidneys have to filter urine, the heart has to pump,
the lungs have to swap carbon dioxide for oxygen. The digestive tract has to break down
food into its constituent parts of protein and fat and carbohydrate, and then absorb them through
the lining and carry them to the different organs for energy. All that stuff has to be done by
something, someone, and those something, someones are microbes. So they are sort of the worker bees
for the factory that help all these processes
keep running smoothly, not just in the gut. Of course, that's where we, as you said,
that's where the majority of the microbes are, but in all kinds of different areas too.
So if we think about something like energy for cells, energy for cells in our digestive tract,
colonocytes, what do they use for energy? They use short chain fatty acids. Where do the short
chain fatty acids come from? They're byproducts of the microbes, break them down
and provide the short chain. Yes, exactly. Producing vitamins, there are a whole bunch
of essential vitamins that our bodies can't make on their own that gut bacteria involved in
methylation processes to create these vitamins. They clear toxins from our body, cancer causing toxins, some less aggressive toxins.
So there are all these vital functions.
I mean, really, you know, at its core,
essentially what you're saying is sort of maintaining
this healthy gut flora and, you know, microbial ecology
that, you know, propagates all over your body
is absolutely essential to maximizing health and
preventing disease, et cetera. But this is sort of at odds with kind of the last several decades of
medicine and this kind of over-sanitization of not only our environments, but our bodies, right?
And with that, I would assume comes either in ignorance of the important functions of the microbiome
or just a sense of it not being essential or important. Is that fair to say?
That's absolutely fair. So in the 1950s, a researcher from the London School of Tropical
Medicine and Hygiene named David Strawn was tasked with trying to figure out why they were seeing so
much eczema and hay fever, which are sort of classic autoimmune diseases in post-industrial London. Everybody had left the
farm for the factory and they were seeing this sort of epidemic. And he found two really interesting,
it was like a 27-year study looking at thousands of kids and their families. And he found two
really interesting things. Number one, kids who lived in large households with lots of siblings had far fewer,
lower rates essentially of hay fever and eczema because they were sort of being immunized by
their siblings who were sneezing on them, coughing on them, dirtying them up in general,
which we now know is a good thing. And children who came from more affluent households where
there were higher standards of hygiene, were bathing all the time, washing all the time, things were super clean, had also higher rates of these things. So it was good to be in a large litter,
if you will, with lots of litter mates. And it was not good to be too wealthy and too clean.
And at that time, I'm not suggesting that people of higher socioeconomic status are cleaner in
general, but that was a phenomenon in post-industrial London, is that higher socioeconomic status are cleaner in general, but that was a phenomenon in post-industrial London is that higher socioeconomic households of more means had more access to these sort of newer at the time hygienic modalities.
They had more showers and baths and so on.
So that was the beginning.
for something that's called a hygiene hypothesis, which basically says that our immune system
needs exposure to germs, to bacteria for training
so that it can recognize and distinguish
between friend and foe.
And when that doesn't happen,
as was what was happening in post-industrial London,
when people were starting to be cleaner,
is that the immune system gets confused
and then it starts to react to its own body.
So in the case of the diseases I see,
Crohn's and ulcerative colitis,
the body starts to react to the gut tissue
and creates ulcers and inflammation.
Right, they're autoimmune diseases.
Autoimmune.
In the case of arthritis, it's a joint.
Psoriasis and eczema, it's a skin.
So there's a direct correlation
between autoimmune diseases
and the level of hygiene and sanitation as countries get
more industrialized, more developed, and the level of sanitation and the use of things like
hand sanitizers and antibiotics and so on, fluoride, chlorine in the water, as that increases,
the rate of autoimmune diseases start to increase. And we're seeing this in India and the Middle East.
And it's a real problem because again, we have to figure out, I mean, it's great chlorination of water helped to
eradicate cholera outbreaks and so on. So it's sort of a tough situation. You don't want people
drinking dirty water and coming down with outbreaks of cholera, but at the same time,
we've super sanitized the water. Now it's full of chlorine and chemicals. And again, it's one of
these contributors to autoimmune disease. So there is a balance there between being safe
and not having large numbers of people exposed
to potentially harmful microbes
and just super sanitizing everything and creating disease.
Right, yeah, it's like the pendulum has swung too far.
I mean, certainly you want a sanitary situation
in the event of like an acute infection, right?
You want like the surgery room,
you want the instruments to be very sanitary,
but we've kind of taken that idea
and run too far with it, right?
Like our Purell culture is out of control.
And the idea behind that is,
oh, if you wanna not get sick,
you want a germ-free environment.
But basically it turns out it's the opposite. the idea behind that is, oh, if you want to not get sick, you want a germ-free environment. But
basically, it turns out it's the opposite. Like that kind of low-grade continuous exposure to
all sorts of, maybe pathogens is too extreme a word, but just the general environment in which
we live allows our immune system to respond and kind of do its push-ups so that it's prepared for
when the day comes when you have that kind of overexposure
to something that might make you sick
so that your system can do what it needs to do.
That's exactly right.
Yeah, cool.
So if we track it through kind of like, you know,
the lifespan of a typical individual,
starting at, you know, in utero,
so coming through the vaginal canal,
being born is extremely important.
You get that, like, you get covered in all of these microorganisms, you get a big gulp of it, I suppose, as you're
born. And when you have a C-section, you're denied that kind of like rite of passage of being born
that kind of coats you and stuff that you need to be as sort of base and elementary about it as
possible that will serve in kind of seeding your microbiome for,
you know, better health as you mature. And Rich, you know, I went through medical school
and good places. I was at Columbia for medical school residency. I trained at Mount Sinai. I had
never heard this. I heard this for the first time at a center for mind, body medicines,
food as medicine course. And I couldn't believe it. I mean, my jaw dropped. I was like, what?
This is an important thing going through the vaginal canal. And I thought, how could, I mean, people, that's something that people are much more aware of now, but I thought-
What percentage of people get C-sections? It's really-
It's now almost one in three in the US. And granted, some of those are necessary,
breech births and the mother's in distress or the baby's in distress, but the vast majority,
the vast majority are done because of convenience.
And people don't know, OBGYNs don't know.
When I talk to some of my OBGYN colleagues about this,
they look at me like I have two heads.
They're like, what?
So we, again, you know, most physicians
and most people one could argue it's slowly changing,
think that the cleaner you are, the better.
And as you said, there's some good times to be clean. If you're having your leg amputated, you're having your
appendix out or something, it's good to have a clean environment. You don't want to rub dirt
in the open wound. Speaking of rubbing dirt in the open wound, there is a fantastic way to rewild
a baby who has been born by C-section. And that's just to take a little gauze swab and soak it. And
obviously it doesn't have to be sterile
because we're soaking it in microbes
and just sort of soak up the vaginal juices of the mother
and then wipe the baby down with it after
to sort of try and approximate
passing through the vaginal canal.
It's such a simple, low-tech way of doing it.
But instead, what do we do?
You know, we yank the babies out after C-section
and then we sort of sterilize them.
We wipe them down with all this bactericidal stuff.
So we really have to rethink what it means to be human
and to be healthy and our relationship with microbes.
And this idea that the cleaner, the more sterile,
the more chemicals we have in our environment,
the healthier we are.
If you go down that road,
you will end up in a really bad place
as far as your health is concerned.
Okay, so we got our footing,
but we can't talk about the microbiome
without talking about prebiotics and probiotics, right?
But what exactly are these?
And do any of them actually make a difference or is this just all marketing hype?
Well, to help cut through the confusion, I sat down with Ara Katz and Raja Durr,
the co-founders of microbiome company Seed. Let's define the term probiotic.
So probiotics are live microorganisms which confer a health benefit on the host.
There's a couple of key definitions that are sub-definitions within that. The first is,
if it has not been tested in a human population for the claim that's being made, then it is not
a probiotic. So that means double-blind, randomized, placebo-controlled studies
scientifically looking to show that that organism has a probiotic effect.
One popular trick that we see a lot of commercial interests and corporations use
is they'll test a probiotic strain for one very specific or small or niche outcome,
like let's say, I don't know, antibiotic-associated diarrhea, for example.
But then they'll position the product as if it has utility for a
wide audience preventively or proactively. And there's just no information to suggest that.
So I think that we really want to see companies and researchers. This isn't even just a company's
thing. This is the term in the lexicon is used and thrown around to basically capture any organism which could have a benefit
or that's theoretically could have a benefit
or even just anything that's been fermented.
That's how broad this category has gone
where all fermented foods
are now being positioned as probiotic too.
Or lysates, right?
Like in skincare.
Yeah, so lysates are organisms that are heat killed
and then ripped open
and just the cell
wall is being used and applied. And those are called probiotic all the time. So it's very,
very important that the definition include the organisms being live, being delivered in the
appropriate dosages and having testing done on the indication in the population that it's being
marketed to. Yeah. I mean, it goes back again a little bit to the fact that the term itself is
used so loosely, not just on products, but also from a dietary perspective, like Raja mentioned,
like fermented foods and beverages. A lot of people just say, I'll drink a kombucha and I
don't need to take a probiotic. And I think that's partially just because the term itself has become
so diluted. Meanwhile, it's an entire area of inquiry within microbiome science.
And I think it's especially important too, because in the future, particularly as we look at areas
like fertility, the treatment of pathology and disease, the way we're going to metabolize
chemotherapy, the way we're going to think about vaginal health and preterm birth in the developing
world. I mean, probiotics have such potential to make a huge,
huge impact. And not just because of their health impact, but also from the affordability compared
to other medications, the lack of side effects compared to other medications or other complications.
We really feel that they're such an important part of our work. It's not just the science and
to create what we believe are some of the most sophisticated and effective products, but to really steward the translation of it and to really be able to call
out, you know, evangelism over evidence. You know, if everyone thinks that every tortilla chip,
you can just throw probiotics on, or your shampoo is just every, you know, just throw some microbes
in and it's a probiotic, obviously those things are not going to get taken as seriously. And
actually as a result, you know, when we've seen areas of science
where public perception shapes and hinders funding
and the ability to move some of these areas forward.
And so I think that for us,
like part of really big, important part of the mission.
So let's dispel misconceptions
around kind of what the typical sort of thought pattern is or behaviors are around
like the products that are currently available. So fermented foods definitionally are a very
different category than a probiotic. It would be considered a prebiotic.
Unless it's been shown to modulate the microbiome, it's not even a prebiotic.
It is just a fermented food. That is the category. And I'll give you an example. So a study was done
that did a deep metagenomic sequencing on a kimchi product. And of the 900 or so different strains that were found from the lots that were tested, only four are believed to have probiotic potential or were advanced into showing that it has probiotic potential.
come because the bacteria actually pre-digests a lot of the components and roughage that for some people are very difficult to handle. And they're fibrous.
They're fibrous and they're delicious. So this is not a PSA against fermented foods. We think
they're great and certainly have been used in ancestral populations for the purposes of food
preservation for a very, very long time. If I didn't have a refrigerator, my diet would be 70%
fermented foods. But the fermentation process itself is bacterial growth, right? Are these not
like sort of positive organisms that we want to introduce into our microbiome?
They don't stay there very long. They don't colonize. In fact, I would say more important
than the organisms that are used for fermentation are organic acids and fermentation byproducts and some of those metabolites that we
believe could be used by the human body to have a health benefit. But these studies are few and far
between. And so the research is really, really lacking. And actually the way Raj is describing
it is like a really important distinction, just because you were talking about how to like break
this down for like the general consumer looking at probiotics. It's really
important to think about that a microbe could be taken so you could actually consume bacteria
to have a specific effect that it has been studied for, which is very different than the way
probiotics are currently marketed, which is this idea that it's good bacteria, that you have some
good bacteria, but that you're missing some in good bacteria, that you have some good bacteria,
but that you're missing some in your gut and that you take a probiotic and it puts it back,
which is two very different ways of thinking about them. But the scientific definition is
the former, which is that you consume bacteria that has been demonstrated to have an effect on
the human body. And that's the difference, which is where the marketing is right now,
is this notion that you kind of like restore or put the good stuff back versus that it has an
effect in the body. And that by taking it continuously, because probiotics, Raju was
talking about colonization, which is another good myth to bust. And that there's a lot of people who
think that a probiotic must colonize in order to quote unquote work. But in fact, probiotics are
transient, which means that they do their work kind of on the road,
on their way through your body.
And so that's an important distinction
that I think a lot of people kind of don't understand.
Yeah.
What is the impact in your mind
of the decreasing diversity of our biosphere in general,
through our soil,
through our increasingly toxic environment,
the way we raise animals for food,
et cetera, all of these things playing into species extinction, all the way down to single
cell organisms and smaller and the like. How does this play into gut health and how we think about?
Yeah. I mean, well, one of the things that we are looking at from a seed perspective,
and we have a division of our company called Seed Labs, which is where we start to look at the way in which microbes could be a part of the solution.
So like honeybees are like a really awesome example.
Yeah, you guys are doing something amazing.
Yes.
This looks specifically at the impact on the honeybee gut of neonicotinoid pesticides.
But on the honeybees, I'll let Raja,
Raja can speak a little bit more about the science.
I'll start by answering your question.
Most people here would know or have heard of this phenomenon
called colony collapse disorder,
which is for unexplained reasons in the last 10 years or so,
mass, mass communities of honeybees
are just dying off indiscriminately.
We don't know why the populations are-
Do we really not know why?
We're starting, so that's the hook.
The answer is the two leading causes
or the three leading causes are habitat loss.
And that doesn't just mean the wild is being less wild.
It means monoculture of plants too.
So the streamlining of agriculture-
The lack of diversity that exists now in these places.
The second is a pathogen called fallible root disease. It's a nasty pathogen that
kills honeybee babies in the first three days of life. And the third are neonicotinoid pesticides,
which the EU had banned last year, but the US still allows. And they're called because they
operate in the nicotinoid and nicotinic receptor sites in the brain, which etymologically are related to
what's found in the tobacco plant. So much so that if you put a suspension of water with glucose and
water with neonicotinoid pesticides, honeybees will pick the pesticide water over sugar water.
And that's a completely crazy finding. And so what it does is it slowly disorients bees.
And when it compounds in aggregates in their bodies,
they just get so disoriented that they forget where their hive is.
So this thesis was when these environmental changes happen,
the first thing that changes is the microbiome.
And so there's a lot of sequencing work that was done.
Our chief scientists and our first seed fellow are the ones that are leading these field trials.
And we actually found that by reintroducing three probiotic organisms back into the bee gut, you can A, detoxify neonicotinoid pesticides before they're absorbed into the body.
So it binds and releases these common pesticides and dampens or protects the immune response as a result of it. But perhaps more impressively in early, early bee communities,
you know, so bees are becoming something like Japan right now, where there's a lot of old bees,
but very few young bees. And they dramatically and significantly protect these young bees from crowding out this pathogen, which is so powerful that if it's found, beekeepers are supposed to go and burn and scorched earth the entire hive to make sure that it doesn't…
Within days.
Within days of its discovery.
Because it can spread very quickly.
Even one spore can spread and result in an epidemic in a neighboring hive.
So we published about this.
The first paper came out in Scientific Reports in Nature using a Drosophila model.
That's a model organism for honeybee populations. Field trials just concluded last year. We made
our announcement at the end of last year and we patented this, but then opened up royalty-free,
the patent to honeybee farmers around the world. And then we hope at some point this year to roll
out biopatties and biosprays that are based off these species after our UC Davis trial commences.
And so this is a large- scale field trial in almond farms,
which is kicking off in a couple of months.
Right, so essentially it's a probiotic factor.
Right now it's a patty.
It's like almost like it's like a pancake
that you put in the hive.
Okay, so they eat it in the hive
and that populates their gut flora
with something that helps them avoid the negative impacts of these nicotinamide.
Of nicotinoid pesticides and of the foul brood disease. So two out of the three leading causes
of colony collapse disorder. Right. And just for people that don't know, like paint the picture of
colony collapse disorder, you know, at its ultimate. Yeah. Bees are the most efficient pollinators that have or ever will be
discovered or invented. If we lose bee populations, we lose nearly every single
blooming crop or fruiting crop that you find. Maybe some in small quantities root vegetables
would persist, but a lot of the diversity that you see from above ground pollination are virtually gone. I mean, models that predict it say that
the supermarket, the fruits and vegetables aisles of the supermarket would be decreased by over 90%
if we lost so many bees. Yeah. I mean, the easiest way to say it is whatever you ate
for breakfast this morning probably won't be here. And there's also other implications like
cotton, for example, that have, of course, other implications for other industries and other uses. Right. So it really broadens the aperture
on the work that you're doing. This is not just, hey, you know, like we want to create a probiotic
to make people healthy. Like it's really an effort to address the declining biodiversity
of the planet at large and the implications or the
sort of applications of this science that you're developing are really limitless.
And I think also the applications of science that's really often stays kind of guarded,
you know, in academic institutions or for many reasons often doesn't make its way
to humans or for other applications that can be
immediately kind of put to use and to make an impact. So part of kind of the bridge we've built
and very proud of. Much more to come, of course, but first.
Okay. To ease back into all of this, I think it would be good to pull focus on the link between how we treat our bodies, what we choose to put into our bodies, and what we absorb into our
bodies, and how all of that impacts our gut, specifically our gut lining
and the permeability of that gut lining.
And of course, in turn, downstream,
what all of that means in terms of health and disease.
Our steward for this corner of microbial exploration
is my friend and podcast standout favorite, Dr. Zach Bush.
Truly one of the most interesting minds working today
to improve human and planetary health.
The first step is to kind of consider what is inflammation.
Inflammation is actually a normal biologic response to an injury.
The immune system lies throughout your body in different shapes and forms,
but some 60% of the volume of the immune system
and some 80% of the work done by the immune system is done in your gut lining.
And the concept of the gut is poorly defined
and poorly understood by the consumer as well as doctors,
but it really starts in your sinuses.
It is your barrier system between the outside world and what you breathe, the outside world and what you drink, eat, et cetera. This membrane is extremely interesting
to look at in its engineering. It's such an interesting under-engineering event, this gut
membrane. It is the largest surface area we have exposure to the outside world. It's two tennis
courts and surface area versus only the 1.8 meters or so of your skin surface area.
So you've got this massive surface area
and the only covering of that surface
is a cellophane-like layer of epithelial cells
of the gut and sinuses and the rest
that is about 50 microns in diameter.
It's like one cell thick, right?
One cell thick, which is,
if you pluck a human hair and cut that in half,
that's the thickness of your gut membrane.
So you have this half a human hair cellophane layer that protects you from every bite of food you eat, every chemical that comes into your food chain, etc.
So it seems like horrible engineering.
But on the flip side, it tells us something about what we're engineered for.
We need to be inherently in contact with the ecosystem and nature around us.
And if we start to tinker and screw with that nature,
that membrane is going to become very vulnerable and start to leak,
and our immune system sits right behind that.
There have been some papers coming out in the mid-2000s in the cancer world
that were starting to say that the bacteria in your gut were predicting which cancers you would get.
If you're missing these bacteria, you would get prostate cancer.
If you had these bacteria, you would get breast cancer.
That was so radically bizarre and out there for our current model,
even to this day, as to how cancer worked.
But now you fast forward 8, 10 years,
and now there's tens of thousands of articles
that are showing that genomically,
the bacterial genome is way more important
in determining cancer than the human genome.
And so this reality was hitting.
And so in 2012, when we discovered these chemicals that look a little like chemotherapy
that are made by bacteria and fungi in the soil,
it suddenly closed the loop of, oh my gosh,
what if the bacteria in our gut is doing the same thing?
What if the bacteria and the fungi are actually our best source of medicine for everything?
And so that's the direction we were going.
But as soon as we put this into petri dishes with cancer cells and beyond,
we suddenly realized, no, no, no, there's something way deeper happening
with this information stream coming out of bacteria and fungi.
And it was my chief science officer, Dr. John Gilday,
he's a PhD in genetics and cell biology.
And he was the first to realize that we had put our finger on the glyphosate
toxicity issue is that this communication network from the bacteria and fungi was actually supporting
the protein structure in our gut lining and so it turns out that the gut is held together these
trillions of cells that make up that cellophane layer by tight junctions these are velcro-like
proteins that hold one microscopic cell to the next
to create this coherent carpet of two tennis courts.
And he had recognized before this and a number of other labs had started to publish
that glyphosate seemed to increase the permeability of this membrane.
And nobody was really sure why yet.
That chemical was never patented as a weed killer.
It's only been patented as an antibiotic and then it was repatented as an anti-parasite. Yeah, that was the original purpose of it, correct?
Well, it's the mechanism. It's the mechanism they recognized. And so the mechanism of glyphosate is
to go in and block enzymes in soil bacteria, fungi, and plants. And that enzyme pathway is
called the shikimate pathway. And it's important because it makes a number of the essential amino acids.
Our bodies are composed of over 200,000 proteins,
but we only have 20,000 genes.
We have this pathetically dumb genome
in the sense that a flea has 30,000 genes.
So you're two-thirds as complicated as a flea at the gene level,
which I find reassuring if I can't find my keys or I'm having a bad day, I'm like, hey, I'm two-thirds as complicated as a flea at the gene level, which I find reassuring if I can't find my keys or I'm having a bad day,
I'm like, hey, I'm two-thirds as complicated as a flea.
What are my real expectations here?
But the reality is we're very simple at the genetic level
and yet we make over 200,000 proteins from a bunch of amino acids.
There's 26 amino acids that will build those 200,000 proteins.
Those 26 amino acids are just like the 26 letters of the English alphabet
in the sense that the vast majority of those are useful, but not critical. But the vowels,
these eight vowels in our language, if you subtract one of those vowels, you can affect
hundreds of thousands of words. The vowels in the amino acid vocabulary here are the essential
amino acids, which if you start to tweak any of those nine,
you're going to start to lose tens of thousands of protein structures in their functionality and
in their unique form. And so those essential amino acids, not only are they important like the
fowls, they also can't be made by the human body. So those nine have to come from your food chain
somewhere. And it turns out that they are only made by the bacteria, the fungi and the plants.
You don't have a shikimate pathway in your human cells.
And so these essential amino acids are blocked through the shikimate pathway by Roundup.
And so imagine treating a food chain with a chemical that blocks the ability of these
plants to make the building blocks for a healthy human body.
Forget about a human, it's a dog, a cat, any mammal,
any complex multicellular biology is gonna depend
on these essential amino acids.
And we literally in the last 15 years subtracted out
the ability to build the body
because we changed the 26 letters.
Zach spoke about inflammation,
but it's still kind of an elusive, confusing subject matter.
I want to better understand it.
What does it mean?
Why is it so important?
And what is the difference between acute inflammation, like what happens when you suffer a physical injury, and chronic inflammation,
a physical injury, and chronic inflammation, which is this persistent state that can be and often is induced by things like diet and lifestyle. And on the subject of diet, how exactly does diet itself
affect the gut bacteria and in turn the immune system? And how does all of this relate to
inflammation? Well, here's the wonderful Dr. Rhonda Patrick, a PhD in biomedical sciences
and an expert in nutrition, metabolism, and aging to break it all down in understandable terms.
I don't think a lot of people really do understand exactly what inflammation is. So
what inflammation is referring to is it's a consequence of your immune system being activated.
And once your immune system is activated, they start firing off all these chemical weapons
that are called inflammatory cytokines. And these inflammatory cytokines are damaged cells inside your body, damaged DNA inside your body, damage pretty much everything inside of your cells.
But what's confusing to me about this is that essentially inflammation is an immune system response to something wrong in your body, right?
It's your body's way of saying, let's send the ambulance out to fix whatever's wrong.
ambulance out to fix whatever's wrong, whether you cut your finger or you sprained your knee,
your immune system gets activated and mobilized to then kind of visit that either localized area or in general, if it's stress-related or something like that, I suppose. But the idea behind it is
to fix the problem, right? So on some level, doesn't it make sense that some inflammation
is good because it's your body reacting to a problem in order to fix it? Absolutely. One of the major downstream effects of having these inflammatory
cytokines and molecules being produced is they recruit other repair factors. It increases genes
in your body that then start to repair damage, fix things. So it's an essential part of repair and recovery system.
However, there is a difference between acute inflammation and chronic inflammation.
Acute inflammation would be something like your four-hour marathon run, you know, or your two-hour
training session when you're, you know, running and you're causing inflammation there, you know, inflammation occurs after intense exercise. That's good because you,
the inflammation signals to various, you know, genes in your body that turn on all these
antioxidant genes. They turn on genes that repair muscle damage. They turn on all these good. So
it's like a stress response sort of mechanism where you're turning on all the good stuff,
but you need the bad stuff to turn them on. So it's kind of like here, here's a little bit,
little dose of this bad stuff to turn on the good stuff. Right. So there's, there's sort of the,
you know, exercise induced oxidative stress that triggers the immune system response versus
somebody who's just smoking cigarettes all day long. And that's causing some kind of
internal damage in a number of ways. that's creating just a chronic immune system response that is literally just burning
your engine out, right? Yeah, exactly. You know, the chronic smoking or in actually the major,
major source of all inflammation in the body is actually the gut. So you're talking about people
that are eating unhealthy, they're not getting enough fiber and, you know, they're doing damage in the gut.
And that's causing a lot of immune cells to become active chronically every day.
So in your experience, what are the foods that create the worst sort of inflammatory response?
Well, I think it's actually more a lack of foods.
Lack of the good foods. Than eating bad foods. Because your gut hosts
the largest number of immune cells in the body. So that most of the immune cells in your body are
found in your gut. You've got them in your spleen, your thymus, and you're obviously in your blood
stream. But the largest number of them are actually in your gut. The reason for that is because,
you know, your gut is exposed to the external environment, you know, the food you eat, your gut sees it. And
that can be pretty lethal if you get some bad, nasty stuff. So your immune system has to be
there and ready to react to that, right? To make sure that you stay alive long enough to reproduce
and pass on your genes. So in addition to immune cells being in your gut,
you also have a lot of bacteria in your gut,
tons and tons of bacteria.
And there's people that sort of debate
how many bacteria, you know,
there's a hundred trillion I've seen references for,
and I haven't dug into like, is it accurate or not?
I mean, it's a lot.
It's a lot of freaking bacteria.
Okay.
10 times more microorganism than human.
Right.
What gets thrown around.
And people, you know, that just can't, it irks them to hear people say that.
And, you know, I don't know.
I've seen references that show that there are 100 trillion bacteria cells in your colon, in the, you know, distal part of your gut.
And those bacteria play a very, very important role in regulating your immune system so
you have to feed those bacteria the right types of foods in order for them you can kind of think
of them as little chemical producing factories actually because when you feed them the right
type of food which happens to be fiber fiber gets digested by this bacteria in your gut, in your colon specifically, and it produces a bunch of different chemical products called short-chain fatty acids, which are little signaling molecules that tell your immune cells in your gut to become a certain type of immune cell.
tell them, okay, become this type of immune cell that is involved in preventing autoimmune diseases, making sure your immune system doesn't get so ramped up that it starts to just attack everything,
including your own organs. That's very important. And the type of immune cell that does it is called
T-regulatory cells. And T-regulatory cells become T-regulatory cells based on these bacteria in your gut that are producing these little products that
tell it to do it. So, you know, it's very important that your gut gets fiber. And if you look at like
hunter-gatherer societies, like in Tanzania, they get around 200 grams of fiber a day.
And compared to the typical American diet, which is like maybe 15 grams of fiber, that's a huge difference.
Yeah, it's crazy.
And it's funny because in our culture, we're all obsessed with protein.
You know, we're all walking around thinking that we might be suffering from a protein deficiency.
The truth is almost everyone is suffering from a fiber deficiency.
And if we flip those words around, I think we'd all be better off.
If people were like, did you get your fiber today?
Did you get your fiber today?
I mean, we would be in a different place.
I am so with you on that as my new motto.
Did you get your fiber today?
Because it is so incredibly important.
And a good way to think about it for some people that don't really have a grasp on why fiber is so important.
fiber is so important. When you eat protein, when you eat fat, when you're eating these other sources of energy, even carbohydrates that are not, like refined carbohydrates that don't have
fiber, those things all get metabolized in the upper part of your intestine. They don't make
it to the colon where all your bacteria are, probiotic bacteria, good bacteria, the commensal
bacteria that are regulating the immune system,
like I just mentioned.
So what happens is because you're getting protein and fat and refined carbs,
those bacteria start to get hungry.
Oh, what am I going to eat?
I don't get the protein.
I don't get the fat.
So they actually start to eat what's called mucin,
which is what it's essentially the gut barrier. The gut barrier is made up of something called mucin, which is what it's essentially the gut barrier. The gut barrier
is made up of something called mucin and it's mucin because it's kind of mucusy, kind of slippery.
And it separates the immune cells from the bacteria in your gut, separates the food,
you know, from, from, you know, the internal part of your gut. So the gut barrier starts to get
broken down by your own probiotic bacteria that are good for you because they're hungry, because you've been starving them of fiber.
Right.
They're so far down the conveyor belt that they're forced to basically cannibalize themselves.
Is that what causes leaky gut and all these sorts of issues where people are having all these digestive disorders?
Yes.
It causes a plethora of disorders,
you know, leaky gut, it affects your immune system because now your immune system's all out of whack.
Your gut barrier starts to break down. The immune cells start to see the bacteria.
What do immune cells do when they see bacteria? They fire away. They're going to fire all that
chemical warfare I was talking about. It creates more inflammation. You start to release, you know, these things into your bloodstream, causes activation of, you know, immune cells in your bloodstream that can affect your cholesterol.
And, you know, the lack of fiber, it's kind of like, I think it's like this insidious kind of damage that people just, they don't realize that.
It's like, oh, they may notice they may be constipated a little or,
you know, it's just, but they don't realize to what magnitude this sort of effect can have when
it starts to compound over the years. Cause it's really changing your immune system. It's causing
inflammation. It's aging you. It's going to accelerate the way you age on every level.
And, you know, it can lead to these diseases,
these autoimmune related diseases,
these diseases of aging, you know,
all sorts of problems start to happen.
And I really think that you nailed it
when there's a simple solution.
That simple solution is you need to focus on getting fiber.
I mean, I actually, that is my main obsession.
It's fiber.
And then I supplement some protein and fat and all that with
fiber. Fiber is at the top of the food pyramid. It is the top. That's so interesting. And it's
all different types of fiber because you've got seeds, legumes, you've oats, vegetables,
fruits. They all have different types of fiber. And what we're learning is that there are different types of fiber that are having different effects.
You know, so they're feeding different types of bacteria and they're producing those bacteria are producing different types of chemical byproducts, which then do X, Y or Z.
You know, so I mentioned the T regulatory cells, which are important for preventing autoimmune disease.
They also make something called natural T killer cells, which are the most important type of immune cell that kills cancer cells in your body.
And we're constantly getting little cancer cells that arise and our immune system takes care of it.
Right. number, you know, when we get more cancer cells than our immune system can handle, A, because our immune system's weak, because we're not making enough natural T-killer cells or something like
that, then it starts to get to the point where the cancer cells start to survive. They make it.
Gotcha. All right, good. So let's get back to inflammation in general. So we kind of have a
working understanding of inflammation now. And what, in your opinion,
are the leading kind of causes of inflammation and what are the ways that we can avoid these?
Like what are some daily habits that we can kind of undercut this chronic immune response that is
making us sick? So as I mentioned, I think one of the major drivers of inflammation is gut health and lack of fiber.
That's really one of the major things.
So making sure you're eating enough vegetables, getting enough nuts, seeds, plants, legumes.
I think that's very, very important for controlling inflammation.
And it's been shown that the gut is a major regulator of inflammation. So
that's number one, that's easy, increase your intake of vegetables. The other easy actionable
for controlling inflammation is, believe it or not, actually causing acute inflammation through
exercise. Because it is a hormetic,
it's called a hormetic type of stress
where you're inducing stress.
You're then activating all these anti-inflammatory genes.
And this has been shown like about an hour after exercise,
you have a really high elevation
of these pro-inflammatory mediators.
And then immediately after that,
like a couple hours later,
is a very strong anti-inflammatory response.
So exercise is a really good way
to boost the anti-inflammatory processes,
the natural ones in your body.
Right, so it's like pushups for your immune system
as well as for your muscles.
Exactly, it really is, it really is.
And the other one that I've really been obsessed with recently is curcumin.
And curcumin is one of the curcuminoids that is found in turmeric.
Right.
It's a root.
It's a root.
What is the difference between that and turmeric?
Well, turmeric has many different curcuminoids in them, including curcumin.
I like to get... Now, I mentioned the curcumin specifically because the curcumin is a very,
very potent anti-inflammatory, but it doesn't work the way people may be thinking NSAIDs or
anti-inflammatory drugs. It works very differently because it's actually kind of like
exercise. It's a hormetic stress. It's actually slightly toxic to us. And because it's slightly
toxic to us, it turns on all these really potent anti-inflammatory genes and it inhibits the
pro-inflammatory ones as well. So curcumin is really, really good at
doing that. But I want to just differentiate the difference between curcumin and turmeric.
Turmeric is also very good because it's the source of curcumin. Curcumin's not as concentrated if
you're taking the full turmeric, which you can buy, you know, you can buy the root and have it
fresh, or you can buy powder and cook with it.
You know, curries and stuff often have turmeric in it.
Or you can make tea.
You can do lots of things with it.
But what's really cool about turmeric is that in addition to curcumin, it has something in it called aromatic tumerone,
which is another curcuminoid that has a completely different function than curcumin.
has a completely different function than curcumin. The aromatic turmeric has been shown in studies to actually, in the brain, increase neural stem cells. So stem cells in the brain to make more
neurons. So it actually increases neural stem cells to what's called differentiate, which just
means these stem cells become neurons. So it increased, dramatically increased the number of neurons in little mice brains.
All right. So back to inflammation. So here we have increase your fiber. We have exercise. We
have curcumin. Yes. And then beyond that, let's talk about sleep and other stress reduction techniques like meditation and the impact of that on reducing chronic inflammation.
Yes, I was just going there.
Oh, you were? we're on, humans are on a, you know, a 24 hour
light or day, night, dark cycle where we're in the day when it's light out, we're active,
you know, we're working, we're exercising, we're thinking, we're, you know, metabolically active.
At night when it's dark, typically we're, you know, resting, sleeping. It's when we're repairing a lot of damage, things like that.
But what is so interesting is that bright light exposure, early bright light exposure, is so incredibly important for setting your biological clock.
It's like an anchor to set it so that it knows, okay, this is day.
This is when day starts. And so this internal clock that you have regulates 20, like 20%,
no, 15, 20% of your entire genome.
Many of those genes are involved in metabolism, inflammation.
Wow, that's a trip.
Tons.
And I mean, it's completely regulated on just when, you know,
the amount of light you're exposed to, when you're exposed to it,
and when it's dark.
It's like this clock.
the amount of light you're exposed to when you're exposed to it and when it's dark it's like this clock and so um recently i came across a study that showed when humans were exposed to really
really bright light uh it was 10 000 lux which is like the sun when they're exposed to it starting
early for about seven hours that was able to reduce cortisol levels, which is a stress hormone
cortisol by up to 25% during the next day, during its peak phase. Wow. 25%. So cortisol-
So translation, you need to be outside and exposed to the sun?
You need to be exposed to light. As opposed to sitting in your cubicle?
Yes. That's the translation. And just cortisol is,
I mean, it causes massive inflammation.
It's one of those stress hormones
that activates almost every gene in the body
that increases your immune cells to go fire, fire, fire.
Cortisol does that.
I mean, there's a reason it does that.
It's a stress response.
But if you are not being exposed to bright light
because you live somewhere and it's
dark in your house or your apartment, or you work a job where, you know, you're just not able to be
exposed to the light, it really can have detrimental effects on health. And, you know, we're talking
about inflammation here that that's at the, at the molecular level, that's what's going on. But
you know, it has a lot of effects on your ability to lose weight, to gain muscle mass, your mood, brain function, memory, learning, you know, all these things.
I mean, tons and tons of studies have shown, you know, cortisol, you know, decreases muscle mass.
It actually causes your muscles to atrophy, causes your brain to atrophy.
And this has all been shown experimentally.
Wow, that's amazing.
So, for the average person, though, most people are not able to be out in direct sunlight for seven hours a day, right?
So is there like a manageable solution for the average person?
Well, I do know that in terms of just setting the biological clock, being exposed to seven hours a day, that specifically was referring to the 25% reduction in cortisol.
I got you.
But just being exposed to bright light for like one to two hours is enough to set your biological clock correctly.
So that your metabolism is going the way it's supposed to, your inflammation is going the way it's designed.
You're able to break down fat.
You're able to build muscle mass. You're able to build muscle mass.
You're able to, you know, repair damage. All these things are being regulated by that biological
clock. So that one to two hours is key for that, which is like sort of like the minimal effect.
Right, right. It's such a crazy thing that the circadian rhythm is like even exists. I mean,
we walk around thinking that we've mastered nature, you know, and we forget that we're just primal creatures,
you know, living in this basically in the wild
and that we're still, you know,
we still have to fall prey to these things
beyond our control.
Okay, got it.
But how do things like stress and anxiety
play into all of this? For example,
is the trauma of this pandemic impacting our microbiome? And in closing, what exactly is the
best dietary approach to optimizing the microbiome and microbiome health? Hint, think plant diversity.
To close out today's deep dive, let's hear from my buddy,
Dr. Will Bulsiewicz, allotted gastroenterologist, gut health guru, and author of the must-read
Fiber Fueled. So many things to talk about. I think an interesting launching off point for this would be to kind of contextualize your work with what's going on currently in this pandemic era that we're all navigating through.
where this need to socially distance and sanitize our environments and kind of cloister ourselves from other human beings and restrict our exposure to a variety of environments with this paramount
need to increase our biodiversity, not just with the foods that we're eating, but with the environments that
we visit and the people that we interact with. These two things are at odds, this importance
of biodiversity, maximizing that with this need to kind of over-cleanse everything at the moment.
Yeah. I feel like gut health has never been as important as it is right now.
There is a direct connection between your gut microbiome and the strength of your immune system.
And for that reason, it becomes imperative that we take care and nurture a healthy gut microbiome. And the thing that sort of stands out to me, Rich, is yes, like excessive cleanliness,
sterilizing our environment, not being allowed to socialize and connect with other humans,
all those things are there. But to me, the most powerful influence is the stress.
The stress is something that is affecting all of us. I mean, we are living through a moment of
collective stress. We're all forced to take this on. There's no avoiding it. And that actually has an impact
on our gut microbiome. And it drives us to this place where we all sort of have different ways
that we cope and deal with that stress. And for many, it's to turn to unhealthy habits.
And that includes unhealthy food, and in many cases, alcohol. And we're compounding that stress.
And we're actually compounding the harm that it does to our gut microbiome.
Many people, when we think about gut health, we talk about food. And my book
discusses food in great detail.
The part of the book that I really wanted to elaborate on, and there just weren't enough pages for me to go there, is the effect of trauma.
The most challenging patients that I see as a gastroenterologist are the people who have been victims of physical, emotional, sexual, psychological trauma.
And it changes them and they don't realize the way that it affects their gut. And typically,
when they get to me, I'm the fifth or sixth doctor gastroenterologist that they've been to.
They're looking for solutions related to their gut microbiome or to their digestive issues.
They're looking for solutions related to their gut microbiome or to their digestive issues.
And what I discover after getting to know them and building that trust and that relationship is that the solution, the path, is actually not through food.
More so, it's actually about healing that trauma that is eating at them on a subconscious level.
And all of us are dealing with trauma
right now. And I feel like collectively, this is affecting our gut microbiome and it's at the
worst possible time. There's a direct line between gut health and our immune system. 70% of our
immune system lives in our gut. And when we have that emotional trauma that's affecting our gut, and then we also compound that by consuming alcohol or by eating junk food, we're putting ourselves into a vulnerable place are making connections between the gut microbiome and severe manifestations of COVID-19.
I mean, the doctors are all asking the questions, who are these people that get COVID-19?
And one of the first things that we discovered is it's the people that have diabetes and
high blood pressure and coronary artery disease and are overweight.
And then when you think about all of those things that I just mentioned, diabetes, heart disease, high blood pressure,
being overweight, they're all connected back to the microbiome. So essentially to ignore gut health
or to not have a optimally functioning microbiome is to put yourself at peril in terms of your
immune response to COVID or anything. I feel like this connection is critically important in the 21st century period. I mean,
look at the explosion of immune-mediated disease states. Look at celiac disease up 500% in the last
50 years. Look at inflammatory bowel disease that's absolutely exploding. And there's conditions, Rich, that
when I was a kid literally didn't exist, that I'm diagnosed in sometimes twice in the same day
that are immune mediated, things like eosinophilic esophagitis. And so independent of COVID,
I feel like recognizing this connection is really critically important because the problem is once
you trip that wire, once you cross that line, you may find yourself with one of these conditions that I don't believe
that there's necessarily a cure. I think that you can put yourself into remission.
But once you have one of these conditions, I think that you have it and it's there.
Mm-hmm. In terms of the protocols that we should all be undertaking to, you know, buttress our microbiome,
you're not necessarily advising a specific type of diet other than to say plant diversity is king.
Like this is the vector of all vectors for you, right? So it's not about, oh, it's vegan or,
I mean, it's a predominantly plant-based or plant-based diet, but the diversity of plants is really what's important in terms of making sure that you're doing everything you can in the interest of your microbiome.
Well, I think the critical piece to me...
The book is called Fiber Fueled, and that's because I feel like fiber has been this ignored superfood.
And part of it is that we've been thinking about it as this orange drink that
grandma stirs up so that she can poop. When in fact, it's incredible the connection between
fiber and our gut microbiome. Fiber doesn't just go in the mouth and shoot out the other end.
Soluble fiber is a specific sort of general category, which feeds the microbiome. This is their preferred
food. When we give this to them, they consume it. They grow stronger. Our microbes actually
multiply, grow stronger. And then they turn around and they reward us. And the way that
they reward us is by releasing short chain fatty acids.
And these short chain fatty acids have healing effects throughout the entire body. So, you know,
we've been emphasizing a little bit the immune system, short chain fatty acids,
optimize our immune system. There are studies that we could talk about if you want to connecting short chain fatty acids in terms of protection from respiratory viruses. They can have their effect in the lungs, on the immune system. Short-chain fatty acids
reverse leaky gut, which is dysbiosis. That is the root cause of these digestive issues that I
take care of on a daily basis. They directly prevent colon cancer. They lower our cholesterol.
They prevent and reverse insulin resistance, which is type 2 diabetes they travel throughout the entire body having their
healing effects we think that they can actually reverse coronary artery disease we think that
they can actually repair the blood-brain barrier for people that have brain fog they actually
travel into the brain through the blood-brain barrier and they have their effect they affect
our mood our our memory.
Believe it or not, we have studies that suggest that they prevent Alzheimer's disease.
These are incredibly powerful. And the way that you get them is through the consumption of fiber in your diet. And here's the problem. 97% of Americans are not getting an adequate amount
of fiber in their diet.
And that's creating issues for us.
Everybody's worried about their protein intake,
but they don't give a second thought to their fiber intake.
97% of people are fiber deficient.
I mean, that's a shocking statistic.
You know, and that's with both standards.
I mean, the expectation or the standard that we're holding
is 25 grams for women and 38 grams for men.
And the average American is somewhere
in the 15 to 18 gram range.
And Rich, let me ask you a question.
I'm just curious.
So I know you eat a very healthy diet.
If you had to estimate in a given week,
how many plants do you think you have in your diet?
Give me a general idea.
I mean, it's going to be higher than most, but it can't be more than, I mean, 30, 40.
Okay. And I would challenge the people listening at home right now, if you have to hit the pause
button, take a minute and think about how many plants you actually have in your diet. Okay?
So most Americans are definitely
less than 30. The majority are around 15 to 20. There are literally 300,000 edible plants on the
planet. The problem is that we've narrowed it down to the point where 75% of our diet is from
three of them. And we're ignoring this diversity. We've put pressure, unfortunately, on our farmers
where the farmer has no choice but to opt for high yield breeds of crops.
We are narrowing down the biodiversity within our diet through our food systems.
Right. If there's only one thing that you take away from this podcast listening to us
have this conversation today, this is what I want you guys to hear. The way that it works is this. Fiber is not just fiber.
There are millions, if not billions of types of fiber in nature. It's so incredibly complicated
from a chemistry perspective that we're not even capable of creating an estimate to how
many types of fiber there are.
But every single plant has its own unique types of fiber, multiple different types within that plant. Every single plant is going to have prebiotic fiber that feeds the microbiome.
This is their preferred food, these prebiotic fibers. And the key is that they are picky eaters. They're like us.
You have different food preferences than I do. Even though I'm sure that many people would label
us as having the same diet, you eat differently than I do. We have our own preferences.
And they do too. They have specific food preferences in terms of the different types
of fiber. To put it in perspective, take a black bean.
You give these microbes a black bean, and there are certain specific species that are going to
multiply and thrive, and they're going to be stronger and be more prepared to help you because
you just fed them. They're energized. But the opposite is true. You take that black bean away. You say, I'm going black bean free.
Those same microbes that were thriving because you were feeding them are starving.
Right. And they're not getting what they need. And so the point is we want as much diversity
as possible. And that's the critical piece. Eating as many different things as possible
and getting out of your comfort zone a little bit. And I think what you're saying essentially is that the more that you're in the practice of doing that,
it's almost like an insurance policy that you're taking out for your gut health. You're seeding
your gut with the biota that will then ultimately be able to grow and thrive the more that you're feeding it those types of plants?
Yeah. Every single plant has its own unique types of fiber. That's what I've been talking
about for the last few minutes. But there's so much more. Every single plant has vitamins,
minerals, phytochemicals. These are the unique chemicals that you will find in plant foods, exclusive to
plant foods. That's what phyto means. There's at least 8,000 of them. Very few of them have
we actually studied. An example of one is resveratrol. So you hear about resveratrol.
Resveratrol is capable of actually changing the microbiome by itself.
resveratrol is capable of actually changing the microbiome by itself.
David Sinclair in Lifespan talks about resveratrol and its benefits for healthy aging.
And this is just one example of one phytochemical that you'll find in these plants.
And the other thing, by the way, that's kind of interesting, most people don't realize this.
The plants have a microbiome of their own. Every single life on this planet either has a microbiome or is a part of the microbiome.
And depending on how you choose to zoom out, you could almost make the argument that us humans are
part of a larger microbiome in a way, right? Which is planetary health and the way that it all functions.
But these plants have their own microbiome. If you take an apple, for example, because we have a study that shows this, the apple has a microbiome that is there from literally the seed
through the flower and all the way through to the fruit. And that microbiome is dynamically evolving
and changing and helping this transformational process to occur.
And the apple has literally over a thousand species of microbes, more than us humans do.
And potentially a hundred million microbes. When you eat an apple, you're getting the fiber,
you're getting the phytochemicals, of which there are many, you're getting the vitamins and the
minerals, and you're even getting the microbiome that the apple contains. And so each plant
has a story like that. Each plant has something positive that it wants to bring
to your health. Every single one wants wants to bring to your health.
Every single one wants to bring something to your health.
Yeah. And what's interesting about the work that you do is that it's not about
reducing certain things. You're talking about what you're building. It's very additive.
This whole diversification of your diet is about building new things into your diet as opposed to focusing on what we're removing.
I feel like it's easily applicable, but conceptually extremely sound.
Like from my perspective, 50 years from now, this is still going to be the best way to eat.
To consume a broad variety of plants, to be as predominantly plant
based as possible. And I wrote the book, Rich, to meet people where they are. So when you say,
well, you're not rigidly adherent to any particular diet, I want people to be 90 to 100% plant based.
That's what we find in the blue zones. That's what I think from a nutritional
perspective is the highest quality diet. And I do think that when people get to be 90% plant-based,
they're going to feel so good, they're going to want to keep going. But I also think that there's
an argument that goes beyond nutrition and talks about the health of our planet and talks about
the compassion for these animals.
And I think that those should be a part of the conversation.
Even if they are not directly human nutrition,
I think that COVID-19 has taught us that when we abuse this planet,
when we abuse these animals,
I kind of feel like it's going to fight back.
It's beautifully put.
And that just speaks to the inner relationship of everything.
You can't talk about the microbiome without referencing the macrobiome.
The health of our gut is related to the health of the planet and vice versa.
The soil health connects to human health.
The health of our soil, which is the source of our nutrients,
is critically important to human populations moving forward.
I have children and I am scared of what this planet looks like 100 years from now when you consider what it looks like today compared to 1920.
And the reality is that we need to just look at population.
Right now, we have 7 billion people.
In 2050, we will have 10 billion people.
Consider that in 1900, there were only 2 billion people.
Consider that in 1800, there was only 1 billion people.
We're going to have 10 times the population in 250 years.
And that's putting a strain on the environment, on our planet, a strain on these animals.
Biodiversity is the word. It's critical to our gut health. It's critical to planetary health,
and it needs to be upheld. Thanks for listening, everybody.
Hope you enjoyed this first in what we are planning will be a series of topic-specific deep dives that we intend to drip out over the course of the coming year.
deep dives that we intend to drip out over the course of the coming year. As I mentioned in the introduction, links to the full episodes for today's featured guests can be found in the show
notes on the episode page at richroll.com. If you would like to support the podcast, the easiest and
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Peace, plants, namaste. Thank you.