Huberman Lab - Essentials: How Foods & Nutrients Control Our Moods
Episode Date: January 23, 2025In this Huberman Lab Essentials episode, I explain how the different nutrients and foods we eat impact our emotions and overall mood. I discuss how the mind-body connection shapes our food choices an...d cravings, highlighting the roles of key neurotransmitters like dopamine and serotonin in driving eating behaviors. I explain the biological mechanisms behind cravings for specific foods, such as sugar, and how psychological factors like belief effects can influence our perception of hunger. I also describe how certain nutrients, like omega-3 fatty acids, and a healthy gut microbiome are crucial in mood regulation and immune function. Huberman Lab Essentials are short episodes (approximately 30 minutes) focused on essential science and protocol takeaways from past Huberman Lab episodes. Essentials will be released every Thursday, and our full-length episodes will still be released every Monday. Read the full episode show notes at hubermanlab.com. Thank you to our sponsors AG1: https://drinkag1.com/huberman Function: https://functionhealth.com/huberman LMNT: https://drinkag1.com/huberman Timestamps 00:00:00 Huberman Lab Essentials; Emotions, Food & Nutrition 00:02:30 Attraction & Aversion 00:03:38 Vagus Nerve, Sugar 00:06:31 Sponsor: Function 00:08:19 Gut “Feelings”, Hidden Sugars, Amino Acids 00:10:43 Dopamine, Craving, L-tyrosine 00:14:45 Serotonin, Carbohydrates 00:17:59 Sponsor: AG1 00:19:36 Tool: Omega-3s; Depression, SSRIs 00:22:36 Gut-Brain Axis, Gut Microbiome 00:26:00 Probiotics, Brain Fog, Tools: Fermented Foods, Saccharine Caution 00:29:03 Ketogenic Diet & Gut Microbiome, Tool: Individual Diet Variability 00:32:23 Sponsor: LMNT 00:33:40 Tool: Belief Effects; Key Takeaways Disclaimer & Disclosures
Transcript
Discussion (0)
Welcome to Huberman Lab Essentials,
where we revisit past episodes
for the most potent and actionable science-based tools
for mental health, physical health, and performance.
My name is Andrew Huberman,
and I'm a professor of neurobiology and ophthalmology
at Stanford School of Medicine.
This podcast is separate
from my teaching and research roles at Stanford.
Today, we're talking all about emotions.
Emotions are central to our entire experience of life.
Whether or not we're happy or sad or depressed or angry
is our life experience.
And yet I think with all the importance
that we've placed on emotions,
very few people actually understand
how emotions arise in our brain and body.
And I mentioned brain and body,
because as you'll see today,
emotions really capture the brain-body relationship.
We cannot say that emotions arise
just from what happens in our head.
The other thing about emotions is that
there's no real agreement as to what's a good emotion
or a bad emotion.
Today, we're going to talk about the biology
of the chemicals and pathways that give rise to emotions
in the context of food and nutrition.
The discussion around emotions has a long and rich history going back to Darwin and
even long before Darwin.
This is a conversation that philosophers and scientists have been having for hundreds,
if not thousands of years.
The idea that Darwin put forth and that was really attractive for about the last 100 years
was that emotions are universal
and that some of the facial expressions
around emotion are universal.
And other people have, you know, capitalized on that idea.
And to some extent it's true.
I mean, I think that the two most robust examples
of that would be when we see something or we smell something
or we taste something that we like,
there does tend to be a postural leaning in.
We tend to inhale air at that time.
We tend to bring in more
of whatever chemical substance is there.
So we tend to do these mm's and kind of lean in closer
to things that are attractive to us.
And when we see and experience things that we don't like,
sometimes it's a mild aversion,
we just kind of lean back or look away.
Other times, it's an intensive version of disgust
and we tend to cringe our face.
We tend to avoid inhaling any of the chemicals.
This probably has roots in ancient biological mechanisms
that are to prevent us from ingesting things that are bad for us,
chemical compounds and tastes that might be poisonous.
So much of the foundation of any discussion about emotion
has to center around this kind of push-pull
of attraction to things or aversion from things.
Now that's a very basic way of thinking about emotions,
but if you think about it,
it works for a lot of different circumstances.
And in the brain, everywhere from the deep circuits
of the brain to the more kind of what we call
higher order evolved centers of the brain,
we have this push-pull thing.
Where either in a previous episode, I talked about go,
the circuits that allow you to emphasize action,
and then no-go circuits, the circuits in the basal ganglia
that allow you to de-emphasize action and prevent action.
And so we can break down the discussion about emotions
into these simpler versions of themselves.
But at the core of that, of attraction or aversion,
is an important theme that you might realize already,
but most people tend to overlook,
which is that there's an action there.
You're either moving forward
or you're moving away from something.
The brain has a body so that the organism can move
and the body has a brain so that the organism,
you can move toward or away from things
that you deem to be good or bad for you.
So there are circuits in the brain for aversion
and for attraction toward things.
And the body is governing a lot of that.
And so immediately in this conversation,
I want to raise an important point,
which is about a nerve pathway
that many, many people have heard of
that gets discussed all the time.
And that is one of the most kind of oversold
for the wrong reasons and undersold, unfortunately,
for its real power,
which is the vagus nerve.
So the vagus nerve is one, not the only,
but one way in which our brain and body are connected
and regulates our emotional states.
So what is the vagus nerve?
Vagus is the 10th cranial nerve,
which basically means that the neurons,
the kind of the control center of each of those neurons in the vagus is the 10th cranial nerve, which basically means that the neurons, the kind of the control center of each of those neurons
in the vagus lives just kind of near the neck, right?
And a branch of the vagus goes into the brain.
The other branch goes into the periphery,
but not just the gut.
It goes into the stomach, the intestines, the heart,
the lungs and the immune system.
So the way to think about the vagus
is the same way I would think about the eyes.
The eyes are looking at colors, they're looking at motion,
they're looking how bright it is.
And each one of those things, those features
is telling the brain something different
so the brain can decide when to be awake or asleep,
whether or not it's looking at somebody attractive
or unattractive.
The vagus nerve is also analyzing many features
within the body and informing the brain
of how to feel about that and what to do.
So a really good example that I think is an exciting one
is as it relates to sugar.
So we all know that sweet things generally taste good.
So that makes sense, right?
You eat something, it tastes sweet, you want more of it.
Well, it turns out that it's much more interesting
than that.
When you eat something sweet,
within your stomach, you have cells, neurons,
that sense the presence of sugary foods,
independent of their taste, and signal to the brain.
So those sensors, those neurons, send information
up the vagus to your brain,
goes through a series of stations,
and then you release dopamine,
this molecule that makes you want more
of whatever it is that you just ingested.
In fact, this pathway is so powerful
that they've done experiments where they completely numb
all the taste and feeling in somebody's mouth.
They're blindfolded,
so they don't know what they're eating.
And they're eating a food
that's either sugary or not sugary.
And what they find is that even though people
can't taste the sugary food,
they crave more of the food that contains sugar
because of the sensors in the gut that sense sugar.
And what it tells us is that we have circuits in our body
that are driving us towards certain behaviors
and making us feel good,
even though we can't perceive them.
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Now, for those of you that are really interested
in gut intuition and kind of gut feelings,
this is a gut feeling,
except this is a chemical gut feeling.
This is a particular set of neurons detecting
that something in your body has a particular feature,
in this case, the presence of sugars,
and sending information to the brain
essentially to control your behavior.
And I find this remarkable.
I mean, this should completely reframe the way
that we think about the sort of so-called hidden sugars
in foods.
What this means is that even if a food is very savory,
like a piece of pizza or a piece of bread,
or even like a salad dressing,
if there's sugar snuck into that and you can't taste it,
you will still crave more of that thing without knowing
that you crave it because it has sugar.
So I find this to be a fascinating aspect of our biology.
A lot of how we feel while we eat and after we eat
is because of this vagus sensing of what's in our gut.
It's sending information all the time.
Is there sugar?
Are there fats? Are there fats?
Are there contaminants?
There are a lot of information,
these so-called parallel pathways
that are going up into our brain
that regulate whether or not we want to eat more
of something or not.
And there are accelerators,
things that make us want to eat more,
like sugar and fats,
because those are nutrient dense
and they helps generally,
at least in the short term,
support the survival of animals, but also amino acids.
And this is very important.
There are a lot of data,
but much of what comes from the data on what people eat
and how much they eat is from a subconscious detection
of how many amino acids and what the array,
meaning the constellation of amino acids is in a given food.
And it's fair to say that some total of these studies
point in a direction where people will basically eat
not until their stomach is full,
but until the brain perceives
that they have adequate intake
of amino acids.
It's amino acids, of course, are important
because they are the building blocks of, sure, muscle
and the other things in our body that need repair,
but what most people don't realize is that amino acids
are what the neurochemicals in the brain are made from.
Now, this is vitally important, okay?
So we've heard dopamine is this molecule
that makes you feel good.
Dopamine release is caused by surprise, excitement,
events that you're looking forward to
and that turn out well.
It is inhibited by events you're looking forward to
that don't work out.
It's called reward prediction error.
Your expectation of something releases dopamine
and the actual event releases
dopamine. And if the event related dopamine does not exceed the expectation or at least
match it, there's a much higher tendency that you won't pursue that thing again. Dopamine
is what's going to lead us to want to eat more of something or to not want more of something
because dopamine really is about craving.
It's about motivation and it's about desire.
And as I mentioned, these amino acid sensors in our gut
are detecting how many amino acids,
but they're also detecting which amino acids.
And there's a particular amino acid called L-tyrosine,
which comes from food.
It is in meats, it is in nuts,
it is also in some plant-based foods.
L-tyrosine is the precursor to a couple other molecules
like L-dopa, et cetera, that make dopamine.
However, the dopamine neurons that give rise
to these feelings of good or wanting more
or desire and motivation,
those reside in the brain.
So we don't want to get too confused.
We want to respect and honor the power of the gut
and this vagal pathway,
but it's really neurons within your brain
that drive the pursuit and decision-making.
So what does this mean?
Well, some people make too little dopamine.
Some people make so little dopamine
that they need prescription dopamine.
They need L-Dopa.
People with Parkinson's take L-Dopa
and other compounds to increase dopamine
because Parkinson's is associated
with deficits in movement.
Parkinson's is a depression.
It's a blunting of motivation and mood and affect.
And it's a tremor.
And then eventually in severe conditions, it's challenges in mood and affect. And it's a tremor. And then eventually in severe conditions,
it's challenges in speaking and walking.
So that some famous examples would be,
you know, Muhammad Ali, Michael J. Fox,
the great boxing trainer, Freddie Roach.
Like these people have Parkinson's
and they at least later in their life
had challenges speaking.
Now, some people immediately ask,
well, should I supplement L-tyrosine?
It does increase kind of mood and elevation and alertness.
It is over the counter.
You have to check with your doctor.
I'm not responsible for your healthcare
and I'm not a doctor, whether or not safe for you.
People with preexisting hyper dopaminergic conditions
like mania should probably not take L-tyrosine.
The other thing about taking L-tyrosine
is there is a crash, okay?
It's not a massive crash if you take it at appropriate doses
and it's right for you,
but it can produce a crash and a lethargy
and a kind of brain fog after the next day or so.
And so L-tyrosine, however, can be ingested through foods
or through supplementation to increase dopamine levels.
That's well known.
Taken chronically, however,
it can disrupt those dopamine pathways.
Let's just kind of take stock of where we're at.
We have a brain body connection.
There are many of them,
but one of the main ones is the vagus nerve.
The vagus collects information about a lot of things,
breathing, heart rate,
stuff that's happening in the gut, et cetera.
And gut, by the way, includes the stomach
and the intestines,
sends that information up to the brain.
The brain is using that information
to decide one of two things,
move towards something or move away.
Can also pause, but essentially pausing is not moving toward.
So that's the dopamine pathway
and foods rich in L-tyrosine generally give us
an elevated mood and make us want to do more
of whatever it is that we happen to be doing
as well as other things.
Motivation generalizes to other things.
It's not unique to just ingesting foods,
but foods that give us a big pulse of dopamine
will make us crave more of that food.
It will make us crave more of the activity
that led to the ingestion of that food.
And as I mentioned earlier,
a lot of that is happening at a subconscious level
that you're not even aware of.
So the other neuromodulator that's really interesting
in the context of the vagus is serotonin.
Serotonin, just to remind you, is a neuromodulator,
therefore it creates a bias in which neural circuits,
which neurons in the brain and body are going to be active,
and it makes it less likely
that other ones are going to be active.
And serotonin, when it's elevated,
tends to make us feel really comfortable
and kind of blissed out wherever we are.
And that contrast with dopamine and epinephrine,
which mainly put us in pursuit of things.
Motivation is pursuit.
The conversation around the brain body relationship
and mood and serotonin for many years was,
well, you eat a big meal, the gut is distended, you've got all the nutrients you need,
you rest and digest and serotonin is released.
That's sorta true, but there's a lot more going on
and a lot more that's interesting and actionable
that's going on.
First of all, some of you, but perhaps not all have heard
that more than 90% of the serotonin that we make
is in our gut. And indeed we haveotonin that we make is in our gut.
And indeed we have a lot of serotonin in our gut.
But here's the deal.
Most of the serotonin that impacts our mood
and our mental state is not in our gut.
Most of it is in the neurons of the brain
in an area called the raffae nucleus of the brain.
There are a few other locations too.
You can't have a discussion about serotonin
without having discussion about antidepressants
because during the late 80s and early 90s,
there was this explosion in the number of prescription drugs
that were released, things like first one
and most famous one is Prozac, Zoloft, Paxil,
a number of other ones that are so-called SSRI,
selective serotonin reuptake inhibitors.
Basically, those drugs work by preventing
the gobbling up of serotonin or reuptake of serotonin
into neurons after it's been released,
which leads to more serotonin overall,
which means to elevate serotonin.
And indeed, those drugs were and can be very useful
for certain people to feel better in cases of depression
and some other clinical disorders as well.
Not everyone responds well to them,
as I'm sure you've all heard.
And their side effect profile
has effects like blunting affect.
It can make people feel kind of flat, kind of meh.
Many people adjust their serotonin
by just eating more food.
And carbohydrate rich foods will increase serotonin.
I eat a relatively high protein and moderate fat,
zero carb or low carb meal at lunch and in the afternoon
to stay alert because those foods tend to favor
dopamine production, acetylcholine production,
epinephrine production and alertness.
My mood is generally pretty good most of the time.
And then as evening comes around
and I'm concerned about sleep and a good night's sleep,
not concerned in an anxious way,
but I want to get a good night's sleep,
I will ingest foods that promote serotonin release
because they contain a lot of tryptophan.
So as you're seeing,
this isn't really a discussion about nutrition per se,
this is a discussion about food,
which contains amino acids,
amino acids being the precursors to neuromodulators
and neuromodulators having a profound effect
on your overall state of alertness or calmness,
happiness, sadness, and wellbeing.
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Now you understand the relationship, I hope,
between foods and dopamine, foods and serotonin,
and that they're both being communicated to the brain
via the vagus, right?
So let's talk a little bit more about things
that we ingest in our body
and then allow our body to inform our brain
to shift our mood.
But I don't think most people know this simple fact,
which is that the omega-3 to omega-6 fatty acid ratio
has a profound effect on depression.
First of all, in an experiment done in animals,
they found there's a model of learned helplessness
in animals.
It's not very kind to the animals,
but they put rats or mice in a jar,
they let them swim,
and they'll swim, swim, swim to try and save their life.
And eventually they give up.
It's a learned helplessness.
They don't let them drown, they take them out.
Adjusting the omega-3, omega-6. Adjusting the omega-3 omega-6 ratio
so that the omega-3s are higher
led to less learned helplessness,
meaning these animals would swim longer.
But that same study was essentially done in humans.
What they did is they took people
who were clinically depressed, major depression.
Okay, major depression is severe maladaptive state,
meaning it inhibits job, relationships, appetite,
all sorts of negative health effects.
And they did a comparison
of a thousand milligrams a day of EPA.
So EPA is one of the elements
that contains high levels of omega-3s
that's in things like fish oil,
but it wasn't a thousand milligrams of fish oil,
it was a thousand milligrams of EPA.
Compared that to 20 milligrams of fluoxetine,
which is Prozac, they found that they were equally effective
in reducing depressive symptoms.
And what was really interesting in addition to that
is that the combination of a thousand milligrams of EPA
and fluoxetine had a synergistic effect
in lowering depressive symptoms.
And now there are lots of studies.
If you go into PubMed and you were to put EPA
or fish oil and depression,
you would find that there were a number
of really impressive results showing
that it's at least as effective
as certain SSRIs, antidepressants at these dosages.
And it can amplify or improve the effect
of low dosages of some of these SSRIs.
You can discuss it with your doctor and family
and make the choices that are right for you.
Now, of course, I really want to emphasize something
which is that no one compound or nutrient or supplement
or drug or behavior for that matter
is going to be the be all end all
of shifting out of depression
or improving one's mood or improving sleep.
You cannot expect to take a compound
regardless of source or potency
and have it completely shift your experience of life
without having to continue to engage
in the proper behaviors, all the things we know,
proper sleep, exercise, social connection, food, et cetera.
Okay, so now let's turn to another aspect
of the gut brain relationship that will surprise you,
in some cases might shock you,
and that has some really cool and actionable biology.
And that's the gut microbiome, probiotics and prebiotics.
So what's the deal with the gut microbiome
and the gut brain axis?
Today we've actually been talking a lot already
about the gut brain axis
that has nothing to do with microbiomes. We've been talking a lot already about the gut brain axis that has nothing to do with microbiomes.
We've been talking about this vagus nerve
that connects providing sensory information
from the body to the brain.
And then the brain also sends in the same nerve,
motor information to control the motility,
the gut, the heart rate, how fast we breathe
and deployment of immune stuff. But oftentimes when we hear about the gut, the heart rate, how fast we breathe and deployment of immune stuff.
But oftentimes when we hear about the gut brain access
these days, it's a discussion about the gut microbiome.
I'm very happy there's so much discussion
about the gut microbiome.
I am somewhat dismayed and concerned
that most of what I hear out there
is either false or partially false.
So we're going to clear up some of the misconceptions,
first by understanding the biology,
and then we're going to talk
about some of the actionable items.
It is true that we have a lot
of these little microorganisms living in our gut.
They're not there because they want to help us.
They don't have brains.
They are adaptive, however, they try and find
and create environments that make it easier
for them to proliferate.
So they don't care about you and me,
but they are perfectly willing to exploit you and me
in order to make more of themselves.
The microbiota that live in us
vary along the length of our digestive tract.
So we are one long tube for digestion.
And inside of that tube is a mucosal lining.
And the conditions of that mucosal lining
set a number of different things.
It sets the rate of our digestion
and the quality of our digestion.
It sets, for instance, our immune system.
We're ingesting things all the time.
Think about air, bacteria, viruses,
they're making their way into our gut.
And some of those bacteria live in the gut.
And some of those bacteria bias the mucosal lining
in the gut, stomach and intestines,
to be more acidic or more basic
so that they can make more of themselves,
so they can replicate.
Now, some of those mucosal linings that they promote
make us feel better.
They make us feel more alert,
they bolster our immune system,
and others make us feel worse.
So first rule, the microbiome isn't good or bad.
Some of these little bugs that live in us
do bad things to us.
They make us feel worse.
They lower our immunity.
They affect us in negative ways.
Some of them make us feel better.
And they do that mainly by changing the conditions
of our gut environment.
In addition to that, they do impact the neurotransmitters
and the neurons that live in the gut
and that signal up to the brain to impact things
like dopamine and serotonin
that we've been talking about previously.
So there's a vast world now devoted to try
and understand what sources of food, what kinds of foods are good
or not good for the gut microbiome.
Here's a few things that I think you might find surprising.
First of all, supporting a healthy gut microbiome
is good for mood, great for digestion
and great for immune system function.
However, that does not mean maxing out or taking
the most probiotic and prebiotic that you can possibly manage.
As I mentioned many times before,
I do believe in probiotics, I take probiotics,
but there are studies that show that if you take lots
and lots of certain probiotics like lactobacillus
and you really ramp up the levels more.
It is not a case of more is better.
There are things like brain fog that can come from that.
Brain fog is just this inability to focus.
People feel really not well generally.
Some of those studies are a little bit controversial,
but I think it's fair to say that if people
really increase the amount of probiotic
that they're taking beyond a certain amount,
then they start feeling foggy in the mind.
The ingestion of fermented foods is one of the best ways
to support healthy levels of gut microbiota
without exceeding the threshold
that would cause things like brain fog.
So much so that some people report
that when they start eating small bits,
because it doesn't require a lot of fermented foods,
that their overall mood is better.
Not unlike the effects of EPA,
although I don't think it's been looked at directly
in the context of clinical depression yet.
There are some things that you can do
to really damage your gut microbiome.
And this is where there's a huge misconception
that I want to clear up.
There was a study that showed that artificial sweeteners,
but a particular artificial sweetener, which was saccharin,
can disrupt the gut microbiome
in ways that is detrimental
to a number of different health markers,
increasing inflammatory cytokines
and all the other bad things that happen
when the gut microbiome is thrown off kilter.
Saccharin is not the most typical artificial sweetener
that's used.
The most typical artificial sweeteners that are used
are things like aspartame, so-called NutraSweet
or sucralose or these days stevia.
To my knowledge, the negative effects
of these artificial sweeteners
on the gut microbiome were restricted to saccharin.
So what happens is certain artificial sweeteners,
in particular saccharin, disrupt the microbiome
and make the environment within the gut,
that mucosal lining, more favorable
to bacteria,
microbiota that are not good for the organism.
Okay, this is an important distinction.
It's not just that a language thing where people say,
oh, you know, it kills the microbiome,
it doesn't kill the microbiome, it shifts the microbiome
and shifts in the microbiome can be good or they can be bad.
And that takes us to another topic.
That's a bit of a hot button topic,
but I'm willing to go there
because I think it deserves conversation,
which is nowadays there are many examples out there
where people have switched from a kind of standard diet
or even a vegetarian diet to a,
or vegan diet to a keto diet.
Now, keto doesn't necessarily have to mean
the ingestion of meats, but it can.
And they experience positive effects for themselves.
But the ketogenic diet is interesting
because when one shifts to the ketogenic diet,
there is a shift in the gut microbiome
and some people end up feeling better.
Some people end up feeling worse.
Likewise, some people go from ingesting animal products,
including meat or they're vegetarian and they go to vegan
and they experience positive shifts in mood and affect.
So the point of all this is that when I say
you have to find what's right for you,
that's not a throwaway statement.
Some people's microbiome and the mucosal lining
of their throat, of their gut, of their nose,
everything is improved by diets that are heavily meat-based
and don't have many plants.
Other people do much better on a plant-based diet
without many meat products or animal products.
It's highly individual.
And this probably has roots in genetic makeup.
This probably has roots in what people were raised on,
because remember the nervous system, of course,
is set up by your genes, your genetic program,
but your nervous system, it adapts early in life
to your conditions.
That's what it's for.
The reason you have a nervous system
is to move your body appropriately
towards things that are good for you
and away from things that are not,
but also it was designed to adapt.
So that yes, indeed, some people may like certain foods
and react to certain foods better than others
because of the way that their nervous system was wired,
this enteric, as it's called, nervous system
that lines the gut and that communicates with the brain.
So most of what I've talked about today
is black and white.
These are things that are present in all of us,
the sugar-sensing neurons of the gut,
the way the vagus is wired, the fact that omega-3,
omega-6 is tend to improve, the ratios tend to impact mood
with high omega-3, omega-6 ratios improving mood.
We talked about all sorts of things in the gut brain
and body brain axis, but when it comes to the microbiome,
the key thing is that we all have a microbiome.
You want a microbiome, but you want to promote the microbiome that is right for you.
And that can be shifted and steered
by ingesting certain categories of foods and not others.
It's very clear that these fermented foods
support the microbiome,
that we should be ingesting at least two servings per day,
which is quite a lot,
that supplementation at low levels can be good.
Supplementation at high levels can create this brain fog,
even though some people say that result is controversial.
I've experienced this myself
and the data looked to me pretty darn solid.
So that's one thing to think about as well.
And the other thing about the gut microbiome
is that it's highly contextual
based on other things that you're doing.
So even things like exercise and social wellbeing
and connection, those things are also impacting
the gut microbiome.
So find the diet that's right for you
and that works for you in the context of the other,
ethical and lifestyle choices that are important to you.
That's my advice.
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So as we round up, I want to share some results with you
that without question will impact the way
that you respond to food mentally and even physically.
I have a colleague at Stanford,
Aliyah Crum, who's done some remarkable experiments
on mindset.
Two that are particularly interesting to me,
I want to share with you now
because they really emphasize how our beliefs
can really impact the way that our brain
and body work together.
I think the most famous of these is an experiment they did
where they had two groups of individuals.
They were each given a milkshake
and they had some factors measured from their blood
by an IV while they ingested the milkshake
and then afterwards as well.
And one of the factors that they were looking at
was something called ghrelin, G-H-R-E-L-I-N.
Ghrelin is a peptide that increases with hunger.
So the longer you haven't eaten, the ghrelin goes up.
One group got a shake that they were told
was a low calorie, healthy shake.
The other group got a milkshake that they were told was a low calorie healthy shake. The other group got a milkshake
that they were told was the very decadent high calorie shake.
And what they found was that the high calorie shake
had a much more robust effect on blunting ghrelin
and reducing ghrelin.
But the interesting thing you probably guessed already
is that it was the exact same shake given to both groups.
And this speaks to the so-called top-down mechanisms
or modulation of our physiology.
In previous episode about pain,
we talked about the effects of, you know,
obsessive infatuation and love
on pain responses and pain thresholds.
This is yet another example where beliefs
or subjective feelings can impact physiology
at the level of the periphery,
because ghrelin is released in the periphery in the body.
And so this is not just the placebo effect,
this is an incredible set of findings
that illustrate the extent to which
whether or not we believe a food is going to be good for us
or not good for us,
these belief effects are not about lying to yourself.
So in order for them to work,
you have to be naive to the information, right?
You can't simply lie to yourself
and tell yourself what you want to believe.
And that's important,
but also important is that the mind and the body
are in this fascinating interplay.
And today we've talked mainly about how the body
and things that we put inside this tube,
this that runs from our mouth to the other end,
to our rectum basically is impacting all these cells,
these neurons, microbiota in there,
nucosal lining, heart, lungs,
and how all that information is feeding up to the brain
to impact how we feel up here.
But also how we feel up here is impacting
how our body reacts at levels of very core physiology
that you couldn't just tell yourself
that this was going to work.
But what you believe about certain substances,
certain foods, certain nutrients
does have a profound effect on the magnitude of their impact
and sometimes even the quality and direction of that impact.
So today's episode, we took a full journey
into the brain body relationship
and discussed a lot of the mechanisms
and the actionable items that you can approach
if you want to explore this aspect of your biology
and psychology further.
Last, but certainly not least,
I want to thank everybody for your time and attention today.
And as always, thank you for your interest in science.