Huberman Lab - Dr. Robert Sapolsky: Science of Stress, Testosterone & Free Will
Episode Date: August 30, 2021In this episode, I interview Dr. Robert Sapolsky, Ph.D., Professor of Biology, Neurology & Neurosurgery at Stanford University. We discuss stress, what defines short-term versus long-term stress, and ...how stress can be beneficial or detrimental, depending on the context. We also discuss stress mitigation and how our sense of control over stress mitigation techniques, including exercise, determine health outcomes. Dr. Sapolsky explains some of the key effects of the hormone testosterone — how it can amplify pre-existing tendencies for aggression or sexual behavior, but that it does not produce those behaviors per se. He also explains how testosterone impacts our social hierarchies, sense of confidence, and willingness to embrace challenges of different kinds. He also explains how our behaviors and perceptions shape testosterone levels. And we discuss estrogen and the powerful role it plays in brain development, health and longevity. Finally, we discuss free will, what it means to have free will, and if we have any free will, including how knowledge alone might allow us to make better decisions for ourselves and society. For the full show notes, visit hubermanlab.com. Thank you to our sponsors AG1 (Athletic Greens): https://athleticgreens.com/huberman LMNT: https://drinklmnt.com/huberman Supplements from Momentous https://www.livemomentous.com/huberman Timestamps (00:00:00) Introduction: Dr. Robert Sapolsky (00:02:25) Sponsors: AG1, LMNT (00:06:30) Stress: Short & Long-Term, Good & Bad (00:09:11) Valence & Amygdala (00:11:00) Testosterone: Common Myths vs. Actual Truths (00:15:15) Behaviors that Affect Testosterone (00:17:20) Mindsets & Contexts that Affect Testosterone (00:20:28) How Finger Length Ratios Reflect Prenatal Hormone Levels (00:22:30) Aggression: Male-Female, Female-Male, & Female-Female (00:24:05) Testosterone: The Challenge Hypothesis (00:29:20) How Dopamine Impacts Testosterone & Motivation (00:32:32) Estrogen: Improves Brain & Longevity BUT TIMING IS KEY (00:39:40) Are Testosterone & Sperm Counts in Males Really Dropping? (00:42:15) Stress Mitigation & Our Sense of Control (00:51:35) How Best to Buffer Stress (00:57:04) Power of Perception, Choice & Individual Differences (01:00:32) Context-Setting, Prefrontal Cortex & Hierarchy (01:11:20) How Dr. Sapolsky Accomplishes Deep Thinking (01:13:17) Do We Have Free Will? (01:20:50) How to Apply Knowledge & Learning (01:23:44) Robert’s New Book: “Determined: The Science of Life Without Free Will” (01:28:27) Reflections, Support of Podcast, & Supporting Stress Research Title Card Photo Credit: Mike Blabac Disclaimer
Transcript
Discussion (0)
Welcome to the Uberman Lab podcast where we discuss science and science-based tools for everyday life.
I'm Andrew Uberman and I'm a professor of neurobiology and ophthalmology at Stanford School of Medicine.
Today I have the pleasure of introducing Dr. Robert Sapolsky. Dr. Sapolsky is a professor of biology and neurosurgery at Stanford University. His laboratory has worked on a large variety of
topics, including stress, hormones, including testosterone and estrogen, and how the different
members of a given species interact according to factors like hormones, hierarchy within primate
troops, and how things like stress, reproduction, and competition impact behavior.
One of the things that makes Dr. Sapolsky's work so unique is that it combines elements
from primatology, including field studies, with human behavior, in essence, trying to unveil
how humans as old world primates are controlled by different elements of our biology as well
as our psychology.
Dr. Sapolsky is also a prolific author of popular books,
such as Wisebres Donkett Alcers, the trouble with testosterone,
and behave the biology of humans at our best and worst.
During the course of our discussion today, Robert also revealed to me that he is
close to completing a new book, entitled, Determined, The Science of Life Without Free Will, and indeed we discuss
the science of life without free will during this episode.
We also discuss stress and how best to control stress and how stress controls us at both
conscious and subconscious levels.
We talk about testosterone and estrogen and hormone replacement therapy and how those
impact our mind, our psychology,
and our interactions with others.
As with any discussion with Dr. Sapolsky, we learn about scientific mechanisms that make
us who we are.
And today we also discuss tools and how we can leverage those scientific mechanisms in order
to be better versions of ourselves.
I should mention that unlike most guest interviews on the Hubertman Lab podcast, this one had to be carried out remotely due to various constraints.
So you may hear the occasional audio artifact.
Please excuse that. We felt that the value of a conversation with Dr. Sapolsky was well worth those minor, minor glitches.
And indeed, the information that he delivers us is tremendously valuable, interesting, and in many cases, actionable as well.
Before we begin, I'd like to emphasize that this podcast is separate from my teaching and
research roles at Stanford. It is, however, part of my desire and effort to bring zero cost to
consumer information about science and science-related tools to the general public. In keeping with that
theme, I'd like to thank the sponsors of today's podcast. Our first sponsor is Athletic Greens.
Athletic Greens is an all-in-one vitamin mineral probiotic drink.
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The reason I started taking Athletic Greens and the reason I still take Athletic Greens
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And now, without further ado, my conversation with Dr. Robert Sapolsky.
Great.
Well, thank you so much, Robert, for joining us today.
I've been looking forward to this for a very long time
and I appreciate it.
What is glad to be here?
There is an enormous range of topics
that we could drill into, but just to start off,
I wanna return to a topic that,
as near and dear to your heart, which is stress.
And one of the questions that I get most commonly is, what is the difference between short and
long-term stress in terms of their benefits and their drawbacks?
And the reason I say benefits is that obviously stress and the stress response can keep us
alive, but stress, of course, can also sharpen our mental acuity and things of
that sort.
So how should we conceptualize stress and how should we conceptualize stress in the
short term and in the long term?
Well, basically, sort of two graphs that one would draw.
The first one is just all sorts of beneficial effects of stress, short term.
And then once we get into the chronicity, it's just downhill from there, short term because it saves you from the predator,
short term because you're giving a presentation and you think more clearly or your focus is better,
all sorts of aspects of that.
And what then winds up being an argument
is how long does it take to go from short term to long term.
And if that's somewhat arbitrary,
you put the sorts of chronic stressors
that most people deal with are just undeniably
in the chronic range,
like having spent the last 20 years,
daily traffic jams or abusive boss or some such thing.
The other curve that's sort of perpendicular to this
is dealing with the fact that sometimes stress
is a great thing.
Like our goal is not to cure people of stress.
Because if it's the right kind, we love it.
We pay good money to be stressed that way by a scary movie
or rural or coastal road.
What you want to be seeing is when it's the right amount
of stress, it's what we call stimulation.
And the basic curve there is, here's an optimal level
of stimulation and two little and
function goes down with what we would call boredom.
And too much and function goes down with what we would call stress.
And the optimum is what all of this aim for.
In terms of the benefits of stress in the short term, one thing that's really striking to
me is how physiologically the stress response looks so much like the excitement response
to a positive event.
We can speculate that the fundamental difference between short term stress and short term
excitement is some neuromodulator
like dopamine or something like that.
But is there anything else that we know about the biology
that reveals to us what really creates this thing
we call valence that an experience can be terrible
or feel awful or it can feel wonderful exhilarating depending on this somewhat
subjective feature we call valence. Do we know what valence is or where it resides?
On a really mechanical level, if you're in a circumstance that is requiring that
your heart races and you're breathing is fast and you're using your muscles
and some such thing, you're going to be having roughly the same brain activation profile,
whether this is for something wonderful or something terrible, with the one exception being that
if the amygdala is part of the activation, this is something that's going to be counting
as adverse.
Whether that's the circumstance, an adverse circumstance, recruiting the amygdala into
it and how much it's the amygdala being involved, bias is you towards interpreting it as
even more awful.
The amygdala in some ways, this kind of the check point as to whether we're talking
about excitement or terror.
Let's use the amygdala as a transition point to another topic that you've spent many
years working on and thinking about, which is testosterone and other sex steroid hormones. I heard you say once before that among all the brain areas that bind testosterone, where
testosterone can park and create effects, that the amygdala is among the most chocoblock
full of these parking spots, these receptors.
I realized there's a lot here, but how should we think about the role
of testosterone in the amygdala given that the engagement of the amygdala is fundamental
in this transition point between a exhilarating positive response and a negative stressful response?
Or maybe just broadly, how should we think about testosterone and its effects on the brain?
And pertinent to the transition from whether this is a stressor that's a voking fear or
a voking aggression in terms of that continuum also, because the amygdala is in the center
of all four points on those axes. Basically, almost everybody out there
has a completely wrong idea as to what testosterone does,
which is testosterone makes you aggressive
because there's males and virtually every species out there
of more testosterone and more aggressive
and seasonal majors have testosterone
surging at the time of year.
They're punching it out over territory and you take testosterone out of the picture.
You castrate any mammal out there, including us and levels of aggression will go down.
And the easy thing then tends to include to conclude that testosterone causes
aggression.
And the reality is testosterone does no such thing. It doesn't cause aggression.
And you can see this both behaviorally and in the amygdala, what does testosterone do? It lowers
the threshold for the sort of things that would normally provoke you into being
so that it happens more easily. It makes systems that are already turned on,
turn on the louder, rather than turning on
progressive music or some such thing.
What does it look like behaviorally?
You take five male monkeys, put them together,
they form a dominant hierarchy.
Number one is great.
Number five is miserable.
Number three is right in between.
Now take number three and shoot the guy up
with tons of testosterone.
And he's going to be involved in more fights.
Ha ha, testosterone uniformly causes aggression.
But you look closely and there's a pattern to it.
Is number three now challenging numbers two
and one for their place in the higher.
Absolutely not.
He is brown-nosing them exactly as much as he used to.
What's going on is he's just a miserable terror
to poor number four and five.
And in that case, what testosterone is doing
is amplifying the pre-existing patterns of aggression,
amplifying the social learning that's already gone into it.
Now on sort of the more reductive level, so how does that translate into the amygdala?
Does testosterone make amygdala, and neurons have action potentials?
Does it cause those neurons to suddenly speak about fear and aggression spontaneously.
Absolutely not.
What they do is, if the amygdala is already being stimulated, it increases the rate of
neural fire.
What is worth it that shortens after hyperpolarizations?
So the theme there exactly is, it's not creating aggression, it's just upping the volume of
whatever aggression is already there. And once you factor that in, you know, it's impossible
to say anything about what testosterone does outside the context of what testosterone-related
behaviors, how they get treated in your social sense.
And in terms of status and the relationship
between individuals, either non-human primates or humans,
can we say that testosterone and levels of testosterone,
or I should say, can we say that relative levels of testosterone
between individuals is correlated to status within the hierarchy.
Yes, but in a way that winds up being totally uninteresting.
You go back, whatever number of decades, the endocrinology texts, and they were choosing
totally reliable findings in there.
Let's see, I have a dog in here that's so good.
We like dogs at the Hubertman Lab podcast. They are welcome.
They are absolutely welcome.
There would be two true isms, which is higher levels of testosterone, predict higher levels
of aggression in humans and other animals, higher levels of testosterone, predict higher
levels of sexual activity.
Whoa, testosterone causing both.
And the correlation is there.
And when you look closely, we could cause an effect stuff.
Sexual behavior raises testosterone levels.
Aggression raises testosterone levels.
Your levels beforehand are barely predictive of what's going to happen.
So it's a response rather than a cause.
When you look at that in terms of making sense of individual differences,
they don't matter a whole lot.
You can spend an entire career on the social circumstances that produced three and a half percent more testosterone
in the circulation and expect to see all sorts of interesting implications.
And that's not really the case.
It's somewhat of a yes or no modulator of the much more subtle social stuff that's
already there.
Very interesting.
You know, I think that there's a lot of misconceptions about human biology, but testosterone
seems to be one area where, at least from what I can find on the internet, there's a sort
of at the peak of misunderstanding.
Maybe we could just ask a few more questions about testosterone and sexual behavior, because
there's an interesting story there about castration versus non-castration and the causality again.
But before you address that, I just want to highlight something that you said that I think
is so vital, which is that behaviors such as aggressive behaviors and sexual behaviors
can actually increase testosterone.
Did I hear that correctly? And the reverse is sort of
true, but not in a causal way. Is that right? The opposite direction with the causality. Yeah.
Yeah. So if I were to increase somebody's testosterone by 30%, male or female, doesn't matter.
Their sexual behavior may or may not change. Essentially zero effect at all.
Your brain is not that sensitive to fluctuations
in testosterone levels.
In terms of things like aggression,
raising testosterone, just a great footnote.
If you have the right type of willing to die
and the trenchous devotion sort of thing,
watching your favorite team play a sport
will raise your testosterone
levels as you sit there with the potato chips in your armchair.
So it's not the physicality of aggression, it's the psychological framing of it.
So yeah, testosterone is not causing that.
And a great way to appreciate that is, okay, so you had all these testosterone
sexual behavior correlations, and you do the definitive endocrine intervention, which
is you do a subtraction study, you remove the testes. And as I said before, levels of sexual
behavior goes down. Good.
We've just shown that testosterone is somewhat how causative.
Critically, they go down, but not down to zero.
Whether you are a rat, or a monkey, or a human, whatever.
And what predicts how much residual sexual behavior is there?
How much sexual behavior there was before castration. What that's telling
you is by then that's behavior that's being carried by social learning and context rather than by
the hormone, exact same thing with aggression. Drops after castration doesn't go to zero, the more
prior history of it, the more it just keeps coasting along
on its own, even without testosterone.
Very interesting.
Can we say that there's an exception in terms of the early organizing effects of hormones?
Like for instance, if a developing animal is deprived of testosterone or estrogen or
aromatized testosterone and estrogen, there's a whole story there, as you know.
But then I could imagine that the circuits of the brain
that are responsible for initiating sexual behavior
in the first place might not emerge,
and therefore not be sensitive to testosterone later in life.
Is that right?
Yeah, exactly.
And a great way of seeing that is this totally nutty,
biological factoid, which is the second to fourth digit ratio and hands.
Oh, yeah.
Totally obscure thing.
The ratio of one to the other in some way reflects levels of testosterone, and just an
exposure during fetal life.
And I can't remember which way it goes.
And it's a minute skew all on me.
You need a thousand people in your sample.
It's not necessary to be able to see anything,
but you see it in other primates.
It's already there in feed-old sonograms, all of that.
So that's a readout of subtle differences
in prenatal exposure.
And that winds up being a predictor of a whole range
of subtle stuff in adult behavior.
So yeah, at the fetal end, when you're still building everything testosterone and the
amount of it is making a huge difference, by the time you're an adult, it's just somewhat
of an all-in-one signal.
Yeah.
I have a confession, which is that I was a master student at Berkeley in Mark Breedlow's arena.
So I'm an author on that paper although I'm deep within the author line and you got the description of it exactly right.
That it's the D2, the index finger to the ring finger ratio is more similar in females and then it is in males.
In males, the index finger tends to be shorter.
And for people out there who are listening to this, who are now freaking out or measuring,
there's a proper way to measure this, which is eyeballing it doesn't work all the time
unless it's the extremes, and there's some very interesting stories there.
It actually has been replicated no fewer than five times.
Mark, Reedlove love tells me. But yes, in terms of these early organizing effects, those are very, seem very robust in
most studies.
These later effects are sort of activation of neural circuits by hormones.
I'm absolutely fascinated by this.
And if we, I do have a couple other questions, which is, we normally associate testosterone
with males, but of course females make testosterone as well
from the adrenals and presumably elsewhere too.
I'm guessing if we looked hard enough,
we'd probably find that there were other sources of Androgens
in females.
Can we say that these general contours of effects
on aggression also pertain to females?
And I suppose I should ask in particular about female female aggression,
which does exist in many species, female male to aggression, as well as maternal aggression,
which is a robust aspect of our evolution, of course, that the mother will, an angry mother
animal of any kind, protecting her young, is truly dangerous in the best sense of the word.
And that type of post-parturition period after birth aggression is all about estrogen,
progesterone, those sorts of things.
Female aggression the rest of the time has testosterone as a major player at a much lower level
on the average, on the average, one always has to say, but it's basically the same punchlines.
In females, the lower levels of testosterone are essential for typical levels of aggression
and sexual behavior. None of us, they're not causing it. It's not sensitive to small individual differences. Same exact thing. You can get way over impressed with the
importance of allergens and females just as readily as in males. So in line with
that, how should we conceptualize testosterone? I realize there isn't a single
sentence or that can capture a hormone in all its effects
because hormones have so many different slow and fast effects on the brain, on other glands,
on their own, on the very glands that produce them.
But as I've heard you talk about testosterone today and over the years, I start to get the
impression that as the most misunderstood molecule in human health in the universe, it
has, it's clearly doing something
very powerful.
It's shifting the way that certain neural circuits work,
adjusting the gain on the amygdala as you described,
and certainly other things as well.
Is there any truism about testosterone,
like, and its relationship to effort,
or its relationship to resilience.
And in a way that maybe will help me and other people
sort of think about how to think about testosterone.
Yeah, maybe three separate answers to that.
The first one is, I think it's a fair summary
to think that when it comes to motivated, strong behaviors, what testosterone
does is make you more of whatever you already are in that domain.
Sexual arousal, libido, aggressiveness, spontaneous aggression, reactive aggression, things
of that sort.
It's upping the volume of things that are already strongly there.
Second way to think about it is, well, here's like my favorite finding about testosterone.
And this was some wonderful work by a guy John Wingerfield, who's one of the best behavioral and echronologists out there. And about 20 years ago, he formulated what
was called the challenge hypothesis of testosterone action.
What does testosterone do?
Testosterone is what you secrete when your status is being
challenged, and it makes it more likely
that you'll do the behaviors needed to hold onto your status.
OK, so that's totally boringly straightforward.
If you're a bagoon, if somebody is challenging your high rank, the appropriate response
in your part is going to be aggression.
All right, so we've just gotten through the back towards a stonestormal aggression
again.
But then you get to humans.
And humans have lots of different ways of achieving or maintaining status. And all you
need to do is go to like some fancy private schools, annual auction, and you will see all these
half-drunk alpha males competing to see who can give the most money away as a show of conspicuous like, you know, property that they have. And in a setting
like that, I mean, I haven't been able to take urine samples if there's times unfortunately,
but that shows the flip side of it. If you have a species that hands up status in a very
different sort of way, testosterone is going to boost that also. Okay, so that general,
it's a totally notive prediction.
Wow, take people in a circumstance,
say, playing an economic game,
where you get status by being trustworthy
and being generous in your interactions with the game.
If you give people testosterone,
does that make them more generous?
And that's absolutely the case, totally cool finding.
Showing you, I don't know, basically if you took a whole bunch of Buddhist monks and shot
them up with testosterone, they'd get all competitive with each other as to who could
do the most random acts of kindness.
And if we have a societal problem with too much aggression, the first culprit to look at is not testosterone.
The first to look at is that we hand out so much damn elevated
status for aggression in so many circumstances.
So I find that finding to be fantastic.
Third thing about subtlety of testosterone,
OK, so like some subtlety or behavioral effects,
you give testosterone to people and they become more confident. They become more self-confident.
Well, that's good. People pay to take all sorts of nonsensical self-help courses that will boost
your self-esteem. And that's a good thing unless unless testosterone makes you more confident, that is inaccurate.
And you're more likely to barrel into wrong decisions. What's shown in economic gameplay
is that testosterone by making you more confident makes you less cooperative.
Because who needs to cooperate? Because I'm on top of this all on my own.
Testosterone makes people cocky and
impulsive and that may be great in one setting, but if in the others you're absolutely sure
your army is going to overrun the other country in three days. So hell, let's start World
War I and you get a big surprise out of it. Testosterone altering risk assessment beforehand
probably played a big role in that kind of miscalculation.
Super interesting. I always think about testosterone and dopamine being close cousins in the brain,
not just because of their relationship through the pituitary and hypothalamus, that, of course,
but also because of dopamine's salient role in creating this bias towards exter reception.
You know, when somebody takes a drug with that increases dopamine or their
chocoblock full of dopamine, they tend with, I want to highlight 10,
because this is I'm really generalizing here, but they tend to focus on outward
goals, you know, things beyond the boundaries of their skin.
And testosterone seems to do a bit of the same.
It tends to put us into a similar mode
of perceiving the outside world in ways
that we're asking questions like,
how do I relate to this other of my species?
How do I relate to these goals?
Is there anything that we can do to better conceptualize
the relationship between testosterone
and dopamine and motivation?
Or would that just take us down the alleyways of neural pathways and the hypothalamus?
Which was fine too?
Well, I think it's got lots to do with sort of this massive revisionism about dopamine.
Everyone who, since the Pharaoh's got brought up being taught the dopamine is about pleasure and reward.
In terms of it isn't, it's about anticipation of reward and it's about generating the motivation,
the goal directed behavior needed to go get that reward. And before you know it, you're using
like elevated dopamine your entire life to motivate you to do whatever is going to get you like entry into heaven after life kind of you know it's it's doing that sort of thing.
So it's really about the motivation and what testosterone does even an individual super not aggressive and why testosterone replacement is often a very help thing for aging males is it increases energy,
it increases a sense of verinous, of presence of alertness, it increases motivation.
So that's a whole aspect which then takes us into is your motivation to get up and like
go, you know, hand out lots of soup and a soup kitchen for homeless people,
or is it to get up and go ethnically cleanse a village?
It's got much to do with what your makeup was
before the testosterone got on board.
So it's activating in an energetic sense
testosterone within minutes increases glucose uptake
into skeletal muscle, you're just more awake and alert
and all of that, and that has a lot to do with what dopamine does.
And as one might predict then, getting just the right levels
of testosterone infused into your bloodstream feels great to labber
at. They will lever press to get infused into the range
that optimizes dopamine release. So you're absolutely right, they're deeply intertwined.
Yeah, such beautiful biology there, and I love the way you encapsulate their relationship. I
want to ask about estrogen. We don't hear as about estrogen as often, and it's always interesting to me now doing
some public-facing education, you know, that testosterone is this very controversial molecule,
just to say it is almost controversial.
But estrogen doesn't seem to hold the same controversial weight and yet estrogen has a very powerful effects on both the animal brain and on the human brain of males and females
men
Do not want their estrogen to go too low terrible things happen. They will lose cognitive function libido can drop
So men need estrogen as well, but
perhaps
Maybe we can put the same filter on estrogen
as we did on testosterone. Are there any general themes of estrogen that people should be
aware of or do you think that are generally misunderstood? Is it really all about feelings
and empathy and making us more sensitive, I sense not. Now, and it's once again very context dependent, and if estrogen, after giving birth, is playing
a central role and you want to shred the face of somebody getting too close to your kittens
kind of thing, we know it's not just warm, fuzzy, you know, empathic kind of stuff. Esprogyn, you know, in lots of ways, could be summarized by, if you had a choice in the
matter between having a lot of estrogen in your bloodstream or not, go for having a lot
of estrogen.
It enhances cognition, exactly as you said.
It stimulates neurogenesis in the hippocampus.
It increases glucose and oxygen delivery.
It protects you from dementia.
It decreases inflammatory oxidative damage to blood vessels,
which is why it's good for protecting
from cardiovascular disease.
In contrast, it testosterone,
which is making every one of those things worse.
This brings up this mind field of the question, which is, so what about postmenopausal estrogen?
And all sorts of lab studies with non-human primates suggested that you keep
estrogen levels high after a monkey's equivalent of menopause, and you're
gonna keep brain
health a lot better and decreasing the risk of dementia, stroke, every such
thing. Aspergina is a great antioxidant, all of that. So in the 90s I think when
heally I'm forgetting her name, but when there was the first female head of the NIH,
burn it at healing, set up this massive prospect of human study. What was going to be the biggest one of all times, looking at the pluses and minuses of post-menopausal estrogen.
And tens of thousands of women, and this was going to, and they had to cut the show and study
short, because what they were seeing was estrogen
was not only doing the normal bad stuff
that you expect in terms of some decalsification stuff,
but it was increasing the risk of cardiovascular disease.
And it was increasing the risk of stroke,
and it was increasing the risk of dementia,
and this ground to a halt and everybody, they stopped the study in front page news and everybody
pan to that point. And nobody could make sense of it who had been spending the last 20 years studying
the exact same thing in primates and seeing all the protective effects. And the explanation turned out to be one of those things where like
law of unexpected consequences. Okay, menopause and women at last different lengths of time,
that may be a factor that's going to come. You know what? Let's not start giving our study subjects
more estrogen until they're totally past menopause. And when you've got that lag time in between, you shift all sorts of estrogen receptor patterns,
and that's where all of the bad effects come from.
Oil level monkey studies had involved just maintaining ovulatory levels into postmenopausal
period.
And you do that, and you get great effects.
Estrogen is one of the greatest predictors of protection
from Alzheimer's disease, all of that,
but it needs to be physiological.
Just keep going, keep continuing
what your body has been doing for a long time
versus let the whole thing shut down.
And suddenly, like, try to fire up the coal stoves at the bottom of the
basement kind of thing and get that going, there you get utterly different outcomes. And that caused a lot of
human health consequences when people suddenly decided that estrogen is infected,
neurologically, and danger, and of course, menopausal.
neurologically in danger and of course, menopausal. Wow, that's fascinating.
And I never thought that these steroid hormone receptors could, you know, by not binding
estrogen, being devoid of estrogen binding, I should say, could then set off an opposite
biochemical cascade.
Fascinating.
I guess it raises the question about testosterone replacement too, whether or not people should
talk to their doctor before too long.
Men and women talk to your physicians before too long to avoid these, whatever is happening
in these periods where there isn't sufficient testosterone and or estrogen, sounds like
it could cause longer term problems even when therapies are introduced.
Two additional misery slash complications.
So, okay, you're trying to understand you look at women with a history,
without postmanopausal estrogen replacement,
where it's done right, and you're seeing 20 years later,
estrogen is a predictor of a decreased risk of Alzheimer's,
then you've got to start
trying to do the unpacking prospective type studies how much estrogen at which times estrogen
is just a catch all term for a bunch of hormones, estrogen, estradiol, estradiol, how much of
each one of them, natural or synthetic. Go try to figure all of that out.
And the second complication is, it's often hard to say anything about what Estrichen does
outside the context of what progesterone is doing. And often it's not the absolute levels of either,
it's the ratio of the two. This is such a more complicated and consistent than testosterone.
And, you know, because you have to generate
dramatic cyclicity that like no male hypothalamus ever
has to dream of.
It's a much, much more complicated system.
Thus it's one more complicated to understand,
let alone like figure out what the ideal benefits
are of it.
Yeah.
I don't know what to make of the literature on dropping rates of testosterone and endocrine
disruptors.
I was at Berkeley when Tyrone Hayes published his data on these frogs that were drinking
water from various locations
throughout the United States, not just in California, and seeing very severe endocrine
disruption through blockade and of Androgen receptors and all sorts of issues.
And you hear this all the time now that sperm counts are dropping, that there are all these
endocrine disruptors, that there's birth control in the water, in the drinking water.
It all starts to sound a little crazy.
And yet I've also been fooled before by,
you know, I guess a good example would be,
there's a lot of crazy stuff in the world online
about all the terrible stuff in highly processed foods.
And yet you've got very respectable people
under chronologists at UCSF, like Robert Lustig saying,
yeah, a lot of these hidden sugars and these emulsifiers,
they're causing real problems.
So I've become more open-minded about the question.
And so are we suffering from drops in sperm counts
in testosterone and estrogen and fertility
as a consequence of endocrine disruptors
in the environment and food or because of social reasons.
Is there anything that we can hang our hat on, like real data that you're confident in,
or is it just a mess?
No, the phenomenon does appear to be quite real, cross-sectional studies, human populations, or I still don't understand why this was one
of the first things that has spotted decreasing testicle size and crocodiles.
Go figure why that was one of the first contributions to this, and I think the phenomenon is absolutely
real, and what you're then left with is it's too classic challenges, which is this is correlated with
something broad environmental toxins, which ones how much when, etc. and the other one always being
well, okay, dropping is a dropping enough to make a difference, how big of an effect is this and
those are where the jeries are still out. Yeah, it's an area that I know there's a lot of interest in and you've got groups of
people who won't touch a receipt at a store because of the BPAs that are on the
inks of the and then you've got people who don't care about those things. It's
it is a fascinating area and I hope that more biology will be done there soon. I'd like to briefly return to stress.
You described a study once about two rats, one running on a wheel voluntarily, one who's
basically stuck in a running wheel and is forced to run anytime rat number one runs.
So in one case, the rat is voluntarily exercising.
And in the other case, the rat is being forced to go to PE class, so to speak, but really
and seeing divergent effects on biology.
And I'd like to just touch into this and use it as kind of a case study for stress mitigation
in general.
I'm rather obsessed in our colleague David Spiegel, Associate Chair of Psychiatry.
Stanford is obsessed with this question of how humans can start to mitigate their own
stress.
What do you think about stress mitigation and what should we do as individuals and as families
and as a culture to try and encourage people to mitigate their
stress, but in ways that are not going to turn us into rat number two, where we're being
forced to mitigate our own stress and therefore it becomes more stressful.
And what you see is rat number one gets all the benefits of exercise.
Rat number two gets all the downsides of severe stress with the same exact
muscle expenditure and movements going on
perfectly yoked great example that it's the interpretation in your head and
I haven't kept up with that literature, but I'll bet you rat number two is having a whole lot more activity
And it's a nygdala, then is rat number one
Okay, so stress mitigation, anything I should say here, I should preface with reasonably
good at telling people what's going to happen if they don't manage their stress, but I'm
terrible at actually like managing stress or advising how to manage it.
I'm much better with the bad news aspect of it.
But what do you see is by now just a classic literature half a century old,
sort of showing what are the building blocks of stress. Not who you step outside and you've
been gored by an elephant and can you grow from your
experience and what doesn't kill you makes you stronger. You could have a
stress response but you're in the realm of the gray zone of ambiguous social
interactions, that sort of thing. Some people have massive stress responses,
there's not at all in between, enjoy it. Like, what are the building blocks and what makes psychological stress stressful?
And the first one is exactly what is brought up by that running study.
Do you have a sense of control? A sense of control makes stressors less stressful.
And the running wheel shows that or studies where you, you lab or at or you college freshman
volunteer have been trained that by pressing the lever you're less likely to get a shock.
And today you're at the lever they're working away and unbeknownst to you.
The lever has been turned off and it has no effect on shock frequency, but because you think
you have some control, you have less of a stress response. If you were a rat and doing this day in and day out, you're less likely
to get an ulcer. So, a sense of control related to that is a sense of predictability. Rat
gets shocked, human gets shocked, whatever, and the scenario either is, the shocks come
down and then, or the shocks come down and then,
and 10 seconds before a little warning light comes on.
And when you get the warning light, the shocks aren't distressed for it.
You got predictability because if you're not getting warning lights, any second you could
be a half second away from the next shock, you get a warning light, and you know that if
there isn't one, you've got at least 10 seconds worth of relaxation,
you know what's coming, you can prepare your coping responses, and best of all, after work, you know when you're finally safe,
when you can recover from it, and that's enormously protective.
Others outlet for frustration, you take a rat who's getting
shocked and if it could run on a running wheel, that's a protective thing. It's doing
it voluntarily. If you've got a rat and a can-naw on a bar of wood, a stressor is less stressful.
Unfortunately, if you have a rat or primate, we're human, and they're stressed, the ability
to aggressively dump on somebody smaller and weaker also reduces the stress response and
displacement aggression.
In the fact that displacement aggression reduces stress, accounts for a huge percentage
of Earth's like unhappiness.
So all of those variables get social support as well. That's
a good one, interpreting circumstances, being good news rather than bad. So you've got this very
simple sort of like take home recipe, go out and get as much control and as much predictability,
there's many outlets and as much social support as possible and you're going to do just fine and you go out and do that and that's a recipe for total disaster because it's much much more subtle
than that.
One great example.
Okay, so you're getting shocks.
You want a warning beforehand.
Get a little warning light 10 seconds before each shock.
It's wonderfully protective.
Get a warning shock.
Get a warning light one second before the before the shock doesn't do anything.
There's not enough time for you
to get the psychological benefits of the anticipation.
Now instead, get the little warning coming on two minutes
before each shock and it's gonna make things worse
because you're not gonna be sitting there like,
reveling in sort of your sense of predictability things worse because you're not going to be sitting there like, you know,
reveling in sort of your sense of predictability and it's soon going to be
oh, you're going to be sitting there for two minutes saying, damn, here it comes.
Predictive information only works in a narrow domain. Similarly,
control. Do you want to have a sense of control in the face of stress? And the answer is only
if it is a mild to moderate stressor. Because what's happening then, your sense of control
is completely independent of the reality of whether you have control or not. But in the face
of mild to moderate stressors, a sense of control gets interpreted as, wow, look how much worse things could have been.
Thank God I have control. I'm on top of the semester where I fade. In contrast, if it's a major
stressor, all that a, you know, arbitrary sense of control does is make you think, oh my God,
look how much better it could have been, I could have prevented it.
And we all know that intuitively, like we do that in the face of people's worst stressors,
nobody could have stopped the car the way the kids suddenly jumped out.
It wouldn't have mattered if you had gotten them to the doctor a month ago instead of
now.
It wouldn't have made me, you didn't actually have any control. And what you
see is, you absolutely want to have a huge sense of control over mild to moderate stressors,
and especially ones that result in a good outcome, hooray for me. And in the face of horrible stressors,
what you want to do is like self-deception and like truth and beauty don't
necessarily go hand-and-hand at that point and that's why stress management
techniques, control and predictability, wind up being far worse than neutral if
you're preaching that to somebody homeless or somebody with terminal cancer
or somebody who's a refugee, tell a neurotic
middle-class person that they have the psychological tools to turn hell into heaven.
And there's some truth to that.
Do the same thing to somebody who's going through a real hell.
And that's just privileged, you know, heartlessness to do that because that doesn't work.
Or more, you know, outlets, if you're out, let's say, damaging, that's not a good way to mitigate stress.
Social support, if you're confusing mere acquaintances for real social support, you're going to have the rug pulled out from under you at some point.
If you're mistaking social support for being, going and bitching and moaning
and demanding support in this from everyone around you,
rather than you doing some of that, reciprocally,
that's not gonna work very well either.
Yeah, oh, it's not simple.
It's not for nothing that lots of us are really lousy at,
like being good friends and things like that and why it takes a lot
of work to do it right.
Because you do it wrong and it may temporarily seem like a great thing, but when it turns
out to be completely misplaced faith, you're going to be feeling worse than before you started.
Interesting.
These days there's a lot of interest in using physical practices to mitigate stress, trying
to get out of the ruminating.
To some extent, take control of neural circuits in the brain by using exercise and using breathing
and hypnosis.
Of course, hypnosis has a mental component as well. What are your thoughts on
stress mitigation from the standpoint of okay so we don't want to be rat number two we want to
select something for ourselves so we have to take the initiative for ourselves being forced into
exercising is not it could actually have negative health, they perhaps. So we need to pick something that we like, we need to take control of it.
In terms of supporting other people, you touched on that a bit.
What is the best way to support other people?
Is it to talk about the stressful thing?
I mean, I'm not asking you to place psychologists here, but I find divergent data on this.
We can spin ourselves up into a lather by ruminating on something
and language seems to me like a, it's a wonderful tool, but it's also a fairly deprived tool
because it doesn't really get into the core of our physiology like something like breathing
wood.
So what are your thoughts on more, for lack of a better way to put it, more head-centered,
cognitive approaches to stress mitigation versus kind of going at the core physiology?
Cold showers now or even a thing, to some extent, you know, just to get people stress
acclimated, voluntarily taking cold showers, you know.
That makes some sense physiologically pre-conditioning for when the real stressors come.
In terms of what you bring up,
oh, transcendental meditation, mindfulness, exercise,
prayer, sort of reflecting on gratitude,
all that sort of thing, collectively, they work on the average.
They work in terms of they can lower heart rate and cholesterol levels and have all sorts of good outcomes, but they come.
Provises one is exactly the caveat that comes out of the running wheel study is it doesn't matter how many of your friends swear by this stress management technique. If doing it makes you want to scream your head off after 10 seconds, that's not
the one that's going to work for you. So, you know, read the fine print in the testimonials,
but it's got to be something that works for you. Another one is the stress management type
techniques that work. You can't save them for the weekend. You can't save them for when
you're stuck on hold on the phone with the new act for two minutes. It's got to be something where you stop what you're doing
and do it a virtually daily or every other day and spend 20, 30 minutes doing it. And
what you see coming out of that is this like 80, 20 rule from economics, 80, 20, 80 percent
of the complaints and the store come from 20% of the
customer's things like that.
What you see is if your entire life consists of every single thing on your shoulders that
you can't say no to 24, 7, if you've stopped that and finally said, my well being is important
enough that I'm finally going to say no to some of
the stuff that I can't say no to and I'm going to do it every day for 20 minutes. Whatever stress
management technique you then do in those 20 minutes sort of who knows what you're already 80%
of the way there simply by having decided your well-being is important enough that you're going
to stop every single
day and have that as priority.
And that's exactly the same finding that you find people with chronic depression untreated
that nearly calling and getting an appointment to see a mental health professional, people
start feeling better or ready.
Because it's evidence that you've been activated and you matter enough to do this
and you could concede that this would actually have a good outcome rather than the hopeless one.
Just doing something meditative or reflective every day or so and it hardly even matters
which one you're doing. And what comes out of that is thus another warning,
which is do not trust anybody who says
it has been scientifically proven
that their brand of stress management
works better than the other ones.
Just watch your wallet at that point.
Yeah, amen.
I think one of the core goals of my lab
and David Speagles lab,
and I know you've worked with David
and published papers with David as well,
is to really try and find out,
what are the various entry points to this thing
that we call the autonomic nervous system
and the stress system and the systems that,
when gone unchecked, really can take us down a dark path.
And the idea that there are so many entry points
is really the one that keeps,
what the data keep telling us over and over again.
So there's no magic breathing tool or exercise.
It's any variety of those or one of those.
And again, we come back to this idea that it's the one that you select and the one that
you make space for and it's the one that you hopefully enjoy that's going to work best
in terms of physiology.
I'm walking up and on for those people who are stuck around you.
Right, absolutely.
And that brings me to this question of, I find it amazing that how we perceive an event
and whether or not we chose to be in that event or not can have such incredible different effects on circuitry of the brain
and circuitry of the body and biology of cells.
And in some ways, it boggles my mind like how can a decision made presumably with the
prefrontal cortex, although other parts of the brain as well?
How can that change essentially the polarity of a response in the body?
And, I mean, you've talked before about type A personalities, and we don't have to go into
all the detail there for a sake of time.
But it is interesting that the effects of endothelial cells, I mean, literally of the size of the
portals for blood, are in opposite direction, depending on whether or not somebody
wants to be in a situation as a highly motivated person.
Maybe you could just give us the top contour of that,
because I think it really illustrates this principle
so beautifully, and then maybe if you would,
you could just speculate on how the brain might have
this switch to turn one experience from terrible to beneficial or from beneficial
to terrible.
It's really fascinating.
Well, all you need to do is like tonight before you're going to sleep and you're lying
in bed and you're nice and drowsy and you're heart beating nice and slow, you'll start
thinking about the fact that, you know, that heart is going to beat forever.
And imagine your toes getting cold after we're going to imagine the flow of blood coming
to a halt and all of you clotting.
And if you're going to be doing something with your physiology at that point, that 99%
of mammals out there only do if they're running frantically.
And you're going to be turning on your sympathetic stress response with thought, with emotions, with memory.
And the measure of that is just how much the cortex and the limbic system sense projections down to all the autonomic regulators in the brain. You can think autonomic regulatory neurons into action
in ways that only other animals can do with like extremes of environmental circumstances.
Given that, and the autonomic role, I mean the other big challenge and understanding it is gigantic individual differences. And that's, you know, we talk about the optimal amount of stress that counts as stimulation.
And in general, that stress, that's not too severe and doesn't go on for too long and
there's overall and a benevolence setting.
And under those conditions, we love being stressed by something unexpected and had a control
and predictability like a really interesting plot turn in the movie you're watching.
That's great, but you get the individual differences that somehow has to accommodate the fact
that for some people, the perfect stimulatory amount of stress is like getting up early
for an odd-a-bond bird Autobahn bird watching walk next Sunday morning,
and for somebody else, it's signing up to be like a mercenary in Yemen.
And tremendous individual differences that swamp any simple, you know, prescriptions.
Yeah, the prefrontal cortex, this thinking machinery that we all harbor, it's such a double-edged sword and
what's remarkable to me is how the areas of the brain like the hypothalamus and the amygdala, they're sort of like switches.
I mean, they there's context and there's gain control, you talked about the gain control by testosterone, etc.
But they're really like switches. I mean, if you stimulate ventramediohypothalamus, you get the right neurons, and the animal will
try and kill even an object that's sitting next to it.
You tickle some other neurons, it'll try and mate with that same object.
I mean, it's really wild.
I think there are probably rules to prefrontal cortex also, but it sounds like the context
plural from which prefrontal cortex can draw from, is probably
infinite, so that we could probably learn to perceive threat in anything, whether or not
it's another group or whether or not it's science or whether or not it's somebody's
version of the shape of the earth versus another.
I mean, it's like, you can plug in anything to this system and give it enough data.
And I think it sounds like you could drive a fear response or a love response.
Is that overstepping? Or a mixed, horribly ambivalent one that does changing by the millisecond.
And then like, can we actually contradictory? No, that's absolutely the case. The prefrontal cortex, I more than once have regretted having
wasted 30 years of my life studying the hippocampus when I should have been studying the prefrontal cortex,
because it's so much more interesting what it does, and it's all this contextual stuff.
It's all the ways in which it's not okay to lie in this setting, but it's a great thing in another.
It's not okay to kill unless you do it to them and then you get a medal. It's not all of this
social context, the moral relativity and situational ethics stuff. That's the prefrontal cortex that's
got to master that and that winds up meaning that's place in your brain more than anywhere where you say your perception of things can powerfully influence the reality of what's coming into you. back to testosterone. Okay, so exercise boosts up testosterone levels does exercise and success
do it more than exercise and failure of literature back in the 80s or so. Looking at outcomes
of marathons to testosterone relies more on the people who win than the losers wrestling matches.
Things are that's where with a simple prediction and the answer round of being, you didn't see a simple answer.
Okay, you win the marathon, that's not necessarily an increase of predictor,
an increase testosterone. What's that about? And then you find like, you know, the winner,
testosterone decreases, and you find out the guy who came in 73rd is having a massive testosterone increase.
Whoa, what's that about? What's that about? It's far more human subtlety. The guy who won the race
has a decline in testosterone because he came in three minutes later than he really, really was
expecting and everybody now is going to be writing it up about how he's over the hill.
And the guy who came in 73rd is having
a boost of testosterone because he was assuming he'd be dead from a heart attack by the third
mile. And instead he managed to finish, it's this interpretive stuff going on in there. And
that's what prefrontal cortex is about.
Stan Mournick, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD,
MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, MD, I raises this question of cognitive flexibility. You know, can we tell ourselves that something is good for us even if we're not enjoying
it?
Can we wriggle around these corners of choosing the exercise or doing the, you know, I personally
am not a big fan of long bouts of meditation, but I've benefited tremendously
from things like dedicated breathing and shorter rounds of meditation.
Can I tell myself that it's good for me and wriggle around the corner and get my physiology
working the way I want?
Do we have cognitive flexibility?
Can I be that third place runner and tell myself, well, at least I'm, I came in, I wanted to win so badly.
That was my primary goal, but another goal was to beat my previous time, and I did do that.
And so, I mean, it's, what, to what extent can we toggle this relationship between the
prefrontal cortex and these other more primitive systems. And an enormous amount.
For example, being low in a hierarchy is generally bad for health and like every mammal out there
including us.
But we do something special, which is we can be part of multiple hierarchies at the same
time.
And while you may be low ranking and one of them, you could be extremely high ranking
and another, you're like, have the crappiest job in your corporation, but you're the captain
of the team softball, of the softball team this year for the company.
And you better bet that's it.
Somebody who's going to find all sorts of ways to decide that nine to five Monday to Fridays just stupid paying the bills and what really matters is the prestige
of the weekend. You're poor but you're the decan of your church here and so we
can play all sorts of psychological games with that. One of the most
like consistent reliable ones that we do and need to use the frontal cortex like crazy is,
somebody does something rotten and you need to attribute it and the answer is they did
something rotten because they're rotten. Always have been, always will be this constitutional
explanation. You do something rotten to somebody and how do you explain it afterward a situational one. I was tired, I was stressed,
and this sort of setting I misunderstood this. We're best at excusing ourselves from bad things
because we have access to our inner lies and we've got prefrontal cortexes that are great at
coming up with a situational explanation rather than, hey, maybe you're just like a selfish rotten
human, you need to change. And that's all prefrontal cortex. And we do that every time we don't let somebody
merge in the lane in front of us, even though you curse somebody who does the same thing to you.
to you endlessly. You're a love it.
Your statement about the fact that we can select multiple hierarchies to participate in.
To me, it seems like a particularly important one nowadays with social media being so prevalent.
I know you're not particularly active on social media, although you might be pleasantly
or I don't know, unpleasantly surprised to find out
that there's a lot of positive discussion
about you and your work,
so you don't even need to be on there.
We'll just continue to discuss your work.
But what's interesting about social media,
I found is that the context is very, very broad.
I mean, one could argue that who one selects to follow
and which news articles you're reading, et cetera,
can create a kind of a funneling of information that itself can be dangerous.
You know, more verification of crazy ideas or even just less exposure to new ideas.
But there's also this idea that social media is an incredibly broad context.
So as you scroll through a feed, it's no longer like being in your eighth grade classroom or your
Office or your faculty meeting. You are being exposed to
thousands if not millions of
Context this meal that soccer game this person's body this person's intellect
YouTube is another example. It's a it's a vast vast landscape and it's
So the context is is completely mishmash. Whereas I'm assuming we evolved, I think we did evolve, under context that we're
much more constrained. We interact with a limited number of individuals and a limited
number of different domains. Seasons tended to be constrained us all. And of course, then
we got phones and televisions and this started to expand, but now more than ever, our brain, our prefrontal cortex and our sense of where we exist in
these multiple hierarchies has essentially wicked out into infinity.
How do you think this might be interacting with some of these more primitive systems and
other aspects of our biology.
Well, I think what you get is in some ways
the punchline of what's most human about humans,
which is over and over, we use the exact same blueprint,
the same hormones, the same kinases,
the same receptors, the same everything.
We're built out of the exact same stuff as all these other species out there,
and then we go and use it in a completely novel way.
And usually in terms of being able to abstract stuff over space and time
and dramatic ways, so okay, you're a low rankingoon, and you can feel badly because you just, like,
killed a rabbit, and you're about to eat and some higher-ranking guy boots you off
and takes it away from you.
And you feel crummy, and it's stressful, and you're unhappy.
We are doing the exact same things with, like, our brain and bodies when we're losing
a sense of self-esteem.
But we can do it by watching a movie character on the screen and feeling inadequate compared
to how wonderful or attractive they are.
We can do it by somebody driving past us in an expensive car, and we don't even see
their face, and you can feel belittled by your own socioeconomic
status.
You can watch like the lifestyles or the rich and famous or read about what Bezos is up
to.
And for some reason, decide your life is less fulfilling because you didn't fly into
space for 11 minutes.
And so you can feel miserable about yourself in ways that no other organism can,
simply because we can have our meaningful social networks include like the party you're reading
about on Facebook that you weren't invited to because it's taking place in Singapore and you don't
know any of those people but nonetheless somehow that could be a means for you to feel less content
with who you've turned out to be. Do you take steps in your own life to actively restrict the
context in which you think and live and contemplate in order to enhance your creative life, your intellectual life,
are those steps that you actively take?
Well, I very actively don't know how to make use
of anything with social media.
So I guess that counts as my having thus actively
chosen not to learn how.
So that's the case.
Certainly for the last year and a half like lots of people,
I've gone through stretches where I've managed it sort of in foursome more. It's hurry I'm on
looking at the news. And that was wonderfully freeing. I think in the larger sense though,
you know, in addition to me being a neurobiologist, I should have spent decades spending part of each
year studying wild baboons out in a national park in East Africa.
And I'd spend three months a year without electricity, without phone calls, with, you know, going
12 hours a day without saying a word to somebody.
And when I finally would, it would be somebody a nomadic pastoralist guy in a
different language. Yeah, I did 90% of my like insightful thinking about anything in the
laboratory during those three months each year or not one in the lab and not when inundated
with stuff.
Well, I think there's a shifting trend towards trying to create a narrowing of context
that people and I like what I see.
I have a niece, she's 14 years old and she and her friends are very good at putting their
phones away.
They say, we're not going to have our phones for this interaction, especially after, and
I realize we're still somewhat in this, it's unclear where we're excited, but app 2020
was so restrictive and she was so
separated from her friends now. It's let's really focus on
being together and not bring in all these other elements
from our phones. And that brings me great hope for that
generation. Maybe they will, you know, or who knows, maybe
they'll run off and study baboons. We need more field
researchers. So along the lines of choice, I'd like to shift gears slightly and talk about free will,
about our ability to make choices at all.
Well, my personal way out and left field inflammatory stance is, I don't think we have a shred of free will.
Despite, you know, 95% of philosophers, and I think probably the majority of neuroscientists
saying that we have free will in at least some circumstances, I don't think there's any at all.
And the reason for this is you do something,
you behave, you make a choice, whatever,
and to understand why you did that,
where did that intention come from?
Part of it was due to the sensory environment
you were in in the previous minute.
Some of it is from the hormone levels
in your bloodstream that morning. Some of it is from whether you had a wonderful or stressful last three
months and what sort of neuroplasticity happened. Part of it is what hormone levels you were exposed
to as a fetus. Part of it is what culture your ancestors came up with and thus how you were parented when you were a kid. All of those are in there and you
can't understand where behavior is coming from without incorporating
all of those. And at that point, not only are there all of these
relevant factors, but they're ultimately all one factor.
If you're talking about what evolution has to do with your behavior
by definition, you're also talking about genetics.
If you're talking about what your genes have to do with behavior
by definition, you're talking about how your brain was constructed
or what proteins are coded for.
If you're talking about like your mood disorder now, you're talking about like your mood
disorder now, you're talking about the sense of efficacy.
You were getting a five year old.
They're all intertwined.
And when you look at all those influences, basically,
like the challenges, show me a neuron that just caused
that behavior, or show me a network of neurons,
that just caused that behavior or show me a network of neurons that just caused that
behavior and show me that nothing about what they just did was influenced by anything
from the century environment one second ago to the evolution of your species.
And there's no space in there to fit in a free will concept that winds up being in your brain, but not of your brain.
There's simply no wiggle room for it there. So I can appreciate that our behaviors and our choices
are the consequence of a long line of dominoes that fell prior to that behavior.
prior to that behavior. But is it possible that I can intervene in the domino effect, so to speak?
In other words, can my recognition of the fact that genes have heritability, there's an
epigenome, that there's a hormonal context, there's a historical context. Can the knowledge of that give me some small, small shard of free will?
Meaning does it allow me to say, ah, okay, I accept that my choices are somewhat predetermined.
And yet, knowing that gives me some additional layer of control. Is there any philosophical or biological universe in which that works?
No. All of that can produce the wonderfully positive belief that change can happen.
Even dramatic change. You know, worst of circumstances, most unlikely people on change can happen.
Things can change. Don't be fatalistic. Don't decide because
we're mechanistic biological machines that nothing can change
can happen. But where people go off the rails is translating that into we can change ourselves. We don't.
We can't because there's no free will. However, we can be changed by
circumstance. And the point of it is like you look at an pleasia, a sea slug that has learned to retract its gill in response
to a shock on its tail.
You can do like conditioning, public and conditioning on it, and it is learned its behavior has been
changed by its environment.
And you hear news about something like horrifically depressing going on and, you know, you refugees
in wherever. And as a result, you feel a little bit more helpless, and a less of a sense of efficacy in the world.
And both of your behaviors have been changed. Okay, okay, I guess that's good.
But the remarkable thing is it's the exact same neurobiology,
the signal-transduction pathways that were happening
in that seasonal incorporate the exact same kinases and proteases and
phosphatases that we do when you're having mammalian fear conditioning or when
you're alert, it's conserved.
It's the exact same thing.
It's simply playing out and obviously a much, much fancier domain.
And because you have learned that change is possible, despite understanding mechanistically
that we can't change ourselves volitionally,
but because you understand change is possible,
you have just changed the ability of your brain
to respond to optimistic stimuli,
and you have changed the ability of your brain
to now send you in the direction
of being exposed to more information you in the direction of being exposed
to more information that will seem cheerful rather than depressing. Oh my god, that's amazing.
What Nelson Mandela, Martin Luther King, and all these folks did. Wow, under the most
adverse of circumstances, they were able to do, maybe I can also, maybe I can go read more about people like them to get even more data points
of change to neurochemistry so that your responses are different now. And you know, you're tilted
a little bit more in that direction of feeling like you can make a difference instead of it's
all damn hopeless. So enormous change can happen. It but the last thing that can come out of a view of,
we are nothing more or less than the sum of our biology
and its interactions with environment,
is to throw up your hands and say,
and thus it's no use trying to change anything.
So we can acknowledge that change is extremely hard
to impossible, that circumstances can change,
and yet that striving to be better human beings is still a worthwhile endeavor. Do I have that correct?
Absolutely. Because simply the knowledge, either from experience or making it to the end of the
right neurobiology class, has taught you that change can happen within a framework
of a mechanistic neurobiology.
You are now more open to being made optimistic by the good news in the world around you.
You are more likely to be inspired by this or that.
You are more resistant to getting discouraged by bad news simply because you now understand it's possible.
Yeah, somebody who spent much of his career working on the hippocampus, I have to assume that you
are a believer in neural plasticity, that neural circuits can change in response to experience,
and that some of the same so-called top-down mechanisms of prefrontal cortex that we were talking
about before can play a role there, that the decision to try and change and the pursuit of knowledge and the pursuit of experience
can shape our circuitry and therefore make us different machines, so to speak.
Yeah, and not only can say prenatal hormone exposure change the way your brain is being
constructed, but learning that prenatal hormone exposure can change the way your brain is being constructed, but learning that prenatal
hormone exposure can change the construction of your brain will change your brain right
now and how you think about where your intentions came from.
Wow, maybe that had something to do with it.
The knowledge of the knowledge is an effect or an of itself.
That's such an important and powerful statement to hear.
I think that many people think that if a tool,
it doesn't involve a pill or a protocol that it's useless.
And certainly there are pills and protocols that are very useful in a variety of context,
for a variety of things, but the idea that knowledge itself, whereas you put it knowledge
of knowledge, is itself a tool, I think, is a very important concept for people to embed
in their minds.
And listen, I'm so grateful for this discussion and for you raising these topics.
I think that people, you know, many
people know your work on testosterone on stress and we've covered some of that today.
The work on free will and this idea that we are hopeless or that we are in total control,
I think I'm realizing and listening to you that neither is true and that the solution resides in understanding
more about free will and lack of it and also neuroplasticity.
You're working on a book about free will.
Are you willing to tell us a little bit about that book and where you are in that process
and what we can look forward to. Yeah, it's going really slow.
Title is determined, a science of life without free will.
And essentially the first half of the book is trying to convince a reader,
okay, if not that there's no free will whatsoever, but at least there's a lot less than is normally assumed.
And I'm going through all the standard arguments
for free will and why that doesn't make sense
with 21st century science.
And that has led to reading a lot of very frustrating philosophers
who basically are willing to admit that stuff is made out of like Adams and molecules
Like there's a physical reality to the world. They're not just relying on magic
but that they believe in free will for magical reasons and
Where it doesn't make sense. Okay, so the first half of the book is to hopefully convince people that there's much less free will and needs to think.
And then the second half is this gigantic junk shirt built around the fact that I haven't thought there's any free will since I was like an adolescent.
And despite thinking that way, I still have absolutely no idea how you're supposed to function with that belief. How are you supposed to like
go about everyday life if anything you feel entitled to isn't true. If any anger and
hatreds you feel aren't justified. If there's no such thing as appropriate, you know, blame
or punishment or praise or reward, none of it makes any sense. And somebody like
even compliments you on your haircut, and you've been conditioned to like say, oh, thanks,
as if you had something to do. How are we supposed to function with that? And so the second
half is wrestling with that. And what the punchline there is, is it's going to be incredibly hard. And if you think
it's going to be hard to subtract a notion of free will out of making sense of like serial murders, it's going
to be a thousand times harder of making sense of when somebody says good job to you. And because it's the exact same
unreality of sort of our interpretations, it's going to be incredibly hard. But nonetheless,
when you look at the history of how we have subtracted the notion of agency,
notion of agency, out of all sorts of realms of blame, starting with thinking that witches caused hail storms 500 years ago to the notion that psychodynamically screwed up mothers
caused schizophrenia, we've done it.
We've done it endless number of times.
We've been able to subtract out a sense of volition and understanding how the world works around us.
And we don't have murderers running
a muck on the street.
And society hasn't collapsed into a puddle.
And in fact, it's a more humane society.
So the good news is it's possible because we've done it
repeatedly in the past, but it's going to be hard as hell.
And it's hard as hell to try to write about that coherently, I'm discovering. So it's going slowly.
Well, I speak for many, many people when I say that we're really excited for the book when it's done
and we will patiently wait, but with great excitement for the book
determined, you said is the title, correct? Yeah, determined from the science of life without
free will seems like you can't publish a book these days without a sub title. So that's, that's
it. Fantastic. Well, very excited to read the book. Very grateful to you for this conversation today.
I learned a ton.
Every time you speak, I learn.
And for me, it's really been a pleasure and a delight
to interact with you today and over the previous years.
I should say, as colleagues, and thank you again, Robert,
for everything that you do and all the hard, hard work
and thinking that you put into your work.
Because it's clear that you put a lot of hard work and thinking and we all benefit
as a consequence.
Thanks, and thanks for having me.
This was a blast.
Thank you for joining me for my conversation with Dr. Robert Sapolsky.
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