How Hormones Shape Sexual Orientation & Behavior | Dr. Marc Breedlove

It's been seen over and over, I mean, it's really one of the rock solid findings in human sexuality.

“So the way to emphasize the difference is if a baby boy is born today, if he has no older brothers,”

his odds of being gay when he grows up is about 2%. I'm pretty low. But if he had one older brother,

his odds go up by a third. Okay, 2.6. And if he has two older brothers, they go up a third again.

All right, now we're at 3.5. It turns out you got to have like a dozen older brothers just to have a 50/50 chance. Welcome to the human lab podcast where we discuss science and science-based tools for everyday life. I'm Andrew Huberman and I'm a professor of neurobiology and ophthalmology at Stanford School of Medicine. My guest today is Dr. Mark Breedlove. Dr. Mark Breedlove is a professor of neuroscience at Michigan State University and he is an expert in how hormone shape the developing

brain, in particular how they influence sexual orientation. As you'll learn today, the amount of testosterone that a fetus is exposed to while in the mother has a profound impact not only on the

“ratio of finger lengths, yes, you heard that right, but it also plays a meaningful role in sexual”

orientation. And in fact, there's a correlation there between finger-length ratios and sexual orientation.

Now as wild as that may seem, that result has now been confirmed many times over in humans and in animals. And today, you'll understand why. You'll also learn that every time a woman is pregnant with a male, there's a biological trace of that which biases the likelihood that her next male offspring will be either heterosexual or homosexual. Now I know this sounds really out there, but these are extremely solid biological findings for which the mechanisms are now understood

for both animals and humans. It turns out that the hormones we are exposed to while we are in the womb shape not only the preference for whether somebody is attracted to males or females, but also in a version to the opposite. Meaning there appears to be the formation of circuits for being attracted to one sex and not attracted to the other. Today you'll also learn how hormones impact the amount of rough and tumble or social play that kids engage in, the interplay between

nature and nurture in shaping male versus female differences and sexual orientation. Dr. Breedlove is one of the long-standing pioneers in this field of how hormone-shaped brain development and psychology. We approach these questions through the lens of biology and statistics. So today's is not a political discussion. Instead, it's a discussion about what is known and what is still not known about this profound aspect of our species. Oh, and we also talk about

“gay rams. Yes, that's a real thing and it has important implications for everything we've mentioned”

thus far. By the end of today's episode, you'll surely think differently about the relationship between hormones and brain development, nature and nurture, and romantic partner choice. 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,

today's episode does include sponsors. And now for my discussion, with Dr. Mark Breedlove. Dr. Mark Breedlove. Welcome. Thank you. I'm delighted to be here. Very exciting. Been 25 years since we stood in the same physical space. I know. How can that be possible when I feel like, you know, just saw you a few days ago, but then when you look great, you'll look the same. So we can talk a longevity protocol.

But I'm trying to have a blonde look at my hair apparently. Well, I've wanted to have you on this podcast since I launched it because you work on one of the most interesting things in the world, which is how and why people become who they are and how hormones play a role there, how genes play

a role there. If you're willing, I'd like to jump from the high dive to the deep end of first.

Right. All right. Let's talk about this finger-length ratios, sexual orientation study that you published and somehow I landed on that paper. That's not why I want to talk about it. I want to talk about because it's an incredibly interesting set of findings. Other people have done the sameish experiments. And there's a whole context there about how hormones influence sexual orientation independent of behavior. We need to set back a little bit for the context of

one thing that your listeners might not know is, you know, in the year 2000, there was still a lot of people who regarded same-sex orientation as a choice, a lifestyle choice. That was the political combination of words that meant you could disapprove of people because they were attracted to the same sex. Of course, I'm at Berkeley. I didn't have any truck with such notions at all and

do in class where I, as I'm going to put you to it. Now, so remember the first time you had a crush

it might have been someone on TV, might have been someone to play around, et cetera. So think about that and I want you to tell me about how old you were at the time in a moment. My guess is it was before puberty. Yeah, I was six. And I hit puberty somewhere starting around four. So it had nothing to do with puberty, right? It was this thing that happened and I'll share my experience. So I'm about six or seven. I couldn't have been more than seven. And Marilyn Monroe was on TV and dating myself

and there's a close-up with that face and the mall, et cetera. And afterwards, I'm just so

“agitated. I don't, you know, I don't, I don't, and I know nothing about sex. I remember I had our”

hard time going to sleep. So it was like something about this was really agitating me and I didn't choose to have that reaction. And my guess is that whatever sex you had your first crush on, that's the one you were going to be attracted to the rest of your life. Yeah, it's been constants.

Yeah, so this idea that it was a choice that always just seemed so absurd to me. On the other hand,

even though, you know, I've been doing animal research with giving hormones early in life and seeing what it did the nervous system, et cetera. And every time I wrote an NIH grant, I said, well, you know, the effect of early hormones may be important for human behavior, but to tell you the truth, I never actually believed that, right? It was just, I just wanted to justify it because it seemed to me that we are so sensitive to social influences. And we have this long stretch of time,

where we're, you know, our brains are still growing at a fetal rate of growth until at nine or 10 years of age. And we're taking in so much information and think of what a heterosexual world is, right? I mean, all those Disney movies with Prince Charming and, et cetera. And so it

always seemed to me that that social learning would be more than enough to explain why 95% of

people are straight. But that doesn't mean that was a choice, and it doesn't mean that they would even be aware of what the social influence was. So, so my example is, I speak English, it's, you know,

“hopefully monoling will only language as well. Well, I don't remember learning English,”

and I certainly didn't choose to earn English, but I'm sure that it's English because of social influences, right? So that was where I stood on the question of sexual orientation until 1998, 1999, when this fellow at University of Texas, Dennis McFadden, came out with a paper where it really made me think that prenatal testosterone might have an effect after all, despite my expectations. And this was looking at auto acoustic emissions. Do you want to talk about those? These are people's

ears making noise. Yeah, I mean, right now, in this studio, if I, if I shut up for a moment, your ears will continue to make a little popping sounds that you're not aware of, because having grown up with it, the brain stopped you from perceiving those long ago. Well,

“but if Dennis puts you in a soundproof room and puts a very sensitive microphone in your ear,”

he'll hear these pops. And I won't go into the acoustics of why that's a good thing, right? It helps you to focus on the sounds you want to hear. But what Dennis knew is there's a sex difference in how many of these auto acoustic emissions are being made? Girls make more, and it's president birth. So Dennis comes out with a strange study. I mean, who would do such a thing, where he proposes, well, since the sex difference is president birth, it might reflect prenatal

testosterone. And so he measured the auto acoustic emissions in straight men and gay men and straight women and lesbians. And he reports that the compared to straight women, the lesbians have fewer of these auto acoustic emissions than straight women. It's like, well, what, what, how would that happen? I couldn't think of any way to explain that, except that, well, well, the lesbians might have been exposed to more prenatal testosterone than straight women before birth.

And I don't know how to explain that except to say, well, maybe prenatal testosterone, maybe if you're exposed that before birth, you're more likely to be attracted to women when you grow up. Which, oh, well, that might explain why 95% of men are attracted to women, right? Because they're all exposed to prenatal testosterone. So this odd ball study really gives me to thinking that maybe there's something to that. But I forget it, you know, I'm still working with my rats and

well, and I, in 1999, in my office at Berkeley, and I read this paper, it says there's a sex

“difference in the ratio of fingers that's present in nine-year-old children. What? I've studied”

the sex differences by whole adult life. How do I not know about this? And it turns out that that

if you, if you measure the length of the second digit, the point of finger, for those just listening.

Yeah. Right. And the, the length of the ring finger, and you can, you can do a simple ratio divide the length of the second digit by the fourth digit. So called 2d 4d ratio. And a guy named John Manning was reporting that there's a sex difference there that it's, that that ratio tends to be smaller in men than in women and that it's present in children. It's like, well, wait a minute, a sex difference in the body that's present before a puberty. I know enough about

sexual differentiation in the body. It's almost certainly due to prenatal testosterone. Forgive me for interrupting you. People are probably looking at their hands right now. Oh, yes. And I just want to point out that these are averages. Yes.

“But it's, I think the 2d, 4d thing for people that aren't familiar, even though you explained”

it quite clearly can be a little confusing. Basically, in men, the finger lengths are more different than they are in women. And there are some differences in, in that statement, according to sexual orientation that we'll get into. When you say the, in other words, the typical heterosexual male pattern is that the pointer finger is shorter than the ring finger. Right. Right. Whereas in women, they tend to be more similar. Again, these are averages and not to give it away, but this is

because people are looking at their fingers right now. Yes. Yes. Let me just say, don't panic. Yeah. Right. We're going to walk you through this. You're going to be fine. And the difference between men and women is more pronounced on the right hand. Yes. I'm going to call that. Okay. That's true, too. Did I earn my authorship on paper? Well, that, and the fact that you persuaded so many people to answer our weird questions, but to see rocks their hands. Okay.

So please continue. But I know that the moment that came out, you know, hopefully there were no car accidents if you had a driving, but but these are averages, but that's the pattern

that was of the pattern. Well, I'd never worked with humans before, but I'm sitting in the bear.

We have loads of gay people around them. You know, so it's like, well, let's, I guess we could try to do this. And so we started going out to street fairs. You were, you were with this, going out to street fairs and giving people, asking people questions, asking them to fill out

“of questionnaire anonymously. And, and I remember it was one of the organizers of one of the street”

fair about it. I said, well, what should we do as an incentive to get people in they said, well, off from scratch or tickets? Lottery tickets. So, so we, we asked people, well, you please answer these very personal questions about who you have sex with, who you want to have sex with, et cetera, and tell us everything about yourself anonymously, and we'll give you a $1 lottery scratcher people ticket. And people will do anything for a $1 lottery scratcher ticket. I mean,

it was just a bit, which is weird because you do the math and the words like 27 cents, right? But but people want them. And, oh, and by the way, can we zerox your hands? And the last two questions we asked about handiness, but it was really just to keep them from panicking. So, you know, and by the way, it was, it was at least expensive experiment. I'd ever done in my life, because really, you know, compared to any experiment with a rat where step one,

by a rat for $20, right? So, it's, so, uh, and it was an odd experience going in the 7/11 that morning and saying, please, I'd like $750, $1 lottery scratcher tickets. I'd like to take a quick break to acknowledge one of our sponsors, David. David makes protein bars unlike any other. Their newest bar, the bronze bar, has 20 grams of protein, only 150 calories and 0 grams of sugar. I have to say, these are the best

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you said there are a lot of gay people in the Bay Area, but it was very clear as I recall when doing the study that if we wanted to get a large sample population of gay men, we would need to go to the Castro district in San Francisco. As we've been getting to get a large cohort of gay women, we need to go to the Solano Street fair and Berkeley. And in Oakland. So there was a brand new Oakland gay festival that got started. And yeah, the Oakland is a wonderful place to find lesbians.

So what are the charms of the place? I thought the whole idea was crazy. Actually, I didn't think we'd come up with anything. And I insisted on measuring all the digits myself, which I did twice

boring as hell. I recall when we were on what was like third floor of Tolman Hall and you came

running in. I was talking to my advisor, our friend Irves Zucker, one of the pioneers of circadian biology discovered the superchized medic nucleus with Bob Moore and others. And you came running in with a ruler and you said, "Give me your hands." And you grab my hands and you measured them and you go, "Well, that's weird because it's like different on one hand than the other." And then you go, "Okay, and you took the notes and you measured his hands and you laughed and I thought,

what in the world is he doing?" It turns out that was the early origins of the study. Yeah, no, no. Anyway, so I measure these hands and I'm doing the math at the end of the day and low and behold, I mean, I don't see any difference in the digit ratios of gay and straight men. Between gay and straight men. Yeah, I didn't see any difference there. Which itself is interesting. Because it implies more or less equivalent amounts of prenatal testosterone

“exposure, which I think is the case. Yeah. And right now, just forgive me, but some people might”

say, "Well, that's not surprising." But in the 80s and 90s, the Hollywood stereotype of gay men was that they were all very effeminate. Yeah. Since then, there's been an evolution, in fact, I haven't seen it, but many people I know are very excited about this recent show about these two gay hockey players. Yeah, so the whole context is these guys that are very masculine but are gay, right? So for people hearing this that are younger than 40, they're going to think, "Well, duh."

Yeah. But for people that grew up in my generation or your generation, it was a bit of a shocker to a lot of people because depending on their level of exposure to the gay community, they may or may not have realized that not all gay men are effeminate. Exactly. And you know,

that idea that gay men might have been under-androgenized, there was always a part of it that was

always seem strange to me. So the big sex differences in human behavior are not, you know, math skills, and the verbal skill, those are tiny, right? They're really big sex differences in human behavior are in sexual attitudes. And the biggest sex difference is one sex is much more interested in multiple partners and younger partners than the other, right? Everyone knows which sex that is, one sex is much more interested in casual sex than the other. Everyone knows that. One sex

to any, you know, cognitive things. And in all those ways, gay men are totally masculine. So how would that work that, that, you know, they were under-androgenized and yet they have all

“these sex differences in sexual attitude? I think the difference between gay and straight men isn't”

in how much prenatal testosterone they got. I think it's in how their brains responded to the testosterone that they got. And we can talk about that some more later. But back to the digit ratios, the lesbians had more masculine digit ratios than the straight women on average. And as you said, that's been replicated by many different labs, they've put it at Penn State and

Ashwin Swift. Go on tonight, recently published of like the third meta-analysis and it's clear

so many people have seen it, it's there. And as with Dennis's auto acoustic admissions, I don't know how to explain that. Why would lesbians have a more masculine digit ratio than straight women? Unless on average, they were exposed to more prenatal testosterone than straight women. And why would that matter? Unless being exposed to prenatal testosterone makes you more inclined to be attracted to women when you grow up. And what's really weird about it? Think about the time

“lag. Your first crush, this sudden, this mysterious, for me it was like a visitation, right?”

Where did this come from? That happened six years after you were out of the womb, right? And so it's really strange to think that something that happened to you before you were born would have an influence on who you're going to be attracted to six, ten years later when you had your first crush. So it was, and I couldn't tell you that when we published that in 2000, it did quite,

called quite an uproar. I heard from a lot of strangers that I'd never heard from before.

And it was pretty interesting, of course there were several people wrote who told me that they were gay and they were very positive, very supportive. But I got lots of emails from people saying, "I know you're lying, you know, you're making this up to justify your gay lifestyle." You know, it's like, "Well, okay, except I don't have no PK." I mean we had a nice mix of orientations on the research thing, but people were having a hard time with it and to assure

your listeners about if they were looking at their hands, if they're a woman and they looked at the hands and they see that the index finger is quite a bit shorter than the ring finger and they're

thinking, "I thought I was straight, etc." So here's a joke that I tell, which is, if you want,

I'm going to teach you right now. I'm going to, if you gather a big sample of people and I'm going to teach you how to look at their hands, look at the right hand and guess their sexual orientation and you're going to be right 95% of the time. Okay, you want to learn how, so, so look at the right hand pay really careful attention to whether the index finger is shorter than the ring finger and no matter what, you see, guess straight and you will be right 95% of the time if it was a random

sample of people. So the important thing to get across is that while these average differences across group are theoretically important because they do indeed indicate that lesbians are more likely to have been exposed to slightly more testosterone before birth. That doesn't mean you can predict how much testosterone one person was exposed to from their deterioration because other things influence the deterioration. Fascinating study. I got made fun of quite a lot but, you know, I thought it was

a blast. I mean, some of the more outrageous things that people have asked me about the study over the years were, and by the way, they all came from men. If I cut off my index finger, you know, well, that raised my testosterone. Someone actually asked that. No, it's not reverse causality. I would have said, well, let's try it. Again, now most people, I realize there are differences

“across the country and the world on this stance, but I think most people would say, yeah, like,”

okay, there's a biological variable, associate with sexual orientation. The fact that it's linked to prenatal testosterone is very interesting. And the question that then comes up is, is there any thing about behaviors associated with gay or straight men, gay or straight women that change hormone levels independent of all this, right? Because, um, but differently, I think for a number of years, people were interested in whether or not gay men, as you pointed out, um, would have higher or lower

levels of testosterone. The hypothesis was lower based on the, a feminine stereotype turned out

in the 1980s and '90s, uh, would would also realize that the low-endrogen argument was wrong. Although steroids become a problem in gyms too, but, you know, they get's confounded, but

“am I correct in remembering that this effect is also present in frogs or mice?”

The sex difference is a present mice. That's D2, D4 ratio difference. Yes, I find that amazing. Well, I did too. So, so, uh, Wendy Brown and I did that first. And, you know, I'd worked with mice

and rats all my life, but, you know, I'd never noticed that, that, that there, this is, that the first

ditches are shortest, and that the third digit is the longest, and that sometimes, the second digit is the longest for, I mean, you know, it's like, I mean, it's, you know, evolution's real, right? That, it happened. Uh, and so, yeah, there's a sex difference there and a group looked at mice and did lots of genetic manipulations and it turns out that if you, if you make the entrance after dysfunctional, the sex difference goes away, and they showed that in mice at least,

there's more entrance after in the, the growing bones of the fourth digit than the second

“digit, and then they showed that, um, that that's why the fourth digit grows a little bit more”

than the second digit. Beautiful. So, the met, and I, I should have said this earlier, androgens are things like testosterone, um, DHT, other, other endrogens, right, um, men and women

both have them, uh, other animals have them, um, incredible. So, let's talk about

effects of testosterone when we're in the womb. Yeah. Obviously, it's having an organizing effect on the body plan, this defored de-to ratio. Right. What about in the brain? What is known about brain differences between men and women that identify as straight or, um, gay? Well, in, in, in terms of prenatally, we don't know, but, but the very famous study from Simon Levey, who was already a highly respected neuroscientist, lots of wonderful papers in development of the visual

system. Um, Simon Levey got everyone's attention well before we did, when he looked at a brain region in the hypothalamus, a specific region called the preoptic area, or POA, and he looked there

and compared, uh, the size of the POA in the brains of gay men versus straight men, and he looked

in the preoptic area because in rats, there's a very prominent sexual difference, or sex time morphism, in a nucleus in, in the rat brain in the preoptic area, and the nucleus got named the sexually diomorphic nucleus of the preoptic area of the SD and POA, and Simon Levey was a huge sex difference there in rats, and so he looked at the brains of gay and straight men, and found a nucleus there that may or may not be the same as the SD and POA, but his larger in men than a

women, and what he found was that the, the nucleus in gay men was smaller than a straight man, and, in fact, not significantly different from the size of the nucleus in women, so it wasn't hyper male like the finger-length ratio. No, no, no, in that case, it indicated less, either less engine exposure or less of a response to the engine that was there, and Simon got even more of an uproar than I did, published his paper in science, and there were lots of people

that were very skeptical, including some neuroscientists, but eventually another group replicated.

“That's what I was going to ask because I recall that the two major critiques of the paper,”

one was fair, in my opinion, it was that some of the post-mortem samples were from people who had died of AIDS, and so AIDS has some known neurodegenerative effects that may or may not have impacted the samples, although hopefully they control for that. And then as I recall, he also got some pushback because he is openly gay and people accused him of gendered. I didn't say gendered. I said agenda, science. Yeah, that he was part of some conspiracy, a gay agenda to force Americans

to regard people with same-sex orientation as somehow okay. But a replication of the study from an independent group that presumably has no reason to be biased whatsoever. They were very skeptical of it, so that was William Blyer, who eventually had, and there's an interesting aspect of it. It took him a long time to get a sample big enough because Simon was such a horrible time in AIDS epidemic. There were so many young men dying that Simon had no trouble finding

enough brains to do the sample, and then as treatment got better, the death rates of HIV started

did, and even though he was skeptical of it, he saw it too. The question about AIDS, I mean,

Simon was able to address that, and that he also had some straight men who had AIDS, and they didn't, they weren't significantly different from other straight men. But, but, and so it was widely interpreted as proof that sexual orientation is not a choice, that it's something that happens to you. And, of course, I don't think sexual orientation is a choice, that's true, but Simon himself made it clear that he could only look at this nucleus in adults, right? You can only look, it's

so tiny, the sexual day more significant is a pre-optic area in humans. It's about the size of a grain is sand, right? So you gotta have a microscope, and you can only, there's no non-invasive way to look at it.

And he pointed out that he didn't know what the order of causation was. He didn't know if those

“men had been born with a smaller SDN POA, and that's why they became gay, or did something else”

cause them to become gay, and also cause the SDN POA to get smaller. And for the public, the idea that a nucleus might change its size and adulthood, maybe that seems kind of, you know, unlikely, but as neuroscience as we know, you know, that adult brains are changing all the time. In fact, even an animal's Brad Cook showed that, you know, there's a nucleus, the medial amygdala, the sex difference there, but if you take away the testosterone and males,

sex difference goes away, and just a matter of a few weeks. So, Simon's work on the SDN POA, also known as Ina3, I won't bother with why. Unfortunately, I remember the full name. He's my brain. It's a geysercissional nucleus of the anterior hypoithelms. Yeah, absolutely. Yeah, I'm not saying that to impress anyone. When you get to be 50,

“which I can now say that, you wonder why your hippocampus remember certain things that are”

like basically totally useless, I remember. I waste so many synapses on totally useless crap.

But that's not, that's, that's, that's, that's worth holding on to. You did well. So, but so, so we don't know, it's a chicken and egg problem. We don't know if, if that happened, if they were gay because they had a small ina3 or do they have a small ina3 because they're gay. So, what, what I liked about Dennis's Odo acoustic emissions and is pretty good evidence that that happened well before they had a sexual orientation. And, and the other thing I was

liked about is that, well, I mean, you can't imagine that's a social influence on, on digital. And, and, and nobody, nobody knew about this. So, I wasn't worried that there were some little girls out there. They looked at their hand as they, hmm, gee, that looks kind of masculine, maybe I should be a lesbian, right? Because nobody knew this. Until your paper was, yeah, yeah. I mean, as I recall, there was, there was some like school yard stuff of kids

looking at each other's hands and trying to decide who was gay and who was straight. And, you know, every once in a while, to this day on the internet, I'll look at it and they'll be a little add over there, claiming to tell me something about my personality based on the, on, on, on, on, on, digit ratio thing. It's just like, you know, please, yeah, there's nothing to it. Don't waste your money gang. And, there's an aspect to this, this fact that, that group differences

“were there, but you can't tell about differences between individuals. That, that I think is a”

hardest thing for scientists to communicate to the public. Yeah. You have a really good way of explaining this to people because, and it's an important lesson just in reading statistics and making sense of data that, um, I'd love for you to give an example of your, how this plays out, it perhaps in a separate example. Psychologists, they like to talk about a way of measuring how big a difference is between two groups. So, this difference in digit ratios between men and women,

it's, it's a relatively small difference. It's like, well, we measured in terms of how many standard deviations apart are the two means of the populations, the two averages, the two averages, and, uh, to give an example of that, everyone knows about the sex difference in human height, right, among adults. So, that's a huge sex difference. It's one where we're all aware of it, and if, if nobody told us it was such a thing, we'd notice it after a while, right? And that,

that's because those two averages and those two populations are about two standard deviations apart, the standard deviation being a measure of how much variability there is in something. So, that's a huge sex difference. And to give you an idea of what that means, if I had you grab a sample of 1,000 people, and I'm going to tell you one thing about each one of them, and that's their height, that's all. And now, I give you the job. You've got to guess what sex they are, and I can tell you what

those are men, and if they're less than that, you're going to say they're women. And you'll be right

“about 80% of the time, which means you'll be wrong almost 20% of the time, right? And so,”

everyone, you can, you can see that there's some predictive power there, but not, it's far from perfect. Well, this sex difference in digit ratios is half a standard deviation. So, a quarter that. And so, that means there's much more overlap. And we know that other things influence digit ratios, too, not just prenatal testosterone. And so, this is why there's no predictive value. I mean, so, anyone who looked at their hand while we were talking about this and got worried,

I don't know anything about your particular prenatal testosterone level, no matter what your digit ratio is. What about bisexuality? People who identify as attracted to both men and women.

And maybe we ask about first bisexual women, then bisexual men, is there a pattern in

digit ratios that leads anywhere? I mean, in those days, we didn't have enough people that identified as bisexual to have a reasonable sample. And it's interesting. And that's something that's changed, right? I mean, if you do surveys now, especially among younger people, there are more people who report that they are bisexual than the word then. So, so I don't really have anything to say about them. The one thing I will say is, I'm sure that even among lesbians, there's more than one pathway,

more than one developmental pathway to become a lesbian or to become a gay man, right? I don't think there's just one thing. That's not how human behavior. But you do think it's based on the data that it's

“biological. Based on that data, I think testosterone has to say, right? That doesn't mean it's the whole”

package. Free natal testosterone. Free natal testosterone. And the reason I ask that is, I mean, there are

conditions that are not uncommon where someone has a particularly stressful, long phase of development where there's every reason to believe that their antigens are impacted negatively. Yes. There's also every reason to believe that there are stretches of development where antigens are increased. Like we know that people who do a sort of a contact sport or engage in anything that requires like deliberate aggression. I realize that real martial artists know competitive aggression,

know how to sort of gate their levels of aggression so that they're not in a fury, right? Like it, but we know that certain types of activities, competition, et cetera. I mean, there's no question that those can increase androgen. So you can imagine there's some plasticity postnatally and that could be before puberty. It could be during puberty. And so that's testosterone. The body, as you said, you said something that even as a developmental neurobiologist, I don't think I'd ever heard stated

“so clearly. And it's so important that the rate of brain development from birth until age 12”

is at least as fast as it was before we're born. Yeah. I mean, the way to really bring that home is to compare human brain growth and chimpanzee brain growth. So up until birth, the rate at which the brain size increases compared to body size is about the same in humans and chimps. And shortly after birth, the chimpanzee brain stops growing as fast and eventually asymptotes right away. The human brain continues that feverish fetal rate of growth until at least six years of age,

maybe out there to 10 years of age. So people have pointed out that in a real sense, human beings children are fetuses that are outside learning a whole bunch of stuff from other people. That's the real distinctiveness of our species is, you know, we have this protracted childhood and really intense social learning. And as you say, a fetal rate of growth even though we're not in the fetus anymore. So I guess for me, the idea that behavior exposure to things, you know,

and I don't want to get into valence of negative positive, but sure pesticides, but also, you know, school yard activities. If you have and we'll get to this, you know, five siblings and it's very competitive who gets how much pizza. I had one sibling, so it was a little bit, you know, there was competition, but it was different. You know, these things change hormones, hormones change the brain, the brain as you're explaining can impact sexual preference. What's great about studying hormones

and behavior, right? It says that sometimes you can control the hormone in animals at least, but the hard thing about hormones and behavior that people don't understand is that behavior can affect hormones, as you say, in competitions, the winners afterwards are more likely to have higher

one, the presidential election, they're, they're testosterone levels went up a little bit and the

people who's who's candidate lost went down a little. And so you'll always have this cycle where

the hormone alters the behavior and then the behavior alters the hormone and you always have to look for ways to try to pin down the order of effects and, you know, not always easy. The only thing I know for sure is that the brain remains plastic all of our lives. Well, that statement is a significant one because I also believe that the brain remains plastic throughout our lives.

“It's always surprising to me that the hypothalamus remains plastic throughout our lives. And I think”

that's worth perhaps double-clicking on, so to speak, because, you know, the idea that you can learn another language in your neocortex changes or you can learn to juggle and your, you know,

your neocortex changes, your cerebellum changes. Okay, like there's a lot of beautiful studies

demonstrating that. But when I think about the hypothalamus, I think about it as something that's pretty hard-wired by time puberty wraps up. But the more I learn, the more data that get published, the more surprised I am. I saw this a paper just the other day that the neurons that control suppression of appetite, these pomsinerons, and the argument nucleus, there's a population of them that are sort of undifferentiated that can become, let's just call, pro-hunger, and by expressing

some different peptide, neuropeptide, y, and that there's a lot of late-stage plasticity. And this may explain why people who reach a certain level of obesity may actually find that they're hungry or despite not needing food. So it's fascinating to me how these deeper brain

“structures may actually remain plastic. I think both your statements are true. I think it's”

probably true that the neocortex is more plastic than the hypothalamus, but it's a matter of relativity. And so as you say, the one thing we know is that there's plenty of plasticity there. The other thing I noticed, so I've gone to society for neuroscience meetings, pretty regularly every year since 1977. And after a while I noticed something, every year when I went to the neuroscience meeting, the brain was more plastic than it was the year before, right?

I mean, because there are more and more of these demonstrations, and it's like, you know, I think synapses can come and go just about anywhere. And so hard-wired, let's say there might be less plasticity in the hypothalamus, surely so. But that doesn't mean there's none. As many of you know, I've been taking AG1 for nearly 15 years now. I discovered it way back in 2012, long before I ever had a podcast, and I've been taking it every day since. The reason I

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numeral one.com/Huberman to get six free travel packs and a bottle of vitamin D3K2 with your subscription. What are some of the other effects in human studies of behavior impacting hormones that come to mind for you? I mean, it's been a while since we've touched into this and we haven't done it much on this podcast. I mean, obviously competition winners, losers, you explain the data there. What are some other scenarios? Just studies that have been striking to you or that have stood out

“over the years? No, I think for it testosterone, I think the big ones have been competition,”

you know, between males. And no, I don't, you know, I mean, there's a stress response, but that's a whole other thing. What about sex behavior itself? In animals, at least, we know that there's a relationship there, that in males and males of most species, let's take rats. If you take away the testosterone, within a few weeks, they'll stop mounting altogether. And if you give them to testosterone, after a few weeks, they start mounting again. So we know that that plasticity is there and we know

testosterone, we've known for a long time that if a male is exposed to the odors of a receptive

female, that causes a spike in their testosterone. And so that's kind of preparing them for maybe maybe some, maybe I'll be lucky. Maybe there's something coming down the pike. And so we know that that's a reciprocal relationship, when the animals in charge of the hormone. For the longest time,

“thanks to your textbooks. And by the way, Mark has authored some of the most important textbooks”

on hormones in behavior, developmental neurobiology. I mean, he's a true scholar of the whole field. And so immensely grateful to him that those textbooks have formed the backbone of a lot of solo episodes of the podcast. So, you know, the textbook version of male versus female sexual

behavior has been a story about females having a circuit that goes from brain to body to control

this thing that called lorgosis, the arching of the lower back, the receptivity, the willingness to mate. And the males having a circuit that goes from brain to spinal cord to body, involving arousal erection, mounting, insertion, ejaculation. I mean, you or lab and others has really parsed this right down to the details. And yet, of course, people have sex that way, but also other ways. And so, for a lot of people who aren't familiar with hormones and neural circuits

in behavior, the sort of strict context kind of is still forms the framework. You know, I mean, I've learned, and I'm now fortunate that this podcast has been around more than five years, so I no longer have to tap dance around things, right? So, people will say, oh, well, you know, there's this lordosis behavior in the female. She's receptive or not. He mounts, et cetera. And then there's gay men who have to have sex a certain way that mimics the female sex pattern of behavior.

“And so, people do this one to one, right? And I think that it's understandable why they do that”

if they're not educated. But how should we make sense of these biological circuits that are in the textbooks that define stereotyped, literally, motor behavior? It's almost like saying, like, like females have sex this way with males, males have sex this way with females. But then the

caveat is always like, oh, but in humans, all that goes away. And there's these like bonobos that

are a little bit more like humans. So, did we waste all our time studying that stuff? I mean, really. And you're getting at exactly what every textbook author has to deal with, right? Which is, you know, as Yoko, you look where the light is, right? So, we know so much more about the circuits that are involved in the motor behaviors, because they're relatively easy to

“trace and relatively easy to manipulate and relatively easy to study. We know lots about the motor patterns”

in animals. We know a lot less about the motivational patterns in animals, which in human sexual behavior is, I mean, in many ways, that's the whole show, you know, that's, that's really what's, and we don't really have good animal models of libido, right? And this was brought home to me many years ago. Now, I was on a session of 60 minutes, the CBS News program. And Leslie Stahl was there in our lab. I mean, the producers had called me up and said, you know,

can you show us a way that early testosterone exposure changes behavior permanently? And I sure I can do that, give me some time. So, I went to the lab and castrated a bunch of rats on the day of birth. I know how to do that, not proud of it, but I know how to do that. And they came three months later. And so, I showed them those motor patterns you'd talk about. So, here's a typical female. I've given her hormones estrogen and progesterone. So, I know she's going to be receptive.

And here's a male rat that I know has had lots of experience of copulating. And Leslie immediately dubbed him Romeo. Okay. Well, this is Romeo. And she hates rats, by the way. She was very brave. So, I drop a female on top of Romeo and he starts mounting and she shows that her dose is posture. And that's all beautiful and easy. And we do that several times. Now, I'm going to drop a male control male in. And Romeo, of course, you know, you don't know unless you try. He mounts several

times. And the male rat acts like nothing's going on. It's just a board thing on earth. And Romeo eventually gives up. Now, I drop into the cage of a male rat who I castrated on the day of birth 90 days before. And I've given him the same hormones that I gave the female to make her receptive.

male never showed. So, here this neonatalic castrated male is showing very female-like patterns.

“And Miss Stahl kept asking me, would you say this is a gay rat?”

And it's, you know, I'm sitting there and I'm definitely in a tough spot because I don't think my rats have an orientation. I mean, we just saw Romeo happily mount any ratty through in the cage because what do you know? You know, try your luck. And so, you know, Shastby said, "I knew she wanted me to say that," but I said, "What I would say, I don't remember exactly when it ended up in the final," and what I would say is that this is a rat whose sexual behavior

has been permanently changed because of something that happened to him a long time ago at the

very beginning of development. And really, that's the best I can do in terms of any rat model of sexual orientation. I don't think my rats have a sexual orientation. If I give the female those hormones, she's going to show her doses to whoever mounts her. And my male rat, he will mount any rat he comes across just in case he gets to wear doses out of them. Well, good on you for not getting Corraled into giving a particular answer.

I've recently joined CBS as a correspondent. If we have this conversation on 60 minutes,

“I promise to not try and force an answer. Romeo is an interesting case because I think for most”

people including myself, I thought that you were going to say that Romeo was willing to

try to mount a female if she was receptive if he would mate if not he wouldn't, but I was surprised that he would try to mount a male as well. That doesn't align at least with my experience of male human behavior. Well, it's certainly not. That's right. This is the thing that's distinct about humans is we're not actually that particular about what particular behaviors we engage in what motor behaviors and we're overwhelmingly interested in who our partner is. That is an overriding

concern that I don't think my rats have. I think a few animals do. Here's the anthropologists from Mars, and I tell you, here's a person that 50%. Here's whoever's the sexiest man alive this year, people magazine. I don't know who that happens to be. This is interesting discussion all together because there's this people have been lining up the images of these people and claiming that they're sort of like this a feminine drift that takes us back to a time in the early 90s when

there was this sort of revision about male official. We can get back to that, but yeah, okay. It's not the point being that it's not fixed. Well, whoever, let's say it's George Clooney. So, so here's someone that half the planet believes is an ideal sexual partner, right? But the other half of the planet finds him totally unacceptable. Even if the behaviors they engaged in would be pretty much the same. And so, in terms of positions and who's doing

a lot to who's in Italian, et cetera. For most people, it isn't that there has to be one particular act, I suppose, or some, but for most people, there may be a variety of acts that they want to be engaged in with that other person. And their overwhelming concern is the gender of that other person or the sex of that other person. You know, it's hard to have an animal model of that.

“I actually do know one example in sheep, if you want to talk about this. Of all things. Yes,”

oh, I, so Chuck Roselli out at Oregon, he's the one that studied this very carefully. I guess shepherds have known for ages that in any herd there are some rams who will not mount a female ever. And keep mounting other males. And of course, to maintain a shepherd, to maintain a herd, you don't need every male to reproduce. So, but in the old days, they got, those males got sent off to slaughter, right? Well, hearing these rumors, Chuck did these tests

where he would put a bunch of females that are in stocks, so they can't move. And they're all ready for mating. And he put a ram in with them. And most rams, of course, will mount the females. He puts in these rams that prefer males. If there's a variety of sheep's butt sticking at him, about it, he'll mount males, including sometimes, you know, having intermission through the anus. And

I'm going to call them gay rams. I think I think they have an orientation. He'll put this gay ram

“where there's a dozen females. And he might be in that paddock for 12 hours and never mount a”

single female. Highly unusual for male rams. And these are not typical rams. It's like a small percentage of population. And I don't know how to explain that. I mean, you would think that these gay rams that, well, you know, in ejaculation, in ejaculation, right, in orgasms, in orgasm, I presume they have worried. You would think that at some point, the well, there's nothing else to do in here.

I'll mount one of these, use, and they never do. And I don't know how you can explain that

except that there's some aversive component that, that rams do care about the sex of their partner. And that, and that for these gay rams, there's some aversive component to that. By the way, Chuck told me, not too long ago, there's a company that has identified these gay rams. And decided that instead of sending them off to slaughter, they're going to harvest their wool and sell them as and make them into clothing. So you can buy, you can buy wool clothing that came

from gay rams and know that you saved them from the slaughterhouse. There's no response that's appropriate

to that statement. And apparently, they, you know, they're out of stock. So it's been as big

success. Actually, I can think about 50 different responses to that. None of which are appropriate or have any real conceptual importance. So I won't say fascinating because rams, while, of course, they have socio-dynamics. Presumably, there isn't pressure, independent of reproductive pressure to, to be a gay ram or a straight ram. And I guess I left out the kicker, which is Chuck eventually dissected the pre-optic areas of these various rams. And he found a difference

between the pre-optic area of gay rams and, in straight rams, a difference in how they process

testosterone. And, and exactly that part of the brain, the pre-optic area, where Simon saw

a difference between gay and straight men. So there may be something about the hypothalamus, the pre-optic area that has something to do with orientation. If, if we're talking about an organism as complicated enough to have an orientation, including sheep? This is a particularly nice moment, not just for this episode, but for the entire podcast arc, because there's these moments that

“come up every once in a while, where a larger principle shows up in a new way that I think is really”

important for people to understand. Across neuroscience, we see this push-pull, right? A flexor muscle, like the bicep, when it flexes, the tricep relaxes, when the tricep flexes, the bicep relaxes, these antagonistic relationships. You see this in the hunger circuit, I mentioned one earlier, like hunger and feeling full, they're like a push-pull, they're like a seesaw. And you see this over and over and over again. It's a, it's a very consistent theme of a brain function. And you said

something that I was not aware of, it makes perfect sense. I just wasn't aware that there were data at the level you described, which is clearly there's an repetitive aspect to sex behavior. Heterosexual males wanting to have sex with females. Heterosexual females wanting to have sex with males, and so on, every derivation there. There's a desire in species where there's strong ferrimone and odor determination and receptivity stuff gets played out that way. It looks

one way and humans, it may have some of that, but it plays out different way. Receptivity is communicated differently. Although odor may be very important in ways we don't quite fully understand.

“But this idea that there's an aversive aspect to it, right? I think this is important and it's”

something that I have not heard discussed before. And I think that sociologically it has relevance, because I think that there's so many different aspects to the notion that our species humans come in gay and straight and perhaps bisexual varieties. We know that's true. Clearly. But there is this not uncommon theme whereby many people, I can only say many people, right? Not all, that the concept of mating with same sex is aversive to them. And that has shaped a lot of the

landscape around this, and I'm not trying to get political here. It's just, I think it's worth acknowledging that that may be a real phenomenon too. I'm not trying to justify mistreatment of anybody,

societally until we really at least understand the biology and how to work with it. And so the idea that same sex, sex, right, would be aversive as an idea to people. Some people are like, "Oh, they haven't been educated." Okay, perhaps. But there may be a biological basis for that.

“I think the data is still on, right? But I think it's, to me, at least, it's pretty clear”

that for men at least, there's an asymmetry here that that that experiment where I said, you know, who wants to have sex with George Clooney, have to population, says, "Sure, the other

population never. If we reverse experiment, what percentage want to have sex with Margot Robbie?"

And, yeah, have to population the men would see as a very desirable sexual partner. But, you know, the women too would, many women would also, at least consider the idea of having sex with her. And, and we know there are plenty of women who are straight in one part of their lives, and later they fall in love with a woman and now they feel like they're gay, right? So, females, women are more plastic in terms of their sexual longings and sexual orientation

than men are, be a little more specific. I think it's among males, where sometimes for many males, not all. There's an aversive idea that the idea of having sex with the same sex partner is aversive. Now, of course, context matters, right? There's same sex happening in prisons all the time when, you know, if the conditions are enough. And, and I don't know where that aversive component came from. It could be that our society, maybe it's all socially incocated, you know, again,

before we're aware of it at all. But I think there's also at least the possibility that there's

“a biological component to it. And I think that's what Chuck was getting at and that hears this”

difference in the brain. He doesn't know when the difference happened in their pre-optic areas, but it seems to correlate with this idea that maybe these gay rams, no, they're not interested in having sex with her, you know, older. It's aversive to them. It's aversive, yeah. There's no other way to,

I can't, I don't know any other way to explain how they choose never to never once mount a female.

Yeah, I feel like that the acknowledgement of the, the, the, aversive pathway for sexual partner choice is as important as the acknowledgement of biological correlates of homosexuality. Yeah, because if this sort of conversation is ever to advance, pass the sort of like, okay, what's okay to say now that we're willing to say now, trust in science disappears. I really believe that. Now, of course, the problem is that people leverage

fragments of what they hear in order to make arguments in, in favor of whatever stance they have.

“And that's, that's the complication. That's why I like long-form because no matter what gets”

pulled out, we can go back to the full conversation. And this makes you old fashioned, because that's, that's not the world, I mean, our world seems to be hurtling towards this. Yeah. Yeah, I mean, world of snippets. People will notice that we have not used the word gender. We're talking about biological sex and sex the act. And we're talking about male versus female partner choice. And we're talking about a desire for one or the other.

And then aversion to one or the other. And I think the aversion piece is an important theme. So here's a hypothesis. If I can come to a sabbatical, I'm doing a sabbatical at some point. It may be that in male humans, that there's a pathway or a molecule that serves as an aversive to sex with other men, circuit, peptides, neurons, et cetera, that suppresses sexual desire and activate some level of disgust. I'm going to just say it bluntly,

might not be the same disgust that they would experience to something more aversive. But okay. And that in women, there is no such pathway. There's either desire for women or desire for men, but as you said, statistically, women are more open on average to same sex interactions. And it may be because there's no aversive signal or the aversive signal has a less robust circuit. To me, that would explain these differences, these sex differences and who people are willing to

have sex with. Your hypothesis fits the data.

I mean, it is true that in the early '90s, for instance, when the first gay characters were on television,

like the real first real world that I'm really dating myself here, and subsequent characters

and things like that of the effeminate gay man. What you saw was indeed that heterosexual women,

as far as we know, seem to be more like generally accepting of gay men before heterosexual men embrace that as typical. That's my impression, too. I think I think it's pretty clear. Yeah. And then there's a societal shift. And then it sort of becomes like, you know, like if you, like I spend some time on X, formerly known as Twitter, right? And there's some gay, political accounts, and you just kind of notice, like it's just people are comfortable with it.

Men and women seem to be comfortable with that, right? I mean, of course, you don't see a lot of

attacks. Now, that's very different than what you would have observed, for instance, in like

“the late '80s or the '90s, right? Anyway, I think these are important biological phenomenon”

on this notion of an immersive pathway. You could imagine where societal standards or community standards or household standards might, you know, amplify or reduce like the sort of expression of these things. I'm sure they do. Yeah. And I'm sure, you know, cultures, you know, can amplify or reduce that component. The question is, you know, to what extent? I mean, and I don't think we know, one thing that we haven't talked about, and it is a small percentage of people, but it's

something that people think about is this notion of sort of, neither here nor there, kind of mixed

sex, right? Is there a biological correlate of that? A graduate student, my year, when you were my professor, Nicky of SIPCA, Nikola of SIPCA, who was already famous for training dogs for

“a beast master show. So amazing. And had very well-behaved dogs that she would bring everywhere”

with her study to species of mole in Tilden Park that could trans-differentiate its testies into ovaries and back again. And I thought, well, that's like alien weird levels of stuff, but she would occasionally go over to UCSF when babies were born that were sort of back then they called them, no one uses this language now, pseudo hermaphrodite. Yes. What is the deal with exposure to prenatal antigens and neither clearly here nor there a genitalia? Yeah, so in most of those cases, we're talking

about congenital adrenal hyperplasia, also known as CAH, and the congenital means it's president birth, and the adrenal hyperplasia is referring to the fact that the adrenal glands are slightly larger, and the reason they're slightly larger in this case is because these are individuals where

“fetus itself is not able to make some of the adrenal steroids that are important for staying healthy.”

And so the brain detecting, hey, where are the adrenal steroids that we need here drives the pituitary to tell the adrenal gland, hey, we need more steroids. The adrenal gland gets the message, it hyperterfrees, but the machine reads and they're to make those steroids. And so instead, the adrenal gland makes testosterone and other antigens. And actually this can happen either x, x, or x, y individuals. And in x, y individuals, people might not notice, but in x, x individuals, what that

means is that prenatally her genitalia, being exposed to more testosterone than a typical. And so under the influence of this extra testosterone, the clitoris may grow to be bigger than the typical clitoris. In some cases, in extreme cases, the the phallus looks like a penis. And the skin around that area that would normally form the labia, again, there might be enough testosterone that it starts to look like a scrotum, except of course there are no, there are no

testes inside there because this is an xx individual. So these individuals are identified at birth, typically, especially in xx individuals. And there's an easy treatment, which is, oh, they can't make, you know, you do the tests and you know, they can't make adrenal steroids. So we'll give them some. And so for the rest of their lives, they take adrenal steroids, orally, and get the benefits of that. And that shuts off the hyperactive adrenal glands. So that it shuts off the role of the output

of testosterone. So this is what's known as an intersex phenotype. And yes, you're right, and the old literature, there were sometimes known as pseudo hermaphrodite, huh?

and reproduce either as a male or female. And so supposedly they were pseudo because they can't

do that because they have only ovaries. Well, you can imagine a first of all being called hermaphrodite,

“nobody like that. And if you ask them, well, is it better if I put this pseudo at the beginning?”

Is that that make you feel like you're being less stigmatized? No. But a much more accurate description is to say that it's intersex. They have a fallus that's somewhere between a quadricinapenus and the skin around there's sort of like a scrotum and sort of like a sort of like labian. So in the old days, once this got recognized, it was standard procedure to tell the parents, oh, this is an emergency. We need to do cosmetic surgery. We need to do surgery to make this little

girl look like all the other little girls. You know, sometimes the surgery was, you know,

they're good. Sometimes be successful or not. Indeed, they knew how to make her look like

other girls. But many of those intersex folks, when they grew up, were pretty angry that someone had done this surgery on them that wasn't needed medically, right? They were already taken care of the problem with the exogenous adrenal steroids. And so who asked you to deal with my, you know, to do surgery on my clitoris. In some cases, the tip of the clitoris was missing. And so these women grew up and were an orgasmic because they couldn't get the stimulation that they normally

would have had. These days, there's much more thanks to the activist like Cheryl Chase and others

“who started getting the pediatricians attention. Hey, you need to think about that you're,”

you're doing a collective surgery on an infant who cannot possibly have informed consent. And so these days, there's more of a wait and see added to which I'm going to think is absolutely that. So wait till they're grown up and ask them then if they want to have surgery and my guess is most, well, we'll say no. I think that's been the pattern so far. So these are females who were exposed to more testosterone than other females. So does that mean that they're going to be

attracted to women when they grow up? And the answer is, well, interesting. If you look at

groups of women with CH, they are more likely to be same-sex attracted to be lesbians than the population of large, but most of them are straight. But what's interesting about that is

“the older they get as you keep surveying them, the higher the percentage of them, the report”

having a lesbian orientation. So it's possible, first of all, that indicates that maybe prenatal testosterone increases the odds of them being lesbians when they grow up. And you also wonder, well, how many of them always had that same-sex attraction, but you know, we're following the pathway society laid out for them. And then as they get older, the said, well, no, screw this. I know who I'm attracted to. I don't have to fit the heterosexual mold. And so it's, you know, that's entirely

consistent with the idea that prenatal testosterone makes you more likely to be attracted to women when you grow up. There's another syndrome that I know you've talked about, which is adjunct in sensitivity syndrome, sometimes abbreviated AIS. And it turns out the gene for the angler receptor that responds to testosterone and other anglers is on the X chromosome. And it may sometimes be that a woman will have an X chromosome that has a copy of the angler receptor gene

that doesn't work. And if she passes that X chromosome onto a daughter, then she's sort of duplicated herself. What's interesting is when that X chromosome is given to a son, in other words, that A with an X chromosome that has a dysfunctional copy of the angler receptor gene. If it gets fertilized by a Y-bearing sperm, now we have an X Y individual. And as you've explained clearly in your in your basic podcast, we know what'll happen in development. The Y chromosome will mean

that the indifferent gonad will develop as testies. The testies will secrete two hormones that are going to guide sexual differentiation in the periphery, one of them being anti-malarian hormone, which is going to suppress the development of the malaria index, and therefore no overduct, no uterus will form. And the testies will also release testosterone which normally would mask and eyes the body. But in this case, because there's no functional and receptor

to respond to it, that testosterone goes round and round, but the body doesn't respond. And so the Wolfian Ducks don't develop. The periphery looks like a typical female. And these individuals

very careful analysis by looking between the legs and says congratulations, you have a girl

“and they grow up to be girls undetected. And they come to a doctor's attention when”

puberty happens. And all their classmates are having their period, but she's not. And so she'll eventually go to an OB-GYN who will first do an exam, a vaginal exam. And he'll notice that the vagina is relatively short because the inner part of a vagina is normally derived from the malaria

index. Well, in this woman, in this teenage girl, the malaria index never developed because of

anti-malarian hormone. So there'll be no cervix that can be seen in the exam. And if he takes blood plasma levels, he'll see that this very feminine looking girl, teenage girl, has very high levels of testosterone. And presumably, testes. And if he does a carry-type, he'll see that she has an x-y carry-type. And yes, there are testes in there, typically in the abdomen. And there are releasing lots of testosterone because there's no negative feedback to tell the brain, you know, hey, you can stop

sending signals to the testes now. In these cases, you can ask, well, what's the sexual orientation of these women? And the vast majority of them grow up to be straight. They are attracted to men. And they might be very, they're often very interested in having a family. And of course, they can't carry children themselves, but they can, you know, adopt and things like that. And so they're very much feminine, very straight women. But they're x-y. But they're x-y. So the question is,

unfortunately, in terms of understanding whether prenatal testosterone altars are sexual orientation, these individuals are useful to us because we don't know if they're straight women

because their brains could never respond to the prenatal testosterone or are they straight women

because they were raised as girls. And socialize to be attracted to men. It's a fascinating syndrome. And there's at least one woman with AIS who's self-identified, who's a successful model. And there's another woman who wrote a memoir that's quite, it's quite good. And what's interesting about when there's no testosterone response, they have very feminine faces, very feminine bodies. And so they're, you know, they're frankly quite attractive as women.

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“we've got, again, accelerators and breaks. And I think we've got different axes.”

You know, I'm not trying to split hairs here, but I think for people who want to understand how hormones, sex and behavior, sexual orientation fit together, it's very useful to think about, okay, you've got chromosomes that drive, you know, our typical notions of male versus female, and you're providing some important caveats where the body appears one way, but it's in x, y, you know, and there's almost every derivation of this has been observed, although not at a

very high frequency. And then you've got choice of same versus other in terms of orientation, and a key role of prenatal testosterone there, maybe some cultural or other types of plasticity that might be biased more toward the female side. It seems that way, based on what you're saying, if I'm, you know, I'm willing to say it if you're not, it does seem that way. There's an

matches my observations as a 50-year-old male who grew up in northern California, and, you know,

I mean, again, in this area, and the joke being that I can only speak for my own reference point on this. And then we have a bunch of different things about partner preference and that at some point, it almost seems like it departs from, well, it certainly departs from our sort of linear, like, okay, girls like boys, boys, like girls to testosterone, makes boys, estrogen, makes, where we're nowhere near there, where we've left that station a long time ago.

“And at the same time, we arrive at a place where I think we need better languaging to separate”

these axes because it is very confusing for people. So that would be very useful if the fields of neuroscience and psychology would start to embrace the real world realities of, because I actually think the lack of specificity of talking about orientation versus biological sex, and these, and these other aspects have led, I think that's the source of a lot of conflict, actually. Anyway, that's an editorial for another time. In terms of biological impact on sexual orientation,

one of the more striking findings that you've been talking about for a number of years,

that just kind of shocks at first, but then you get a lot of nods from people.

Is this idea that the larger the number of older brothers that a male has, the higher the probability that he is gay? It's been seen over and over, I mean,

“it's really one of the rock solid findings in human sexuality that was first noticed by Ray”

Blanchard at Toronto, and has been seen in many populations all over the world. So the way to emphasize the difference is if a baby boy is born today, if he has no older brothers, his odds of being gay when he grows up is about 2%. Pretty low. But if he had one older brother, his odds go up by a third. Okay, 2.6. And if he has two older brothers, they go up a third again. All right, now we're at 3.5. It turns out you got to have like a dozen older brothers just to have

a 50/50 chance from the same mother. So we know that it's not, you know, in, you know, what they call now blended family or so this is, we'll get to those in a moment. But but this is what you see. So you get a big population of men, here's, here's a big population. They have one older brother, how many are gay, and it's a small number, and the number they have two, still small number, but more. And, you know, how do you explain that? We saw it when we did the surveys,

“we, I don't, if you remember, we also asked people how many older brothers and sisters they had,”

and how many younger brothers and sisters they had. So it, it turns out, in the general population, they're about 105 boys born for every 100 girls, right? That's also very consistent. 105 boys born for every 100 girls. That's right. So there's, or put another way, if you want, I can, I can guess the sex of any baby that's going to be born, and I can be right

more than 50% of the time because I'm always going to guess boy, right? Because 51% of the time,

it'll be a boy. For straight men, you total up all the older brothers they have and all the older sisters, and there's a ratio of about 105 older brothers to 100 older sisters. For the gay men, it turned out, there were 140 older brothers for every 100 sisters. Help frame that statistic for people. So, so you gave us the one older brother what the probability was, right? It's a third aid increase, you go from 2% to 2.6. Is it a linear increase? As you increase the number of older

brothers, you just start. I'm increasing the probability at every, with every older brother or are there, is it sort of a step function? It is, in fact, a linear progression. So at, at that rate, so raise, work that out. Of course, it's hard to find men that had more than four or five older brothers, especially these days. But, but it turns out, in the Kinsey surveys, Ray went to the Kinsey surveys way back then, you know, those, those interviews were incredibly thorough. And so they

have a record of how many siblings have each sex, every one of those men had, and you can see it there too. And it's another one of these cases where I tell you this, and you tell me, well, I know somebody who has two older brothers and their gay, is that why? Or I know somebody who three older brothers and they're not gay this time. And so yeah. So you tell me, oh, I know someone has two older brothers and he's gay, is that why he's gay? And I really can't tell you,

there's no way to know because, in fact, most men with two older brothers are straight, right?

why they are gay. Ray Blanchard has done the statistics. And their estimate is of all the

“population of gay men, about one and seven are gay because their mother carried brothers before them.”

And what I mean is those same men with the same genotype, same genes. If their mom hadn't had older brothers before them, they'd be straight today. Statistically, statistically. But you show me picture of the gay men's chorus and I can't point out which man is gay because of that because their other factors that can influence whether someone grows up to be gay. So again, it's one of these things where the statistical comparison is a great theoretical importance even though it offers

no predictive value for a given individual. So we know that males engage in much more rough and tumble play when they're younger, just like rats, just like monkeys. This is a fact. It's related to testosterone exposure. If a boy has older brothers, there's a decent chance he's engaging in more

“of that than if he has a sister. And given what you said earlier that in humans, the brain continues”

to develop at a massively accelerated rate even after birth up to age six testosterone has an influence, behavior impacts testosterone. Okay, they're not in puberty yet, but you could imagine this has an impact. So the experiment becomes for boys that had two or more older brothers, but we're not raised with those older brothers. Does the effect hold of them having a statistically

greater probability of being gay? It's a beautiful hypothesis and you first hear about this and

that's first thing you think well, maybe the younger brother got bullied or beat up his older brothers. It may be the older brother somehow inhibited the younger brother from developing in a full masculine fashion, but it turns out Tony Bogart started looking at these data and he started asking well, what about stepbrothers? Do older stepbrothers make any difference in the odds of sexual orientation and the answer was a clear no. On the other hand, older brothers who came from the same mother,

but were raised apart had just as much of an effect as those that were raised with it. So it does not seem to be socially mediated. In fact, Ray Blanchard and Tony Bogart have come up with a very possible hypothesis called the maternal immunization hypothesis. And it runs something like this that, you know, the first time a mother carries a son, that that son is carrying some genes that her immune system has never seen before. All the genes on the white chromosome, there's no way her immune

system could have seen it. And as long as that first son is in utero, her immune system never sees it,

but inevitably at birth with its cesarean section or vaginal delivery, there's always blood and there's always mixing of blood. And so at that point, the mother's immune system is going to see these male specific antigens that it's never seen before. Of course, it's going to regard it as an invader. And it's going to start making antibodies to it. So their hypothesis is that each time a woman delivers another son, her immune system is going to generate more of these antibodies.

And if she has a subsequent son, antibodies cross the placenta just fine. And so in fact, the placenta very actively sends antibodies across to protect the young. And so that would mean

that her antibodies are going into this third son and somehow altering the development of their brain.

And the strong evidence they found in favor of this is that in women who have sons where there's this pattern that looks like that might have happened. It turns out they have higher levels than control mothers of antibodies to a male specific antigen, quite specifically, an antigen to a protein called neural ligand for y. So neuro ligand. Exactly, you know that neural ligands are important for synapse formation. And it turns out there are several copies, not unusual

in humans. And this one, neural ligand for, there's one on the x chromosome and y chromosome. And they're slightly different. And so the fact that these mothers are making antibodies to this male specific antigen and that in their particular family, it looks like subsequent sons

“where more likely to be gay, you can imagine that's what's going on. That her immune system has”

perturbed the development of that subsequent son enough that when they grew up their moral likely to be gay. Whatever the mechanism is, it has to be that it's the mother's body that is

that somehow is doing something to perturbed the development of her subsequent sons to make

the moral likely to be gay. It's a fascinating idea. And it also gets at that same theme that I've mentioned before, there are lots of different developmental pathways to end up being gay or end up being straight. And there's going to be one cause of anything in human behavior and certainly

“have sexual orientation. But I think the evidence is looking pretty strong that for women at least”

prenatal testosterone does have a say. And we know that in men the mother's body has a say and whether they're going to be gay or straight when they grow up. The result is so cool because once again, it spits in the face of these kind of reflexive assumptions. For instance,

you could imagine and I probably grew up hearing like, oh, you know, he was raised around a lot

of girls or something, you know, and a lot of sisters or he had an older sister or three, right? Or dad left the house. You know, I mean, this didn't happen so much in the 70s and 80s and but it was more frequent in the 90s, you know, back then it was called broken homes. Now people be like, what are you talking about? Like, everyone knows somebody divorced, right? So, but back then it was more rare. And there was this idea like lack of male influence. And of course,

“there are important, I believe, gender-specific influences on kids in terms of upbringing. But in”

terms of the stereotype that seems to have largely dissipated, but that, you know, like having an older sister or three would make a son more likely be gay. It's exactly the opposite when you look at the biology. Yeah. I mean, raise looked at that very carefully. And so older sisters don't matter and neither do younger sisters. And here's the other thing that younger brothers don't matter, right? So no matter how many younger brothers you have, that doesn't change your odds of being gay when you

grow up. So it's, that's why I say, it's got to be the mother's body that is remembering and it doesn't seem to be socially mediated. It is, you know, independent of that. It is nature having it say. Males with congenital adrenal hyperplasia. We didn't talk about that. And perhaps more important is to talk about males and females with congenital adrenal hyperplasia, but our heterozygos. So they have one functional copy, one non-functional copy. And the reason I raised this is that it's very

common. It's 1 in 12. 1 in 12. Which is, it seems like an outrageously high number. But it's one of the things that is immediately screened for. It may not as much as some other, you know, blood related diseases and things like that. No, I didn't know that, but, but, but I can say, I mean,

“you have to remember actually there are several different genetic mutations along the pathway”

of making adrenal steroids that can go wrong. And so there are several steps that have to be there for the mega adrenal steroids. So number one, there's more than one site where the mutation is to be carried. And of course, the heterozygos are, you know, may have no symptoms whatsoever. And so they may reproduce just fine. We know this, that, sorry, I should be clear because people are probably thinking, wow, 1 in 12. Both males and females at carry 1 mutant copy of

CAH are capable of healthy reproduction. There are some hypomorphic phenotypes, some people make more antigen, some people have a sustained stress response. It's not very well studied, but it is very common, which I found interesting. Another reason why the carriers are so common is because typically there's no phenotype, or if there is it's subtle and so it doesn't come due attention of any any physicians. It's only

when two defective copies of the gene come together in one offspring that there's no adrenal steroid production at all. And then things happen enough to get the attention of the doctors. I've looked into this and it does seem like one mutant copy of CAH is, you find it just statistically more frequent in professions or sports where there's a requirement for long duration stress tolerance, which makes sense. Right. I mean, so as some of these genes

could confer an advantage, some could confer a disadvantage in different settings. And that there might be a heterosigot advantage. I mean, you know, the classic example, sickle cell anemia, right, where being a heterosigot for that gene converts an advantage if there's malaria in the area. You'll be less likely to succumb. Things go wrong when two copies come together in one individual. And that's when the the blood cells are especially affected.

And things go wrong when an offspring gets to such copies. And which is relatively rare, but it does happen. And in that case, then the offspring is very sick. Did you ever do the head

transplantation experiment on the Finches? That's amazing. What sort of a memory you have?

but I remember you wanted to do an experiment where you're going to transplant Finch heads. Well, people, and I thought it was the coolest experiment ever because it was going to be done as embryos. So no, it was not taking heads off of birds. Yeah. It was an embryo experiment,

“but I think we should talk about the backdrop of this. Male birds of certain species sing,”

female birds don't, right? So you wanted to embryonically put a female head on a male body, a male. Finch head on a female body and you want to swap head bodies of these embryos. Tell us the primary part. I'm certainly looking like the mad scientist. Well, let me tell you, hold on, crazier things have been done. If you have tax dollars like brain bow mice, mice that glow, you know, 215 different fluorescent colors to identify different

cell types. I mean, I could go on and on and on. I think this experiment has a purpose to get out of principle that can't be understood any other way. So it's not just tinkering for the sake of tinkering. In fact, people do those sorts of transplants and birds. So a very

“famous neuroscientist from France, Nicole Woodran, did these experiments where she would open”

up chicken embryos and quail embryos. And she could scoop out part of the nervous system from one and implant it in the other. And she'd know when she had done it right. She had a way of telling the cells apart under microscope. Plus when they grew up, here you'd have this white leg horn chicken with a streak of brown feathers. Right, where she said, called a quicken part. Sorry, couldn't help myself. Here you'd have this white leg horn chicken with a streak of brown

feathers in the middle that were derived from the quail. And so it is possible to do those sorts of swaps. And of course, this is what's so great about working with birds. Is their embryos are,

you know, easy to get to for the first 21 days or so. So people had done those sorts of experiments.

“There was a question about sexual differentiation of the brain in birds because”

I'll tell you why it turned out I didn't need to do that experiment and it wouldn't have shown what we wanted. That is so there are sometimes you'll see in the news someone will find a Janandromorph in birds. Janandromorph. So half female, Jen and half male, andro. And what it happens in cardinals, for example, it's like the animals been split down the middle. No, yes, where the one side is the bright red of a male with the crest, et cetera. And the other side isn't

right. So these, these occur occasionally. And our best understanding of what happened there.

First of all, the sex chromosomes are a little different birds and mammals. I'm going to

gloss over that. But our best understanding of what happened there is this is the case where two embryos, one that was carrying male sex chromosomes and the other female sex chromosomes came together and at an early stage. And so what we have is a is a mosaic animal where one side is genetically male and the other side is genetically female. Now in a mammal if that happened the testus on the male side would mask and eyes everything by using hormones.

The clue that something else is going on in birds is that in this case the, you know, there's not been this blending. And when art Arnold and others looked at the brains of Janandra Morse, sure enough the sex differences where this region, HBC, for example, is tends to be larger in males and females. And these animals, it was larger on one side of the body than on the other. So they were indeed, you know, split with this, this suggested that

the genital hormones were not in charge of sexual differentiation. And so what I wanted to do

and never figured out quite how to do was to take a male brain and put it on a female body

and vice versa to ask what sexual differentiation will be like with the whole body listen to the brain and become male or will the gonads. It was a crazy experiment where if I could dissociate what the sex of the gonad was from what the sex the brain was and what would happen. But it turned out, you know, I didn't have the good hands that you would do, for example. I never learned how to do that experiment. But one resolution of it is one of the things we now

know is going on in birds is that in some cases it's the brain itself that's making the hormone. And is mascarizing itself. So in birds there's pretty good evidence that brain sexual

including testosterone and estrogen, is getting made locally and that that then is driving sexual

“differentiation. And that's why you can have, you know, one side of the brain is male and the other”

side is females and that just doesn't happen to mammals. That's the mechanism once you start using canaddle hormones to direct sexual differentiation, you can end up with that sort of mosaicism, which is maybe too bad. I mean, there are carnival acts where supposedly one side of the body is male and the other side is female. And those have been around for quite a while, but that's a different thing. And it gives you two real world examples, real because

I was told them, and I believe them. In anticipation of our conversation today, I ventured into some corners of the internet, I kind of wish I hadn't. But, you know, in gym culture, bodybuilding culture, there is a subset of people. I don't recommend it that take synthetic and regions, in a box store. It's a different kinds and in different combinations. And again, I don't recommend people do this, but it's entirely different than hormone replacement therapy or something like that.

Like, experimentation with high dosages of different types of testosterone derivatives. And my interest in understanding a little bit of what some of the general observations are there is isn't naturally occurring experiment with some thematic averages, which is geek speak for, like, if one person reports something, it means nothing, but if hundreds of people or thousands of people validate that experience, you think, well, it's kind of, you know, these aren't controlled

studies, but nonetheless might be interesting. And those communities have long talked about how different forms of endrogens have different effects on psychology. And in particular, these days, you can find a lot of discussion in those communities of certain anabolic steroids, a trend balloon in particular that causes aggression, but that is well known for causing otherwise self-reporting as heterosexual males to start wanting to have essentially with males or females. Is it

in fact that seems reversible when they stop? I mean, it seems generally associated with a kind of

“a hyper-sexuality. So that's an important variable, right? So there's all sorts of variables there.”

So that's one observation that makes me wonder if the adult brain is still plastic at the level of the hypothalamus to endrogens later in life. Now, this is not to say that the many, now millions of men who are taking testosterone replacement, which very, very common, doing that safely with doctors, support, et cetera, are they're not trying to boost things into superphysiological range, but it's a naturally occurring experiment with very few controls and only

anecdotal reports, but it suggests that the adult hypothalamus is still androgens sensitive

in ways that couldn't drive pretty powerful changes in behavior and perception.

And we know that is true because back in the previous century, Julian Davidson at Stanford, actually in the physiology department there, was among the first to do these double blind placebo controlled studies in men who had lost their testes for one reason or another accident or cancer of things like that. And so double blind means neither the man nor the physician who was interacting with him had any idea whether he was getting the placebo or the testosterone. And that's of course

“really important for coming up with conclusions and they concluded that in fact, the men who are”

getting testosterone definitely reported feeling better, feeling more energetic, having a higher libido and they definitely felt better overall. And Julian said sort of the joke is that even though

it was men were supposed to be blind to which treatment they were getting, they always knew.

They always knew when they were getting the testosterone because they felt so much better. So we know for a certain that testosterone does have effects on the adult brain and me, these cases, right? These are men's prostate cancer cases who were elderly yet and still, they still responded to that. Yeah, one thing I learned from your textbook was that this idea that testosterone diminishes with age is largely true, but the rates are highly

variable and that there are some individual points on the scatter plot whereby you'll see somebody in their 70s or 80s who's testosterone is very similar to someone in their 20s or 30s.

but it suggests that there's a tremendous amount of variation. We also know that absolute numbers

don't necessarily dictate how people feel. In fact, the CEO of a very, very, very successful company, not a tech company, an entertainment company came up to me once at a private party and said that his testosterone was down in the low 300. So this is approaching the low end of the reference range, but he feels great. And I said, if you're willing, like what variables are we talking about here and he explained, you know, vigor and he explained, you know, libido and he explained,

you know, general enthusiasm for life and I said, well, I wouldn't change your thing in that case, right? I mean, he's a perfect case whereby low end of normal is not a problem and who knows, maybe had he taken more, he would have aromatized more to estrogen and he wouldn't have felt

“this good for instance. I mean, if it ain't pro, you know, leave it alone. Yeah, I think it's”

something that doesn't get mentioned enough. But you also point out why humans are such lousy research subjects because there's so much variability going on. So what I can say is that for the decline in testosterone levels in men, first of all, it's so much more gradual compared to what happens to women at menopause, right? There's no comparison whatsoever. And there is

incredible amount of variation across subjects. And so once again, even though you can say

statistically, we know this is a trend, I can't make, you tell me of someone's 71 years old just to pick on me. I can't predict what their testosterone levels are going to be like or not very well. Another sociological observation from the internet, everything on the internet. Yes, true. Certainly not everything on the internet. I know you were being sarcastic and certainly not everything on the internet is informative. But clusters and averages are interesting to me.

“There's a meme, which I find interesting, vis-a-vis type of conversation, whereby I think it was”

a martial artist, a MMA guy from either Russia or some Eastern country, excuse me.

The meme is, it goes something like, send two, three years to Dagestan and forget. A guy is talking

about how he wants his kid to be good at wrestling. So he's going to send him to Dagestan where apparently the training is very intense. And the meme goes send two, three years to Dagestan and forget. He said, "I'm going to send him there for a few weeks." And then the guy goes, "No, no, no, send two, three years to Dagestan and forget." And that meme, which is, it's not a cartoon. It's a guy actually speaking in a hack context, has been, you can find extensive

compilations of people showing kind of effeminate boys dancing, doing kind of theater type activities, and then transitions to send to other years Dagestan and forget. The idea being, returning to the beginning of our conversation, that there may be more plasticity early in life and that masculinization of behaviors stereotypically defined, okay, want to be very clear. The idea being that that's very plastic early in

“life. Okay, I think this is interesting and important to observe because when I was a kid,”

my mom, she still tells me the story, but she told me this verified this for many. Okay, we had a pediatrician. This was in Northern California. This is just a mile or two away from Stanford School of Medicine. And my pediatrician said to her, "You have a boy, Andrew, and there are three very important things in raising him." And these were his words, "One, don't let him ride motor cycles." I agree. "Two, don't let him drink soda. Too much sugar." Okay, fair. And he said, "Three,

don't let him do theater." The implication being that boys who do theater have a higher probability of becoming gay. Now, that was I was born in 1975. Okay, he gave this advice to every parent of a male. And I say that to kind of frame people's understanding of where we were versus where we are, and yet this meme is, I wouldn't say, rampant on the internet, but has a fair amount of support for it in the sense that I think they're still the general belief that certain activities

can buy a sexual orientation. And I just want to zoom out and ask acknowledge the idea that the brain is plastic to Androgens behaviors impact Androgens. So, not trying to corral you into a given answer, but I think we've come a certain distance in this, but we haven't really come that far. Well, and of course, there's no doubt that the younger brain is more plastic. There's no way around that.

I can tell you people look really hard for any social correlates. You talked earlier about the dad that's missing or even Freud talked about the overly coddling mother and the dismissive father. That might make a boy more likely to be gay. And so, people look for those sorts of correlates.

“The data just aren't there. I mean, it's really, which I think is interesting and kind of strange,”

because you'd think that if the social influence was that good, that you'd find something. And so, in terms of sexual orientation, I think the data pretty weak. However, in terms of other expressions of male-like behavior, I'm clearly culture and family has to say, right? I mean, they clearly make an influence. I mean, in terms of what boys are supposed to do, I would say probably the only sex difference that will persist, and that almost certainly is due to biological factors

like testosterone, is you mentioned already rough and tumble play across so many species. You put a bunch of males together, and there'll be a lot more physical activity than if you put a bunch of females together. And an interesting thing happens if you put it in a mixed group,

“and it doesn't matter whether it's monkeys or rats, the overall play will be intermediate.”

It's like the girls calm the boys down, and the boys ramp the girls up a little bit. And so, that might be one that's going to be pretty hard to corral with social influences, but virtually every other expression of masculine behavior, of course, culture and family, make a difference. I don't know. I'm going to suggest anyone send their child to Augustine, two, three years. Yeah, thank you. The original statement was a real statement,

and a discussion was aimed at something else. It's been co-opted for this, like this is the form of intervention or whatever you want to call it. Let's set the internet aside, and let's talk about a different upbringing for a moment, which is yours. As a scientist, you have a somewhat unusual trajectory in the science, so where were you born? In the Ozarks? In Springfield, Missouri? Oh, I was going to say where are the Ozarks? I know where they are, but to orient our international audience.

Southern Missouri and Northern Arkansas, so it's, it's famous because it's Hill Country, and so very hilly, very much like the Appalachians, both in terrain and in culture, actually.

So no, I was born in the Ozarks, and I'm working class family, known in my family, never, well,

known in my mother's generation had finished high school, much less college, and I was always a little bit different because I was so much more interested in reading than, all my cousins say,

“all they remember about me when we were growing up is I always had my nose in a book, right? That phrase.”

So, and as I get, I didn't choose that. I didn't choose to like reading, but I always did, and I always love school, and so, and I will say, I had a great family that was incredibly supportive of me doing whatever I wanted to, that would, that would be fine. And as I look back, I realize, and I predict you'll find this too. The older I get, the more I realize how much

luck matters, and how many very fortunate things happen to me, right? So, the first question is,

I end up going to Yale College. What? Working class family, working class. So, my folks were blue collar workers. For complicated reasons, I was raised by my grandparents. He was a construction worker, and she worked in a food processing plant. And so, they once told me that maybe all together, they went to third grade, right? They got that far, but they were clearly smart and great people, and they were very supportive. And, and so, here's where, here's an incredibly lucky episode that

happened to me. So, when I was a junior in high school, I go to the central high school library, and I volunteered there after worked a Broadway book. And the library tells me, "Oh, there's this book you might be interested in." And she shows me this really thick paperback made out by the college

board. So, this was the first year that the college board had put together this book showing all the

colleges in the United States with little verbs about them. And she said, "You might want to look at

aid. So, I read that entire book from front to back, except that only read the financial aid part, or because at the time, my grandfather passed away. And so, my grandmother, I are only income with social security, right? That was, that was our livelihood. And, and so, I read financial aid everyone, and I get to the end. In this first edition, they were an alphabetical order,

“which makes no sense, but that's how it was. I get to the end, and the one for Yale college”

is like one of the shortest listings there. And it says, basically, we're committed to making sure everyone admit it. We'll get that financial aid. They need, this is me. This is what I did to read the whole book, just to get there. Well, the next entry was Yashiva, which I thought, well, that's a strange name. But if they'd had that paragraph, I would have been a pie in there, which would have been fun too.

And so, so I go to my counselor, and I say, well, I had never heard of Yale. I mean, I associate it with

locks, right? I'd heard of Harvard because of Kennedy, but, you know, nobody my family taught. I go to my counselor, name was Jean Walker, and, and, and she said, that's an Ivy League school. Huh? What does that mean? And she, she, she tells me and she, and two or credit, she doesn't say that's stupid. You're never, you know, why, why would you be doing that? She says, you know what?

“You should apply for early admissions this year. Early admission, I know. Okay, so I apply for”

early admission, I don't get it. So, so, okay, but I'll try again next year because that paragraph says, it's really got it under my skin. And this is what I need. So, pie the next year. And this time, they ask me for an interview. And I'm, I'm, I'm, I'm, I'm, I'm, I'm to, I'm to have an interview with Dr. John Ferguson. I'm to call up his office and arrange for an interview. And I'm sitting in French class with my friend Dale, and I'm telling him, I'm supposed to make an appointment with

Dr. John Ferguson. And the French teacher who is one of my letterwriters, Mrs. Fisher, she over here is this. And she says, what on earth, why would you go see John, Dr. John Ferguson? Because she knew, but I didn't, he was an OBGYN. I said, you know, and I, you know, sort of so-to-boach, I said, well, you know, oh, well, I know John, he's an old-family friend. I used to babysit him. And, you

“know, well, I'll be calling him. So I'm sure, I don't remember the interview with the man, right?”

I mean, I don't remember the thing about, but I'm sure he told him, I was, you know, the greatest thing on earth, because I'm sure he gave me a stronger recommendation as he possibly could. And, and so I got in. And they, and it, they were true to the word. They sent me, you know, this sent me this thick letter with all these, all this financial aid. And so, and they didn't expect my family to contribute anything, right? So it was, it worked out. And, you know, and one had, I have mixed feelings

about, you know, because I benefited so much. I mean, I'll quit it myself with this. I went with the right attitude, right, which is, they've made a mistake. This is Fisher got me in, and I'm, I'm not going to screw this up. And, indeed, you know, I, you know, Andy, I want to know everything. I, I want to know about art and literature and all the sciences. It was, I mean, I, I was hungry. And so, and I went with the attitude is, man, all these people are smarter than I am. And so,

I'm just going to soak it up. And at least half of what I learned to AI learned from other students,

right? And the, the first nine among campus, you can, you can see what happened. So first of all,

I drive the Springfield to New Haven, it's a long drive. But, you know, that's how we go places. We, we drive. I get to New Haven, it's, where am I going to park this car? I can't, I, I just, of course, said, be, you know, parking lots and, you know, yeah. And so I find a place in downtown, a garage, and oh my God, this is going to cost me so much money to keep the car here. I, I got to take it back as soon as I can. And I go up to my, my dorm room in the, in the old campus,

at a meet my three roommates, and I know how to be sociable. So where'd you go to high school? And to them, tell me, they went to prep school. Huh? What's the prep school? They explained that. To when they, they start talking about Philips and over versus Philips exit. I, you know what? And, and, and the third guy, I, I won't mention the name, but his last name is one of, you know, generational wealth that every American has heard, right? So it's like, okay, I'm, I'm not in the

old starts anymore. And then they start, you know, smoking dope. And I've never seen that before.

I have never, I've never, I've never, I've never, I've never been around people smoking marijuana before. And they assure me, oh, the campus cops, they'll look the other way. And I'm thinking, and, and that very summer in Green County, where I'm from a, a judge had sentenced a young man

and this is the OSR, right? Not, not the same sort of place. So I'm thinking, well, maybe the campus cops would overlook you smoking dope, but I'm not going to give you any excuse to send me home. It was like a kidney candy shop. And because I regarded everyone there, as, they certainly

knew more than I did, all of them. And they were probably smarter than I, it was like, I never felt

the pressure to be the smartest person in the room. Okay, I'm not, I don't care. I took as many classes as I could. And, you know, I, I always wanted to take six, you were supposed to take no more than five courses per term. And so I, I would always want to take six in the Dean would let me, because I'd take five courses in, in a lab, which is like half a course, etc. And I'm just, you know, I'm not getting nails in everything, but I don't care, right? I didn't find it. So I'm having a great

time. And that's when I learned about neuroscience. So first someone told me, oh, look at this course about comparative psychology. What's comparative psychology? What it means comparing across species. And, oh, I didn't know psychologist studied animal behavior. And then pretty soon, I took

“a class, Linda uphouse taught a physiological psychologist taught neuroscience. And I'm hooked, right?”

I mean, this is, I love this stuff. I mean, it's been an amazing arc to go from those arcs to Yale.

I love that when you found yourself in an environment that offered a lot of opportunity that you seized that opportunity. I think many people wouldn't have done the same. Had they not had your background, but maybe even if they had. I mean, it's, I think that when you find yourself in a place where there's tons to learn and you throw yourself into that, only good things can come of that. I mean, you mentioned luck, but I think, you know, luck is, I wouldn't say evenly distributed,

but it, but it has a habit of finding the preparedness they cite, right? I obviously didn't make that statement. And I love this theme of exploration. I mean, I think of you as the hormones

“and sex behavior hormones and sexual orientation scientists, right? But I also remember, you know,”

and it was 25 years ago, that you always walked very quickly and you always had an idea

that you were excited about whenever I'd run into you. So I want to say you've really inspired my career to go after things that interested me and just really follow those trails and also when when it wasn't so clear what to do to pick the thing that at least was most exciting then and not worry about where that was going to lead next. You strike me as one of the least careerist people I've ever met. And I also acknowledge you've had a spectacular career and it's still going, I mean,

your name is synonymous with hormones and behavior and hormones and sex behavior. You're being humble now, but it's absolutely true. It didn't hurt that your last name was breedloved. Yeah, honest, but let's face it. That wasn't going to confer you like a real lasting advantage. So clearly, you've put in the work. I also really want to thank you for coming here today and teaching people what's known about these topics and these are not easy topics to parse. The language in

has to be very specific. The reason it has to be specific is in one part political sort of, but it's really about making sure that people understand what's true, what's not true and what's not known yet so that they can form their own ideas and I really admire the way that you're able to do that. And I also learned a ton today. So, you know, I'm struck by a number of different things in this model of how we become who we are. And as someone who's raised kids successfully and I was

grandkids. I knew your kids, so that's a trip to me. I haven't seen them in years, but the kids,

“I think maybe you would just comment briefly on, you know, did you observe early sex differences”

in terms of behavior? Was it striking? Did you do experiments on your kids or did you opt not to? It was pretty amazing, really. Now that you mentioned it because Steve Quickman once told me that there was someone did a study where you ask people how much do you attribute personality to nature and how much nurture. And he said the only correlation that came out of it was the more kids people had, the more they thought nature was important for determining. And you know that

because if you have more than one kid, they're not the same. And so in terms of sex differences, I'll tell you so I have one daughter, Tessa, and she had two older brothers, et cetera. And you know,

right? That would be our skirt. That was just, you know, not useful around the lab. And there

“was a period there where every day with Tessa, it was, it was a struggle if we didn't put her in”

the dress, right? She really wanted to it. And as soon as she could walk, one of the things she liked to do was to put on her mother's various shoes, right, and walk around and then we're cute, et cetera. I mean, she was so different from the beginning. Now, I'm not a biological determinist. I don't think, you know, I don't think biology is everything. I don't think, you know, prenatal things are everything. There's no one cause of any human behavior, but it really struck me.

Oh, and, and one of my boys could make a gun out of anything, right? We, you know, the era, we were trying not to even growing up in Berkeley. Oh, my, it was especially in Berkeley. He wasn't going to find a toy gun, but by, by Gala, he could make one. And, and he was also the, the kid that, you know, was loved any toy with wheels on it, right? So it was, and, and you know,

even among monkeys, right? Melissa Heinz showed it first. Even among monkeys, if you put in

“wheeled toys, it's the male monkeys that are much more interested in that than the females. And the”

female monkeys are much more interested in the dolls, et cetera. So yeah, you have more than one kid. I, I predict you're going to be amazed about how, you know, how different the kids are, even though you're the same family, right? They don't tell come out the same. Once again, you've been a huge inspiration to me over the years. And I know that listeners are greatly appreciative of everything you've taught. And we got to get you back here. Oh, also, you're writing a book about the biology

of sexual orientation. I didn't know this. We don't do, we actually don't really do promos. That's not really our podcast, but when can we expect that book to hit the shelves? Oh, you put me in such a tough spot. So I'm struggling with it. I've written six chapters and I'm intending through

B-11. My goal is, can I get this first draft done by this fall? And then there's, you know,

there's reviewing and things like that happen. So I do, you know, knock on wood. I'm really hoping I'm going to finish this book. And, and if so, well, you know, I expect you since you owe me so much. I expect you to buy a copy. Absolutely. I'll buy a copy. I'll read it and I'll let the world know what I think about it. Dr. Mark Breedlove, thanks for coming here today. Come back again. It was pleasure. I've had a great time. Thank you. Thank you for joining me for today's discussion with Dr. Mark Breedlove.

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That's it for me. I'm not too scared.

Steuern-elevedic? Self. With Visa Steuern.