Radiolab - The Unsilencing
Episode Date: August 26, 2021Multiple sclerosis, lupus, rheumatoid arthritis, even psoriasis — these are diseases in which the body begins to attack itself, and they all have one thing in common: they affect women more than men.... Most autoimmune disorders do. And not just by a little bit, often by a lot; in some cases, as much as sixteen times more. But why? On today’s episode, we talk to scientists trying to answer that question. We go back 100 million years, to when our placenta first evolved and consider how it might have shaped our immune system. We dive deep into the genome, to stare at one of the most famous chromosomes: the X. And we also try to unravel a mystery — why is it that for some females, autoimmune disorders seemingly disappear during pregnancy? This episode was reported by Molly Webster, and produced by Sindhu Gnanasambandan and Molly Webster. The Gonads theme song was written, performed, and produced by Majel Connery and Alex Overington. Looking for something else to listen to? We suggest pairing “The Unsilencing” with “Everybody’s Got One,” an episode about an unknown super-organ that nobody on the planet would be here without: the placenta. Want to learn more? You can …...check out a Montserrat Anguera XX study,...read Melissa Wilson’s placental, pregnancy hypothesis,…and get a primer on Rhonda Voskuhl’s estriol & Multiple Sclerosis work. Support Radiolab by becoming a member of The Lab today.
Transcript
Discussion (0)
Wait, you're listening.
Okay.
All right.
Door listening to radio lab.
Radio lab.
From WNYC.
Could I ask when this might air?
Yeah.
I'm four months pregnant today.
And I just got a call.
Yeah, no, it's super exciting.
And I was diagnosed with Hashimoto's six months ago.
So it was just like, wait, is Hashimoto's an autoimmune disorder?
It is.
Huh.
I'm Molly Webster, and I'm Lulu Miller.
This is Radio Lab.
And today, we are looking into one of the biggest
medical mysteries, which is why a body sometimes turns on itself.
And Molly, you're gonna lead us through this one?
Yeah.
And it's something I got pulled into when I first was working on gonads.
Gonads.
Gonads.
Gonads.
Gonads.
Gonads.
For anyone who hasn't listened, is the romp through sex freaking out.
You didn't know.
You didn't know.
What was the actual tagline?
The parts of us that make more of us. The parts of us that make more of us.
The parts of us that make more of us. That's good.
So GoNance was all about sex development, right?
So I was like deep in, exes, and wise,
and when do we kind of divide off on these paths that are called, you know,
gender in like the top level world.
And while I was in that space, one of the things that came up was that there are
sex differences in how we get diseases.
Okay.
And one of the places this is like very apparent
is in autoimmune disorders.
It's very puzzling.
Why does autoimmune disease occur
eight times more often in women than men.
Is it that big of a difference?
For rheumatoid arthritis it is, yeah.
Wow.
And of course in MS it's two thirds to three fourths.
Hashimoto's disease, 95% are women.
That's like almost the entire case study.
Yeah, isn't that crazy?
Oh wow.
So I just, I fell into this like series of conversations with interestingly like very
provocative women, scientists who are like trying to answer this.
And we're going to circle back to each of them.
But first little basics in autoimmune disorders.
Your immune system, it starts attacking you.
And there's various ways it can do that.
It can be anything from you have skin rashes,
to patchy skin, to infertility,
to you have neurodegenerative like MS,
it like breaks down your brain and your nerves,
so you end up having trouble walking and cognition.
Some of them you die earlier from, some of them, you know, are just like in itchy patch
on your skin.
So it really is the gamut.
And honestly on top of all this, it seems like incidences of autoimmune disorders are going
up.
And so you have this real question of like why?
Yeah.
Like what's happening here?
So this has to be, this has to be genetics.
This has to be the genetics.
And so Lulumillair, we are going on a journey.
Okay.
Go to the bathroom now.
We have three stops to get through, starting with Montserrat and Gera and immunologists
and I'm at the University of Pennsylvania.
And her way into this mess is by looking at
one of the most well-known chromosomes.
I'm absolutely fascinated by the X chromosome.
I love this chromosome.
And...
Sounds so silly, doesn't it?
No.
And while we all know this chromosome for sex,
Montserrat knows it for this other thing.
The X chromosome has the highest density
of immune-related genes of all the chromosomes.
Oh my God.
And so now this is interesting
because everyone on the planet has one X,
but typical females have two.
And so Montserrat wondered,
like could there be something going on with this extra X
packed with all of these immunity genes
that's leading females to get autoimmune disorders more?
Exactly, exactly.
Now, traditional wisdom is that if you have a second X
or a third or a fourth,
it will get turned off or something called silenced.
50% of the cells are going to silence mom's ex.
The other 50% are going to silence dad's ex.
And the way it does this is actually a really physical process
because wrapped around any extra X
are these long strands of RNA.
We can look using a microscope at the nucleus of a cell
and we can use probes that are specific
for the long non-cutting RNA,
and we can light them up in pink.
And what we see is that RNA will form this beautiful cotton
candy cloud structure that completely envelops
the inactive X chromosome.
Wow, so it's like muscled.
Yeah, it's like, it's like, yes, swaddled.
It's absolutely beautiful.
Beautiful and scientists assumed durable.
The thought was that once an X was silenced
and this starts in an embryo, it would stay silent.
Absolutely.
And not just that, experiments have shown that in cells
where this doesn't happen, the cell will just start to like die.
So a monster out was like, okay, I'm just going to take a look at this extra X and see what's going on.
So in lupus, 85% of patients are women.
And so she looked inside cells, immune cells, of people with lupus.
And what she saw, no con candy cloud.
Instead of being the fluffy con candy
on the inactive ex chromosome,
they had dispersed patterns of RNA.
When she looked inside,
she saw little pin points of hot pink
all over the nucleus.
Whoa.
So it's not muzzling.
It's like shredded a vapor.
It's like, it's just all around.
Right.
Okay.
And so it's like shredded, it's like, it's just all around. Right. Okay. And so it's like, what does this mean?
What moncerot is thinking is that maybe this X being unsilenced is allowing extra immune
genes to turn on, which is throwing the immune system into like this turbo charge, and
that could
be contributing to autoimmune disorders.
So she's saying more X is able to unsilence means more genes fire enough?
Yeah, obviously there's a ton more research to do, and this is just a working hypothesis. But there's one there's one more piece to this
which is that as she was seeing these exes become unsilous she was just like, huh, you know what?
I'm going to poke around in the cells of healthy folks too in like their immune cells and she found
that in those cells also exes can sometimes get unsilenced. Huh. Is that like a pre-warning sign that they might be about to get sick?
Not necessarily because like 30,000 things contribute to autoimmune disorders, but it might
account for this other pretty rad sex difference you see in humans.
Which is that?
If you just look at like stereotypical females in males who are healthy,
on the baseline, females have stronger immune systems than males.
Okay, so you are sitting next to Soren. You're on guard, you're ready to fight. I mean,
does that reflect in those disparities? Do men do men have more, like, think, like, I don't know viruses?
Well, yeah, yeah, yeah.
Well, this is why the COVID numbers are so skewed, right?
The guys have three times greater likelihood of going into the ICU
and they have a greater chance of dying than they meant.
Is that why?
I mean, it's not, like, lifestyle, part of it really may be a part of the puzzle.
Part of the puzzle of why is just that like women have stronger immune systems that do
stronger initial responses and so can often fight back viruses or bacteria better.
Do people know this?
Like is this no?
That's so, that's so cool. Like women just
run around with better hands. It's all the time. On any given day, a female walking around
on the street is ready to fight off of pathogen in a way that like men aren't. It's just
I'm picturing like spears like who's who like we just got this whole army that men are
like like they're, they're, their warriors, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, whoo, who right? So there's like this right, there's always that whole evolution trade off thing.
You can't just get a gift.
It's that is true. It is very hard to be excited about the superpower if you are worried
about the back end of it. I'm just going to think about my little toxic exes inside of
me. They're little ticking time bombs.
Yeah. I don't know why I'm giggling. That just is not what I expected. It struck me as funny.
Okay.
Yeah.
When Radio Lab comes back, we are going to learn how the heck we got here and a possible
way out.
My name is Jazz Adam and I'm calling from Los Angeles.
Radio Lab is supported in part by the Alfred P. Sloan Foundation, enhancing public understanding
of science and technology in the modern world.
More information about Sloan at www.Sloan.org
Science reporting on Radio Lab is supported in part by Science Sandbox, a
Simon's Foundation initiative dedicated to engaging everyone with the process of science.
Molly? Yes, Lulu. Hi. Hi, this is Radio Lab. We are back from a quick break.
Today we are talking about what are we talking about, Webster?
We are talking about why it is beautiful and terrible.
Do be a person with two or more X chromosomes.
Yeah.
Because on one hand, like maybe you're a little bit better at fighting off viruses,
but that same immune system can also turn on you.
So I do think sometimes this just happens.
There's accidents.
There's imperfect innovations in evolution.
But is there any sense of like why this might be advantageous?
Why this might be the case that we are the unfortunately,
or fortunately chosen ones?
Yeah.
There's probably a few different ways into why,
but I talked to one scientist who gave a really,
I don't know, almost like haunting, beautiful why.
Hunting and beautiful, all right.
Let's just circle all the way back.
And that's our second scientist, Melissa Wilson.
She's a geneticist and professor at Arizona State University.
And Melissa is taking us all the way back
to about a hundred million years ago
to win the placenta of all.
And so as you'll remember from my last episode
and got to know intimately, we did.
So I won't go deep into it here.
Y'all should go listen. It's called Everybody's Got One. But what you need to know intimately. We did, so I won't go deep into it here. Y'all should go listen.
It's called Everybody's Got One,
but what you need to know here,
the placenta is not the DNA of the pregnant individual.
It's like a foreign object.
And so your body naturally wants to fight off
something that's not part of it.
But the placenta was pretty wily
and it started doing things to essentially get the mother's body to let it stay
and to not attack it.
Right.
And so one of the things the placenta does is it quiets the mom's immune system.
The placenta itself is blurbing off signals to downregulate the pregnant mom's immune system? Hmm. The placenta itself is blubbing off signals
to down-regulate the pregnant person's immune system.
And it's like, just shushed.
So the pregnant person's immune system has to say,
okay, sure.
You know what?
We're gonna down-regulate components of that.
That's fine.
But you know what?
If I down-regulate everything,
I don't have sanitation.
I don't have antibiotics.
This is over most of evolutionary history.
If I down-regulate everything, dead, I will die, right?
And so the pregnant person's body has to do this
kind of tight-rope walk.
It has to take those signals from the placenta
to downregulate components of it,
but it also needs to say, you know what?
No, I can't downregulate everything.
I have to upregulate some things to be able to not die of parasites and pathogens.
So, Melissa's hypothesis is like, while we were all co-evolving, right? Like the
the human, the human mammal and our ancestors were starting to get a placenta and the placenta and the
fetus and the human ancestor mammals were all trying to figure out how to live with each
other.
In this big dance, one of the things that happened was if the placenta is going to drag down
the immune system to shush it, then the mom is going to start evolving an immune system that's actually
stronger.
Be over it's stronger.
Yes.
Yes.
So that when it's dragged down, it's not dragged down to like a death level.
It's just dragged down to like a moderate level.
Oh. Wow. Wow. Oh, wow.
Wow.
Okay.
So essentially, it's all the placenta's fault.
Like, we, Double X's, have to walk around with these
Amped Up immune systems to just survive its presence.
There are technically, yes.
And you actually might be able to see this play out
really today because in some women who have autoimmune disorders,
their symptoms will go away during pregnancy.
They have symptoms and then it just goes away.
People with rheumatoid arthritis who become pregnant,
it says if their autoimmune disease is gone, this also
happens with MS, multiple splerosis.
What does go away mean?
If we could talk specifically about MS or rheumatoid arthritis or both?
The inflammation that people have in rheumatoid arthritis around their joints, around their
spine, it literally disappears.
For a subset of people, for a large subset of people,
it's as if it is the best possible treatment.
In rheumatoid arthritis, you know, for 75% of people,
symptoms will go away, and in multiple sclerosis,
it's like an 80% reduction in flare-ups.
Shhh.
I mean, and not even just a reduction in the symptoms,
but in some cases you actually get cognitive ability back.
No, no way.
It's huge.
And so I had just, you know, these experts all telling me
that like they have these anecdotal stories of women
who just want to be pregnant all the time
because they get such relief in their symptoms
or such a slowing of disease progression.
Yeah.
I mean, obviously it is not a slam dunk
for every individual or even every autoimmune disorder.
Some of them actually get worse when you're pregnant.
Some stay the same.
Some we just have no data on and we don't know.
But it does make you wonder.
The first OBGYN that I met with.
You'll remember Melissa at the top of the episode told us that she's pregnant
and that she recently developed Hashimoto's.
He said, oh, my colleague was just telling me about this paper they read about pregnancy
and how it shaped the immune function. I said, that's me. And now that she's sort of like stepped into her own research
in this pretty novel way, she's actually quite curious to see if pregnancy alleviates her own
autoimmune symptoms. And so I'm actually going to be going hopefully to get testing in the next few
months to see if the antibodies that my body is making to my
thyroid have actually changed during the pregnancy.
Okay, so there is one more part to her hypothesis and it could offer an explanation for not only why
females get autoimmune disorders more than males,
but why the incidents might be going up.
So for nearly all of human history, we didn't have contraception and you could be pregnant
for your entire reproductive career.
We now live in a world where at least in Western or industrialized nations, people are getting
pregnant way less.
So we're not going through the cycle
of having our immune system dragged down.
So if it's on high all the time,
maybe that in and of itself, the less pregnancies
is actually contributing to why women today
are getting autoimmune disorders more than in the past.
It's like there's just more time
that you're spent turbo charged.
There's more time spent at 10.
And then your body is just like,
I'm constantly at a 10.
Yeah.
Maybe I should go do something.
And so we think it's like,
if I've got nothing to do,
let me just start eating this body.
Reaking havoc.
There's this weird thing where I'm like, oh crap,
I should get pregnant.
Like, it's like, oh, and it's funny because one of my colleagues
was like, you know, there's already so much societal pressure
on women to follow, to conform.
And now like, really, biology is telling us
that, because we're not getting pregnant,
you know, we're f***ing ourselves essentially.
No, no, no, no.
Yeah.
No, keep, keep, keep going, go.
No, but then the funny thing is, is then I think,
like, the reverse of that is like, you know,
how many kids would be enough kids.
Yes, you know, no, right?
We don't know yet.
We don't know if it, we don't
know if it's more important that you start reproduction as soon as you're reproductively
active or whether you maintain it over the whole course or is too enough if you have one
10 years apart or we have zero idea. So Melissa was basically like, okay, slow your
roll. First off, there's so many things that contribute to an auto-emission disorder.
I don't think this is gonna be your solution.
Also, like, do you have one?
Do you know you're gonna get one?
Like, we don't know anything about them, really.
Science is not saying, go get pregnant.
It's not.
100% not.
What it's saying is that pregnancy may have shaped
our immune systems.
So let's figure out what components of our immune systems
respond to the placenta, what components of our immune systems act independently of that,
and then we can narrow in on the treatments.
Is anyone trying to study it?
Absolutely. Yes. Okay.
What is the factor?
Which brings us to?
Hi, my name is Dr. Ronda Voskel.
Our final scientist. I'm a professor of neurology at UCLA
So Ronda's out there in California working to understand what specifically precisely is happening during pregnancy
And she's narrowing in on something that's being produced by the placenta at
Levels the body just hasn't seen before something happens during pregnancy whereby the fetal placental unit makes a kind of a novel estrogen.
And this estrogen is called estriol.
And that is an estrogen called estriol.
Now all of a sudden you have this burst of a new estrogen, a different estrogen,
and it's at a very high level.
And at the end of pregnancy your your body is flooded in Astrial.
And the baby's body is flooded in Astrial.
It's like a primary hormone that just skyrocket
during the third trimester.
Well.
And then after delivery it drops abruptly.
Well, of course, it's made by the fetal placental unit.
AKA the placenta who has been manning the Astrial dials
has left the building.
I could probably tell you some boring things that wouldn't actually help you understand
astral more.
It's just like a different shaped molecule than other astrogens.
It has particular functions for the fetus.
It could be used in neural development.
It's also used by the placenta to turn down the mom's immune system.
And so she starts clinical trials and she's been doing them since like 2007 and 2011.
She takes non-pregnant women who have MS and she gives them estriol.
And we showed that it reduced these enhancing lesions by over 70%.
Symptoms go away, they see disease progression slow.
Whoa.
The other thing that's pretty cool is
as we were doing these trials in humans,
there was an improvement in cognition.
It is neuroprotective.
I basically was like, can I get some estriol?
You know, as Google, as you've been talking, I was like, are there estranged pills? So it would be a pill, except it's not approved
anywhere yet for MS. In Europe, I think some people might give it off label because it's been
approved for menopause. Just for XX individuals or X plus individuals.
And could this work, could I still work on a guy
or an XY person?
That's an interesting question.
I mean, theoretically, yes,
because it's a natural hormone.
Ronda says you'd have to keep an eye out
for different feminization things,
like what it act on their breasts in a certain way.
It works in XY mice.
Really?
Oh, so meaning like the XY mice,
given some estriol and they saw a reduction in inflammation.
Huh, yeah.
Yeah, yeah.
But they've not done any clinical trials on XY humans.
Okay.
There is a strong case to be made for
Astrol and MS women.
And probably Rhymes are arthritis.
I think there's a case to be made in
psoriasis.
There's clearly a role for a pregnancy
level of estrogen as a treatment
for these autoimmune diseases.
And women who've already got the disease.
I think there's clearly a role for
further investigation into that.
And also really quick, you said at the very beginning that like this is the work of provocative women,
why did you use the word provocative?
Because they're looking into stuff. Like when I talked to Montserrat,
she said that at the time she was the only scientist in the world looking at ex inactivation and autoimmune disorder.
Really?
And do it is that, that's stupid.
That's like, and that's insane to me.
And, and round of oxal, like, she is,
the studies that she's doing, like nobody else was doing.
And Melissa's pregnancy compensation hypothesis
just came out two years ago.
So I used the word provocative
because they're asking questions and doing work
that like nobody else is doing
and they're actually like upending science.
Like Montserrat's paper that showed
that ex-inactivation is not constant
from time of embryo onwards is like 17 textbooks had
to be like, oh, we're going to scratch out this, this dogma of how it works.
It's like the earth is cracking and they're the ones that cause the quake.
Does that make sense?
I don't know.
I have no idea where this ends.
But this, it sounds like what you found is like this very substantial start.
That's the thing.
That's, you know, Rhonda's getting paper after paper after paper that says, we're seeing
Estrella make a difference.
And then we've got this ex inactivation stuff.
Then we've got this pregnancy hypothesis.
And it's like, it feels like we're at the,
whether we like it or not, the very beginning of a story.
So there really is no ending yet.
Hey, whatever happened to Melissa.
Oh yeah.
Okay, so you know how she asked when the story was gonna
air? That was two years ago. Oh hi baby. And when I jumped on the phone with her recently.
That's the 15 month old and the 3 month old is sleeping. I found out it has been quite
the 2 years. I have 2 pandemic babies and one of them has gotten to be
home with me 24 seven.
That is entire life.
Well, then I'll just say, okay, so maybe you can just tell me
then about the pregnancy and and and and what did end up
happening. Cause I feel like that was like a cliffhanger.
In the interview where for months, I was like, I wonder, I don't know what her symptoms are.
And if she was having symptoms,
like I wonder if they went away.
So any symptoms that I would have acknowledged
would have been tiredness, some hair loss,
and getting cold.
But then when you're pregnant, your hair does wonky things.
So her hair did get better when she was pregnant, great. And she did feel less tired.
But one thing did jump out of her. Before she was pregnant, as part of her disease,
her thyroid was acting really wonky. Occasionally, my thyroid antibodies, which is part of her disease, her thyroid was acting really wonky. Occasionally my thyroid antibodies, which is part of the way they diagnose it, they just
spike up to like thousands of times larger than they should be.
They just like, they give you the test and they say, like, oh, the range should be, you
know, single digit to double digit and when yours is in the thousands, you know.
Wow.
That's what it was actually in the thousands.
Oh, yeah.
And then while she was pregnant,
my thyroid and my thyroid antibodies and everything
was just normal.
Her number stopped spiking.
Yes, yeah.
Did you, I remember, I remember you said to me,
there are, I've talked to women who have been like,
I just wish I could stay pregnant
because I feel so much better. That's not the reason for your back-to-backed pregnancies.
It wasn't like, I feel so much better, I'm going to stay pregnant.
No, no. It was that we wanted a second baby and the universe all fit that they should be so close together.
Molly Webster. This episode was produced by Sindhu Nyanasambandam and Molly Webster. This episode was produced by Sindhu Nyanisambandam and Molly Webster.
And the gonads theme song that you heard at the top of this episode was written, performed,
and produced by Major Connery and Alex Overrington.
Thanks for listening. Bye.
Radio Lab was created by Chad Abunrod and is edited by Sorn Wheeler. Lulumiller and Lot of Nasr are a co-host.
Susie Lektonberg is our executive producer.
Dylan Keef is our director of sound design.
Our staff includes Simon Adler, Jeremy Bloom, Becca Bressler, Rachel Kusik, W Harry Fortuna,
David Gabel, Maria Paz Gutierrez, Sindo Nana Sombondom, Matt Kiyote, Annie McEwen, Alex Nason, Zara Karri,
Aryan Wack, Pat Walters, and Molly Webster, with help from Shima Oliai, Sarah Sandbach,
and Candace Wong.
Our fact-jerkers are Diane Kelly and Emily Krieger.
you