Radiolab - Fetal Consequences
Episode Date: May 1, 2012Mother's day is nigh. Sort of. Anyway, without knowing it, you might have already given your mom a pretty lasting gift. But whether it helps or hurts her, or both, is still an open question. In this R...adiolab short, Robert updates us on the science of fetal cells -- one of the first topics he covered as an NPR science correspondent.
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Hey, I'm Janet Abumrah.
I'm Robert Crilwich.
This is Radio Lab.
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And before we really get rolling, and just want to say one thing, we're going to be in L.A. next week, May 8th, 9th, and 10th.
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Yeah.
I don't know what we're doing today, so you go.
Well, because here's what we're doing.
Maybe six years ago, I just returned to National Public Radio,
and for the first story I did...
Can we just put that in context?
You started National Public Radio.
You did kind of start.
I was at it near the beginning.
And then you went away to do great things on TV.
For 23 years I was missing.
And then you came back.
And then you came back.
Okay.
So when I popped back, I brought this puzzle back with me.
It was about motherhood, actually.
And it's, well, you'll hear.
Why don't I just play you the piece that I aired back in, gosh.
2006.
2006.
It's another time.
In Pierce, Robert Crulwich has the story.
For years.
it was thought as soon as a baby is conceived,
once it starts to grow inside a mom,
it gets its own very private space.
There is, there's a placenta.
Placenta was thought to be a fairly impenetrable barrier.
So says Dr. Kirby Johnson of Tufts University.
The baby and its cells stay on the baby side.
The mommy cells stay on the mommy side,
and nature keeps them separate until it's, yeah, time to go.
But here's the surprise.
When scientists at Tuft took blood from ordinary pregnant moms,
We would find, for example, in a teaspoon of blood, dozens, perhaps even hundreds of cells.
From the baby.
From the baby.
So baby cells were slipping out of the placenta into the moms.
But because babies do have different genes...
One would expect them to be attacked fairly rapidly.
You would expect them to be cleared within hours, if not days.
What we've found is that that is not the case, not anywhere near the case.
It turns out that baby cells stay immemate.
their moms not for days or weeks, but for decades.
Four to five decades following the last pregnancy.
So 40 years after conception, that son or daughter, who could now be a middle-aged pharmacist or something, yet their fetal cells, their baby cells are still floating around inside the mother?
Yes.
Even his 60-year-old mother, 70?
80, perhaps 90-year-old women.
You sure of this?
Absolutely.
Yeah, these cells last essentially forever.
In the mom.
In the mom.
And says Carol Artlett, who studies.
fetal cells at Thomas Jefferson University in Philadelphia, even if a woman has a
miscarriage or an abortion, even if there is no baby, the cells of an unborn child will stay
in the mother for decades. But why? What exactly are they doing in there for years and years and
years? That's a good question. Well, one early hypothesis, and it's not the nicest idea,
says Kirby Johnson, is that certain autoimmune diseases, such as lupus, rheumatoid,
arthritis, scleroderma, are much more common in women than men.
And that's one component of the hypothesis, is that this prevalence in women is due to fetal cells.
So later in life, when the mother's joints inflame, maybe it's her fetal cells, her own babies, taking a poke at her.
In fact, Kirby's mom did have an autoimmune disease.
It was a bad one, and for a while Kirby thought, well, his cells were responsible.
So I apologized immediately and said, well, there's nothing much.
can do about it.
Yeah, yeah, but it's like, stop it, Kirby.
But you know what? I was always doing that to my mother.
Always causing problems, and it was just another, on the long line of those kinds of things.
But happily, the folks at Tufts proposed an alternative, a second theory to explain what fetal
cells are doing in the moms.
Well, theory number two is the polar opposite of theory number one.
The good fetal cell hypothesis proposes that the son or daughter cells stay in mom not to
hurt her, but to protect, defend, and repair her.
for the rest of her life, whenever she gets seriously ill.
And that's a more attractive idea.
It's such a personal thing, and it does touch the heartstrings
of even the most hard-nosed research scientist.
But they all have mothers.
But they all have mothers.
And happily, they now have evidence.
More and more evidence, says Kirby Johnson,
that looks like the good hypothesis may be correct.
For example, here's a case.
Well, this was a woman who came into a neighboring hospital in Boston
with symptoms of hepatitis.
She was an intravenous drug user.
And she had had five conceptions.
She'd had one child, two miscarriages, two abortions.
That's five and all.
She could be carrying there for a lot of fetal cells.
And they examined her.
And in the process, she had a liver biopsy.
And the doc said, well, why don't we send her liver to the lab
to see if there are any fetal cells gathering where she's got trouble?
And when they looked...
We found hundreds and hundreds of fetal cells.
Normally, they'd expect five or ten cells.
But this was very large.
We saw literally sheets of cells, whole areas that seem to be normal.
Meaning that those fetal cells had gathered at the liver,
and like stem cells, they just turned themselves, in this case, into healthy liver cells.
And most interestingly, this woman did not desire to have any further treatment done.
In fact, she wanted to get back to her normal life and be left alone.
And so she left the hospital with hepatitis, but when they checked,
Months later, they learned that she is completely healthy, no signs of further liver damage.
So no medical intervention, but just a huge number of her baby's fetal cells.
Could that lead you to think the poetic thought, that she was saved by her kids?
We want to think that.
It's the most likely explanation.
But in science, there is such a thing as a too dangerously beautiful idea.
That's right, right. And we say the same thing to ourselves because it shows such a basic, wonderful thing, but it has to be right.
And we can't be led astray by our own desire for it to be true.
So they are systematically testing the good hypothesis and the bad hypothesis, all these ideas on laboratory mice.
And when they see mother mice with all kinds of diseases, infectious disease, cancer.
Ovarian cancer, endometrial cancer, cervical cancer.
cancers. We find fetal cells there. We know that fetal cells don't... Over and over and over and over.
Over and over. Suggesting that fetal cells regularly rush to the places where they're needed in the mom and, says Carol Artlett.
There's a lot of evidence now starting to come out that these cells may actually be repairing tissue.
That is protecting the mom. While the other hypothesis that fetal cells hurt the moms, there the more they look, the less they find.
I can't recall a single study that's been truly reproduced to verify the bad fetal cell hypothesis.
So while no one knows in the end which way it'll go,
I think that that's something that we're going to see within the next five years or less.
So far, a sense is building that fetal cells probably stay in mothers for decades to defend and to protect them,
which increasingly is a quiet consolation to Kirby Johnson
because it's now more likely that his cells and his brother's cells were helping
their mom, not hurting. And even though his mother did die, Kirby's beginning to feel differently.
Well, maybe if it wasn't for my brother and I, she may have passed a few years earlier.
Maybe we bought her a couple of extra years of time so she could have a few more birthdays
and a few more mother's days. And that, if I can just say that, that there's some way where
I can even have the remotest thought that I contributed to the extension of my mother's life,
even if it was a few days
that would make all of the years
that I spent doing this research worthwhile.
Robert Crillwich, NPR News, New York.
So it's been more than five years, as I said,
since I talked to Kirby Johnson, six years, really.
So I figured he might have an answer by now.
Hello?
Hi, Kirby.
Hi, Robert. How are you?
I wanted to know what do you now know
about what those fetal cells are really doing?
Right.
So when we left it, you were tipping between two possibilities.
One is that they do some harm, or they aggravate conditions later in the mother's life, or the opposite, that they help in the mother's life.
And do you now have a sense of which was right?
Well, I think it's more complicated than we originally thought, like you would expect.
Isn't that always the case?
Yeah.
But what we're able to do, though, now is more specifically argue for or argue against.
one of those different hypotheses.
So here's how he's addressed the question,
because this is a completely new development.
He's working with mice,
and he's taken the glow from another animal.
It comes from some sort of fish.
A greenish glow.
The green fluorescent protein.
That exists in nature.
He's plopped it onto the fetal cells of a pregnant mouse.
Right.
So what is that like?
If you do a tummy scan on a pregnant lady mouse,
can you look inside?
Is that going to the movies?
Absolutely.
Absolutely. It is like the movies. It is shiny, glowing green, and it's extremely easy to see. I mean, a child could say that, oh, that's green.
So he can look at the mouse, and he can see from the little bits of green glow where the fetal cells are.
And we find these cells virtually anywhere we look, like the long spleen, liver, bone marrow, the heart, we even find them in brain tissue.
Which will help figure out what they're doing.
So he can track them.
Yeah.
Yes.
Here I am.
And we've removed.
And now that he has tracked him, he says, all right, what I said before about fetal cells probably
helping moms, I think that in many cases is still true.
If you've got a mom who's suffering, say, from some liver disease or something, you can see
fetal cells doing something there.
And these cells may be able to contribute to tissue repair after an injury or chemical
or environmental assault.
So these are helpers.
Helpers.
Yeah, definitely, yeah.
But unlike six years ago, now he suspects that if a mother has a mother has a child, you know,
as, let's say, rheumatoid arthritis or some kind of autoimmune disease?
Where the maternal immune system seemingly attacks itself in this autoimmune fashion.
Now he sees other kinds of fetal cells that seem to be causing a problem.
Their behavior seems to suggest that they are attacking the mom.
Actually attacking maternal tissue.
So that's the go-get mommy group.
Right. And the unfortunate go-get-m mommy group.
Wait, so there are some kinds of fetal cells that are good, some that are bad,
and it seems to depend on what again,
on like where it is in the body or what disease?
Well, it seems to depend on a longer and longer list of variables.
So including, for example, who the father was.
That turns out to be.
Well, remember, every fetal cell is half mom and half dad.
We actually do see differences in the cells that are present in the mother,
depending upon the genetic background of the father.
Oh.
And you can have bad daddies and good daddies?
That is entirely possible.
I think we would say good daddies and less good daddies.
Is that because you're at a university and you never like to call daddy's bad?
No one's a bad daddy.
But wait a second.
Does he know how to explain the difference?
Like why one dad would be good and one wouldn't be bad?
I don't think he knows yet.
No.
We haven't been able to quite delineate why one cell may be doing something good or maybe be doing
something bad.
It may be the very same cell type.
Oh, so it might even switch sides during the course of...
Possibly could. I mean, it's sort of like behavior. You get good kids and you got bad kids.
You got good days and you got bad days. You got bad days. You got good cells and you got bad cells.
This is getting complicated. So the cells can be good or bad. Depends on the disease, the location, and the dad, but we're not really sure what.
That's not the end of the list. We actually get longer. There's a number of other variables. The number of pregnancies. Also pregnancy loss, whether it's through miscarriage or through termination. Maternal age. That's another very important variable.
who's your daddy? How old are you when you're pregnant? How many times have you been pregnant before?
Yes. And many other influences. It's impossible to quote. Well, wait a second. So this is, so when we got to the
poetry part of our interview back then, you said to yourself, my brother and I either roughed up our
mother or gave her a few more, you know, birthdays. Right. It's possible that one of us had a more
positive impact than the other.
I mean, there's obviously no way of knowing that.
But any normally inquisitive mind would start to wander to say, well, what if this or under
what circumstances is...
Well, see, my mind is wandering wildly now because when we last did this story...
And that's what we want you to do.
We want people in our group.
No, I don't want to.
It would be a much better story for me, if it had been...
For me, if it had gone clearly one way or the other.
But the story you're now telling me is that you and your brother can now meet for coffee and you can look into each other's eyes and you will not know between the two of you whether you helped your mom, whether you hurt your mom, whether you did both, whether your contribution was bigger or less than the hapstance of your dad's genetic makeup.
And, and, and, and, and, this is getting a much harder, to be a much harder story to tell.
It is much harder to tell.
So what do you, as the story gets bluer and bluerier and bluerier, why are you still in the game?
A lot of this is driven, as you know, by the issues that my mother has or had.
And I still have that in the back of my mind.
And I can't get that out of my mind that a lot of the issues that my mother had recur in the literature.
What that means is the diseases that killed his mom are the very kinds of diseases that show up in his research.
And we, towards the end, we had conversations about fetal cells.
And it made us closer, and I could share my scientific background and the work that I was doing in a way that comforted her, I think, to a certain degree, to know that I was investigating something that was directly related to her health issues.
And towards the end, we had a lot of real nice conversations about the work that I was doing and the latest discoveries.
And she would always ask one of the after she would ask how I was, she would say, how was the work.
But here's what I think there's a chance that your fetal cells and your mom sometimes helped and sometimes hurt.
So you're not going to come out the hero.
You might even come out the villain.
Doesn't that sap your enthusiasm for this a little bit?
Well, of course, I would want to think that my cells contributed in some small way to some improvement to my mother's health.
if I find out that it wasn't the case, well, that's the truth.
And as a scientist, I want to find the truth.
Whether or not the truth is wonderful or the truth is horrible,
that's what I want to find out, regardless of what the end personal outcome is.
And what if the truth is, well, some of the time you help,
some of the time you hurt, much of the time, it's,
it didn't matter.
Doesn't that hurt you a little bit?
Can you get up the next morning and say,
let's find out how unimportant I am?
Well, that's, that is a very difficult question.
I know if I were to be able to go to my mother,
if I put my best effort forward to finding the truth,
and even if it was a negative
or was a mixed bag, or perhaps was even not really much of anything,
at least I know what the truth is.
And both as a son and as a scientist, that would be a value to me.
I may feel unfortunate that I wasn't able to do something more than the emotional support
that I couldn't provide my mother,
but I have to look at it as
finding the truth.
That's nice.
So that's where we land.
Happy Mother's Day.
Oh, Mother's Day.
Oh, yeah.
This is Mother's Day.
I mean, kind of.
That's two weeks before.
I don't know that mothers really need a day.
They should basically own the calendar.
But since here we are, chronologically near Mother's Day,
happy Mother's Day.
You're welcome.
You've written about this on your blog, right?
I have, yeah.
Yeah, I should say.
We should say where that is.
It's called Krollwich Wonders.
So you just write K-R-U-L-W-I-C-H wonders into any search engine, and there it is.
Yeah.
This issue and other things many times a week.
So, yeah.
Check it out.
It's pretty good.
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