What a parent should know about eczema and a baby’s immune system
Every parent wants to protect their baby — but what if the window to prevent lifelong allergies is smaller than anyone realized? Scientists have discovered that a newborn's immune system doesn't just work differently from an adult's; it's actually wired to overreact in ways that can set the stage for eczema and allergies before you even know it's happening. The culprit? A hormone, missing in babies, that keeps the immune system in check.
In this episode, Dr. Shruti Naik reveals what's really going on beneath your baby's skin, and what it could mean for the future of allergy prevention. If you like our podcast, please consider supporting it with a tax-deductible donation.
Transcript
Hello, and welcome to the podcast.
Lynita:We often talk about a time in early infancy where the allergic path starts,
Lynita:because babies aren't born allergic.
Lynita:We know that when common allergens enter the skin, they can trigger skin
Lynita:inflammation that could lead to stronger allergic reactions later in life.
Lynita:However, until now, we have not understood why this time is so important.
Lynita:Now we are learning that in early life, a baby's immune system reacts
Lynita:differently For parents, this means that protecting your baby's skin
Lynita:right from the start could make a real difference to the rest of their lives.
Lynita:Joining us to explain the details is an international leader in immunology and
Lynita:tissue stem cell biology, associate professor in immunology and dermatology,
Lynita:and the director of the tissue repair program at Icahn School of Medicine,
Lynita:Mount Sinai, Dr. Shruti Naik.
Lynita:Welcome to the podcast.
Lynita:Dr. Naik: Thank you for having me.
Lynita:It's a pleasure to be here
Lynita:Dr. Naik, Your research is really opening our eyes to how this early life
Lynita:window of allergic opportunity works, and it's really a big breakthrough.
Lynita:But it's also really complex.
Lynita:So before we talk about your work, can you please help us
Lynita:understand the immune system?
Lynita:Dr. Naik: Sure.
Lynita:Your immune system is essentially a liquid organ.
Lynita:It lives all over your body.
Lynita:Every cell in your body has touched an immune cell, right?
Lynita:is surveilling your body at all times, and one of the big jobs it does is it
Lynita:fights off the bad guys, microbes, pathogens, the infections, the viruses.
Lynita:And so the immune system has developed different strategies to
Lynita:eliminate different types of microbes.
Lynita:and how our body copes with damage.
Lynita:Broadly, there's - three types of immune responses.
Lynita:There's Type 1, which is dealing with viruses or microbes
Lynita:that live inside of cells.
Lynita:And it kills the infected cell.
Lynita:There's Type 2, which is really driven by communication molecules that immune cells
Lynita:use to talk to other cells, these are , called IL-4, interleukin 4, , and IL-13.
Lynita:And the reason this arm of immunity evolved actually
Lynita:was to cope with parasites.
Lynita:Because what this type of immunity allowed the body to do is, for instance,
Lynita:if you have a parasite in your gut, it would promote gut contraction
Lynita:to expel these parasites out.
Lynita:And then there's type 3 immunity, and this makes factors called IL-17.
Lynita:And it helps kill the microbes that live outside of cells.
Lynita:And it also helps sometimes with wound healing.
Lynita:So those are the three broad of how the immune system responds
Lynita:deal with infectious pathogens.
Lynita:Okay.
Lynita:So it's the type two immune system that's responsible for allergic reactions.
Lynita:It's the one that's trying to expel things from our bodies, and that's
Lynita:where the IL-4 and 13 come into play.
Lynita:IL being short for interleukin.
Lynita:And just to explain the terminology a little further, these interleukins
Lynita:are a type of cytokine that signal immune cells when it's time to act.
Lynita:There are many types of cytokines, , and we just number
Lynita:them so we can tell them apart.
Lynita:And it's these interleukins, specifically four and 13 in our
Lynita:type two immune system, that are overreacting in an allergic person.
Lynita:Is that correct?
Lynita:Dr. Naik: That is correct.
Lynita:So, Essentially, to your body, it's almost like a parasitic danger that's
Lynita:there or a wound, and Its wires are confused, And sometimes you also see
Lynita:Type 17 responses in allergies, but with Dupixent, the proof is in the pudding.
Lynita:So Dupixent is a therapeutic that directly suppresses Type 2 immunity by blocking
Lynita:the ability of, IL-4, and IL-13 to work
Lynita:And It's proven to be really successful, and so that really tells us that Type 2
Lynita:is at the heart of this i- it's a really remarkable therapy because we have learnt
Lynita:how to fuddle with our immune system and say, "No, you're being bad now. Let's
Lynita:stop. Now you're harming me instead of helping me fight off bad guys."
Lynita:Sure.
Lynita:Yeah, it is quite remarkable.
Lynita:Let's talk a little bit about babies now because babies' immune systems aren't
Lynita:the same as children's or adults even.
Lynita:can you explain to us how is a baby's immune system different to, . Toddler?
Lynita:Yeah, infant, yeah.
Lynita:So this is an area that's actually not very well understood, and
Lynita:for a very good reason, it's very hard to study babies, right?
Lynita:One of the things we have to do as scientists if we wanna understand the
Lynita:immune system is to study it in the blood or in tissues, but I would never, ever
Lynita:ask that of a mother, it's unethical.
Lynita:So, There's very practical reasons why we don't know so much.
Lynita:And This is where animal models are very helpful because then we
Lynita:can actually understand what is happening in the system , and see if
Lynita:some of those rules apply to humans.
Lynita:this is exactly how we discovered IL-4.
Lynita:This is exactly how we discovered IL-13.
Lynita:This is exactly how we discovered type 1-2-3 immunity.
Lynita:works.
Lynita:So that's what we did.
Lynita:We looked at mice At very young ages, And what we realized is that, the
Lynita:baby's immune system is not absent, it's not weaker, it's not a dampened
Lynita:down version of the adult immune system.
Lynita:The rules by which it's seeing the world are just different.
Lynita:and the reason it's different is because if you think about it, you've been in
Lynita:a womb, . You've been growing, in that warm, luscious, sterile environment,
Lynita:and then you come out into the world, and it's covered with stuff, And
Lynita:this new baby is just adjusting to a world with food and microbes.
Lynita:And dust and pollen and just everything in the air.
Lynita:And it is this moment of transition to the living world.
Lynita:And the immune system, is learning and is growing as it adjusts.
Lynita:What we found in our studies, actually many of these types of
Lynita:immunity, , are still active and can still function in babies.
Lynita:So it's not That they're not working as we had thought for a very long time.
Lynita:And this is where the eczema risk, the allergy risk comes in, because
Lynita:they're seeing these allergens through a disrupted skin barrier.
Lynita:And the way they react is very different.
Lynita:So in some cases what we found is that in early life, you are almost
Lynita:reacting more than you would as an adult because you're not calibrated.
Lynita:Your system is still calibrating.
Lynita:Sure
Lynita:Dr. Naik: So essentially we are one of f- first studies to
Lynita:start looking at it in this way.
Lynita:And there's a lot more science to be done to understand what are
Lynita:those rules that are different in babies and in young infants
Lynita:It makes sense when you explain it like that, , we've come
Lynita:from this sterile environment.
Lynita:Our bodies have to learn how much to react to something, and the
Lynita:biggest thing being exposed to the environment is our skin as a newborn.
Lynita:And so this is where it all begins, determining how much we will react
Lynita:to the things that we are exposed to.
Lynita:And I guess it explains why we're not born with allergies,
Lynita:Dr. Naik: This is a really good point because I think, one of the things
Lynita:that scientists are realizing is the way the immune system reacts, for
Lynita:instance, in your skin versus through your intestine, , may be very different.
Lynita:And so we really need to know if your immune system is seeing something coming
Lynita:through the skin versus the food that you're eating, how is that different?
Lynita:And how can we understand the different rules to say, "Let's shut off these
Lynita:bad reactions that are happening in the skin early so we can completely cut off
Lynita:the later in life allergies that come
Lynita:", Lynita: Wow your research is really quite groundbreaking in how it's explaining
Lynita:what's going on in that early window.
Lynita:do you have an idea of when this window roughly is?
Lynita:Dr. Naik: We really don't know, because the developmental stages in humans are a
Lynita:little bit different than in mice, right?
Lynita:And so those transition periods, that needs to be studied.
Lynita:I just wanna emphasize that we need moms to advocate for this kind of science
Lynita:Absolutely.
Lynita:. At Global Parents for Eczema Research, we are doing our very best
Lynita:Dr. Naik: Thank you, and i'll share with you actually the lead author in my
Lynita:lab who really spearheaded the study.
Lynita:She started it because her son had very severe eczema.
Lynita:And as a scientist, she went to the scientific literature and she said,
Lynita:"Wait a minute. We actually don't know anything about why babies in
Lynita:early life get eczema." Like, Nothing.
Lynita:So it's a mother's motivation that drew all this science out
Lynita:Wow.
Lynita:Excellent.
Lynita:Global Parents for Eczema Research actually is now funding research and
Lynita:we definitely invite research proposals from scientists that are coming to eczema
Lynita:research from a parent perspective.
Lynita:So visit www.gper.org/sh- slash for more information.
Lynita:so
Lynita:let's talk about what you found that was unique about a baby's
Lynita:immune system and why they reacted
Lynita:? Dr. Naik: Yeah, so this was completely unexpected.
Lynita:when we exposed , little newborn pups to allergens their skin,
Lynita:they reacted really badly.
Lynita:It was like an eczema rash.
Lynita:But when we gave adult mice, the same amount of allergen,
Lynita:, they didn't react at all.
Lynita:They did react in that they had an immune response, but it wasn't a huge
Lynita:inflammation, so there's something inherently different in the way
Lynita:these two, skin immune systems work.
Lynita:And when we started dissecting the immune cells and how they worked in pup
Lynita:skin, we found something remarkable.
Lynita:one of the key sensor immune cells is called a dendritic cell.
Lynita:This is a cell that hangs out all over your body, and its only job is to survey
Lynita:your tissues and say, "Is something right? Is something wrong?" So when an
Lynita:allergen comes in in adult skin, that dendritic cell is gonna pick it up, and
Lynita:it's gonna travel through your lymph, and it's gonna go to your lymph nodes.
Lynita:And your lymph nodes are where all of your T cells and other immune cells hang out.
Lynita:It's like a town square of immune cells, and it's gonna
Lynita:turn on the immune response.
Lynita:And that's the normal way these cells work.
Lynita:But in pups, these immune cells, Of course, some of them went to the town
Lynita:centers and did their business and turned on the immune response, but they also
Lynita:started activating locally in the skin,
Lynita:Putting out tons of inflammatory factors right where they were
Lynita:Right
Lynita:Dr. Naik: and quickly turning on inflammation in their vicinity.
Lynita:And so that led to a rash, this flare.
Lynita:And this was very unique to the pup skin.
Lynita:It did not happen in the adult mice.
Lynita:So it really said that the way the cell reacts depends on the age of the animal.
Lynita:And in early life, it's hardwired to , hyper react in a certain
Lynita:way
Lynita:so in our body we have these things called dendritic cells, which
Lynita:are out there detecting anything that might be bad or is neutral.
Lynita:Dr. Naik: Yeah
Lynita:And in adults, dendritic cells, take that information and they ship it
Lynita:back to the town center, which is where the immune system has its conference and
Lynita:says, "This is bad or good, and we need to do something about it or not." But
Lynita:in babies, the dendritic cells do send it back, but they also go, "We need to do
Lynita:something right now, right where we are before we even go and consult And that's
Lynita:the difference between adults and babies.
Lynita:Their reaction is instantaneous and localized,
Lynita:Dr. Naik: that's exactly right.
Lynita:It's really, this rapid response that's happening right there on the moment and
Lynita:Yeah.
Lynita:Dr. Naik: triggers that flare, And so one of the things we wanna understand
Lynita:is, does this behavior now stick around, and is this what's allowing for flaring?
Lynita:We don't know.
Lynita:But if we could understand how these cells are functioning,
Lynita:we could interrupt them, right?
Lynita:We could interrupt the disease when it first starts.
Lynita:And I think that's the opportunity, spending time to
Lynita:learn how to carefully do that.
Lynita:Because if you don't spend the time on the science, then you're
Lynita:not gonna develop a therapeutic that will be safe and effective.
Lynita:Absolutely.
Lynita:Dr. Naik: So second Big surprise your internal hormone system,
Lynita:one of them is called the HPA the hypothalamic pituitary axis.
Lynita:You don't have to remember the name.
Lynita:There won't be a quiz at the end, I promise.
Lynita:But basically this is what controls your healthy levels of cortisol.
Lynita:We always say cortisol is like a dirty little word, it's a stress hormone.
Lynita:Turns out it's just a normal part of your physiology, and only
Lynita:when, things go completely awry does this hormone go up and down.
Lynita:But there's a normal balance
Lynita:cortisol is sometimes referred to as a steroid.
Lynita:Dr. Naik: It is a steroid hormone.
Lynita:That's right.
Lynita:Cortisol is like a trigger word for people 'cause they just
Lynita:associate it with stress, right?
Lynita:But we all have cortisol in our bodies at all times.
Lynita:Even when you're at a yoga retreat, you have cortisol.
Lynita:It's just a normal basal part of your life.
Lynita:What we realized in, the baby mice was that They don't have
Lynita:the basal level of cortisol.
Lynita:They are just developing their HPA or the thing that makes cortisol.
Lynita:And so in fact, when we compared the pups and the adults, The adults
Lynita:had, normal baseline levels, and the pups had zero, zippy, no cortisol.
Lynita:So just their basal levels are still forming.
Lynita:And we also know this in babies the HPA or the - cortisol producing
Lynita:machinery is not set, it's developing.
Lynita:And so this absence of normal basal levels of cortisol actually
Lynita:was the reason why these dendritic cells are behaving this way.
Lynita:And as the normal levels of cortisol were restored, the hyperactivation,
Lynita:that rapid response of the dendritic cells in the skin went away.
Lynita:Right
Lynita:Dr. Naik: And so it's just the system is hardwired, we think.
Lynita:To have these reactive dendritic cells in babies because they have to come into
Lynita:this new world and cope with threats.
Lynita:And, what if an infection shows up?
Lynita:You need to react quickly, right?
Lynita:Yeah
Lynita:Dr. Naik: This probably evolved before we had industrialization
Lynita:in the Western world.
Lynita:And so now these dendritic cells they're looking at allergens as,
Lynita:threats, um, that we should attack And , they're misdirecting the response
Lynita:Okay.
Lynita:So what I'm hearing you say is that we have this dendritic reaction, and when
Lynita:we're babies, we don't have a, like a boss saying, "Hey, this is the way you
Lynita:should react." So cortisol is telling the body not to do that immediate reaction.
Lynita:So until we have that cortisol our body says, "We don't know
Lynita:if we should react or not.
Lynita:We just have to react because this might be deadly.
Lynita:We don't know yet."
Lynita:Dr. Naik: Exactly.
Lynita:. It's just like It's all hands on deck.
Lynita:We need to protect the body
Lynita:sure.
Lynita:Dr. Naik: So , here's the key challenge though, because, if I was hearing
Lynita:this, I would say, "Okay I'm gonna slather my baby with cortisol as a
Lynita:precautionary measure." And that's what I would be really afraid to advocate
Lynita:for because what we're talking about here is, one, a mouse study, but two,
Lynita:really low normal levels in your body.
Lynita:And the way we're thinking about this is not promoting protection through
Lynita:any kind of cortisol or HPA modulation, but targeting those dendritic cells and
Lynita:saying, "Let's shut these guys down."
Lynita:And so that's, I think, where the science and the therapeutic opportunity is
Lynita:So we Don't want to be messing with this developing cortisol system.
Lynita:We really want to come at it from a different angle and say, "Let's calm
Lynita:down the overreaction," rather than… No, I'm not saying that correctly.
Lynita:How do I explain this?
Lynita:Dr. Naik: Let's shut off the dendritic cells, Because the dendritic
Lynita:cell reaction is in the skin.
Lynita:We don't wanna change the whole body.
Lynita:We wanna be really targeted to the skin and limit the disease in the skin.
Lynita:So if we can really find ways of understanding what the Achilles
Lynita:heel of these dendritic cells is and then shutting them off, I
Lynita:think that could be transformative
Lynita:I have to ask this question as a parent putting corticosteroids on
Lynita:the skin going to mess with the natural development of the immune system?
Lynita:, Dr. Naik: The true answer is I don't think we know how it
Lynita:affects the broader immune system.
Lynita:So
Lynita:this is where I think understanding what's happening in the skin, understanding
Lynita:what's happening with the immune system is gonna require for us to look, because we
Lynita:don't know in human babies, like, how does that affect the HPA, the internal ability,
Lynita:the internal regulation of the cortisol?
Lynita:So there's a that we must learn.
Lynita:And I think especially when you're playing around with steroid
Lynita:hormones, we have to be very careful.
Lynita:Yeah.
Lynita:That's something that parents would really want to know.
Lynita:Dr. Naik: Now there's other treatment options.
Lynita:especially toddlers two and up, there are non-steroidal intervention options.
Lynita:So, go talk to your pediatrician and also push for the science and the
Lynita:therapeutic development in this area
Lynita:Absolutely.
Lynita:Um, on the flip side of that, is there something that parents can
Lynita:do to help support the development of child's natural immune system?
Lynita:Dr. Naik: One thing that we do that is really critical to educate the child's
Lynita:immune system is we vaccinate kids, right?
Lynita:And I think vaccines work.
Lynita:I'm an immunologist, I should put that bias out there.
Lynita:I happen to just believe in vaccine science.
Lynita:It's the field I work in.
Lynita:And I think they particularly work when it comes to preventable
Lynita:diseases like measles, and mumps, and rubella, and diphtheria.
Lynita:You know, If we go back 200 years, one in five kids would be dead of these diseases.
Lynita:And then we developed vaccines, and suddenly that disappeared.
Lynita:So to me, that's the most important thing that anyone can do
Lynita:Sure.
Lynita:And I think with all these diseases disappearing, we also
Lynita:forget how devastating they were.
Lynita:Dr. Naik: Yeah, absolutely
Lynita:if you could give one piece of advice to a new parent that's
Lynita:worried about eczema or allergies developing, what would your advice be?
Lynita:Dr. Naik: I always say when in doubt consult your pediatrician.
Lynita:And I would say if if your pediatrician is your first
Lynita:stop, don't let it be your last.
Lynita:If there's a persistent rash, ask for a referral to a
Lynita:pediatric dermatologist
Lynita:Yeah, you are your child's greatest advocate.
Lynita:Dr. Naik: That's right.
Lynita:my last question that I wanted to ask you is, What
Lynita:do we still need to learn?.
Lynita:Dr. Naik: I want people to understand that the reason we don't know a
Lynita:lot of these answers is because it's not very easy to study.
Lynita:and they're very challenging questions that we're only now even beginning
Lynita:to find ways to study it, right?
Lynita:So I think continuing the kinds of studies that we've done that go into how
Lynita:the immune system is working differently and getting into the details of why.
Lynita:Because then we can develop really powerful therapeutics.
Lynita:But if we never understand those details, we're just gonna be spinning our wheels
Lynita:Thank you so much, Dr. Naik.
Lynita:It's been wonderful to talk to you and thank you so much for explaining
Lynita:to us what happens in a baby's immune system I'm very inspired by the
Lynita:research you're doing and excited by what it could lead to in the future
Lynita:Dr. Naik: absolutely.
Lynita:Thank you for having me and for all of your advocacy.
