Hey there and welcome to Life Noggin.
When you picture allergies, you may imagine
someone sneezing, coughing, and itching on
a beautiful spring day.
Or perhaps you think of someone accidentally
eating peanuts or shellfish and going into
anaphylactic shock.
Whatever the case may be, allergies are a
serious problem for many millions of people.
But how and why do they develop?
And what’s so different between allergies
to pollen or dust and allergies to bee stings
or soy?
Well, let’s start with what these different
types of allergies have in common: your immune
system.
When an allergen makes contact with a surface
on or in your body, nearby immune cells act
quickly to destroy the allergen.
The cell then covers itself in broken pieces
of the allergen and moves to a site of some
lymph tissue.
When it gets there, it passes pieces of the
allergen onto even more immune cells, so that
they can work together to form an antibody
called immunoglobulin E.
If the body comes into contact with the allergen
again, these antibodies—which are proteins
designed to attach to foreign substances and
remove them from your body—will start a
reaction to fight against it.
First they activate a part of the immune system
called a mast cell, which then expels a lot
of chemicals, like histamines.
When histamines are released, they make your
capillaries—the smallest blood vessels in
your body—more permeable, which allows white
blood cells to enter the capillaries and fight
the allergens.
However, increased permeability doesn’t
just let white blood cells in.
It also lets fluids out, causing the watery
eyes and runny nose that you know and love.
And similarly, a congested nose is caused
by the capillaries growing larger due to the
increased permeability.
So that covers how you get allergies.
But what about why?
Why would your body turn against itself like
that?
And why are some allergies just annoying while
others are deadly?
For many years the prevailing idea was that
the immune system perceived allergens as being
similar to parasitic worms, and for that reason
it would unleash the same attack on a peanut
as it would on a tapeworm.
Parasitic worms are a serious threat, but
they are less prevalent than they were in
the lives of our ancestors, which explains
why Immunoglobulin E would choose to attack
allergens in the absence of worms.
A similar theory says that allergens may have
posed a real threat to us many years ago.
According to Dr. Kate Welch, a specialist
in immunology and allergies, it’s possible
that our ancestors were in serious danger
when they encountered something like pollen.
Therefore, our immune systems are kicked into
gear when they make contact with these allergens,
even though we evolved and pollen isn’t
a big threat anymore.
Welch claims that it’s even possible that
allergic reactions are important because they
may warn us to get out of a dangerous area,
say, directly under a wasp nest.
Finally, another theory has come to light
recently, and it claims that allergens are
actually more dangerous than we might have
known.
Researchers Ruslan Medzhitov, Noah Palm, and
Rachel Rosenstein are at the forefront of
allergy research, and they’ve embraced the
new theory.
They conducted a study in which they injected
mice with an allergen found in bee venom called
PLA2, which rips cell membranes apart.
They found that immunoglobulin E didn’t
react to the PLA2—until it started hurting
cells.
So when you cough or your nose runs, this
study suggests that it’s just because your
immune system is trying to get dangerous allergens
out of your body!
And when it comes to life-threatening allergies,
they’re simply a more overactive version
of the same response.
So don’t let your sneezing bother you too
much!
Your immune system is doing you a big favor.
Make sure to come back every Monday for a
brand new video.
As always, my name is Blocko and this has
been Life Noggin.
Don’t forget to keep on thinking!
