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This round structure is only about
ten billionths of a meter in diameter,
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but it— as well as other technologies
in the pipeline—
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could be stepping stones to a monumental
public health ambition:
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a single vaccine that protects you
against everything.
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We’ll get back to the grand vision later,
but first,
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let’s start with something that’s
being developed now:
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a vaccine that would protect you
against every strain of the flu—
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even ones that don’t exist yet.
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Here’s one flu virus particle.
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On the inside is the virus’ RNA,
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and on the outside are lots and lots
of hemagglutinin proteins.
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Hemagglutinin attaches to a receptor
on a human cell
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and fuses the viral and human membranes,
starting the infection.
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Hemagglutinin is also one of the things
your immune system recognizes
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and reacts to the most.
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To understand how this works,
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think of hemagglutinin as a bust of 19th
century French Emperor Napoleon Bonaparte.
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Croissant!
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If you show Napoleon to an immune system
and say, “remember him,”
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the immune system will mostly
focus on his head.
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And the same is true
for the real hemagglutinin.
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One way the immune system
remembers things
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is by physically interacting with them.
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Think of it as making plaster molds
of parts of the head:
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we call these molds antibodies.
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The antibodies float around your
bloodstream for a while
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and then can diminish,
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but blueprints on how to make them
are stored in specialized memory cells,
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waiting for future Napoleons to invade.
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Here’s the thing, though.
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Hemagglutinin is constantly mutating.
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Most mutations are subtle,
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produced by single letter changes
in the virus’ RNA: like this or this.
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Over time, Napoleon-slash-hemagglutinin’s
head can change enough
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that our antibodies become less good
at recognizing it.
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This is called antigenic drift.
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Influenza is constantly drifting;
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that’s one reason you have to get
a new flu shot every year.
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But sometimes bigger changes happen.
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An animal, usually a pig, can
get infected with, say,
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a human flu and a bird flu.
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And those different viruses might
infect the same cell.
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If that happens, the two different viral
genomes can recombine
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in tens or even hundreds of ways.
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The human flu virus could
pick up a bird flu hemagglutinin
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that’s never infected humans before.
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This is called antigenic shift,
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and if you get infected
by this version of influenza,
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none of the antibodies against Napoleon's
head are going to help you.
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Antigenically shifted viruses
have the potential
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to infect many people very quickly,
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causing epidemics and sometimes pandemics.
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A truly universal flu vaccine would be
able to protect
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against current flu strains
and future drifted or shifted strains.
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But how do we design a vaccine
against a strain that doesn’t exist yet?
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We look to the past.
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There are key parts of hemagglutinin
that haven’t changed much over time
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and are probably critical
to infect human cells;
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these “conserved regions” could be
promising targets for universal vaccines.
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But there's a problem that's hindered
classical vaccine production.
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Many conserved regions are in the neck,
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and it’s tough to get the immune system
to react to the neck.
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Also, because influenza-like viruses have
been around
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for hundreds of millions of years,
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there may not be a single region
that’s common across all species
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and subtypes of influenza.
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But there’s promising science
in development.
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Remember this?
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This is a protein called ferritin;
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Its normal purpose is
to store and move iron.
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But it’s also the rough size and shape
of a small virus.
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And if you attach viral proteins to it,
like this,
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you’d have something that looks,
to an immune system, like a virus—
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but would be completely harmless
and very engineerable.
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Recently, scientists engineered
a ferritin nanoparticle
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to present 8 identical copies
of the neck region of an H1 flu virus.
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They vaccinated mice
with the nanoparticle,
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then injected them with a lethal dose
of a completely different subtype,
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H5N1.
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All the vaccinated mice lived;
all the unvaccinated ones died.
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Going one step beyond that,
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there may be conserved regions
that we could take advantage of
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across different-but-related
virus species—
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like SARS-CoV-2, MERS,
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and a few coronaviruses
which cause some common colds.
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Over the past few decades,
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a different part of the immune system
has come into clearer focus.
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Instead of antibodies,
this part of the immune system
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uses a vast array of T cells that kill,
for example,
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cells that have been infected by a virus.
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Vaccines that train this part
of the immune system,
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in addition to the antibody response,
could provide broader protection.
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A universal flu vaccine would be a
monumental achievement in public health.
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A fully universal vaccine against all
infectious disease is— for the moment—
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squarely in the realm of science fiction,
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partially because we have no idea
how our immune system would react
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if we tried to train it against hundreds
of different diseases at the same time.
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Probably not well.
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But that doesn’t mean it’s impossible.
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Look at where medicine is today compared
to where it was two centuries ago.
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Who knows what it’ll look like
in another 50 or 100 years—
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maybe some future groundbreaking
technology
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will bring truly universal vaccines
within our grasp.
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