-
This is a tuberculosis ward,
-
and at the time this picture was taken
in the late 1800s,
-
one in seven of all people
-
died from tuberculosis.
-
We had no idea
what was causing this disease.
-
The hypothesis was actually
-
it was your constitution
that made you susceptible.
-
And it was a highly romanticized disease.
-
It was also called consumption,
-
and it was the disorder of poets
-
and artists and intellectuals,
-
and some people actually thought
it gave you heightened sensitivity
-
and conferred creative genius.
-
By the 1950s,
-
we instead knew
that tuberculosis was caused
-
by a highly contagious
bacterial infection,
-
which is slightly less romantic,
-
but that had the upside of us
-
being able to maybe
develop drugs to treat it.
-
So doctors had discovered
a new drug, Iproniazid,
-
that they were optimistic
might cure tuberculosis,
-
and they gave it to patients,
-
and patients were elated.
-
They were more social, more energetic.
-
One medical report actually says
-
they were dancing in the halls.
-
And unfortunately,
-
this was not necessarily
because they were getting better.
-
A lot of them were still dying.
-
Another medical report describes them
-
as being "inappropriately happy."
-
And that is how the first
antidepressant was discovered.
-
So accidental discovery
is not uncommon in science,
-
but it requires more
than just a happy accident.
-
You have to be able to recognize it
for discovery to occur.
-
As a neuroscientist,
I'm going to talk to you a little bit
-
about my firsthand experience
-
with whatever you want to call
the opposite of dumb luck,
-
let's call it smart luck.
-
But first a bit more background.
-
Thankfully, since the 1950s,
-
we've developed some other drugs
and we can actually now cure tuberculosis.
-
And at least in the United States,
though not necessarily in other countries,
-
we have closed our sanitoriums
-
and probably most of you
are not too worried about TB.
-
But a lot of what was true
in the early 1900s
-
about infectious disease,
-
we can say now
about psychiatric disorders.
-
We are in the middle
of an epidemic of mood disorders
-
like depression and post-traumatic
stress disorder, or PTSD.
-
One in four of all adults
in the United States
-
suffers from mental illness,
-
which means that if you haven't
experienced personally
-
or someone in your family hasn't,
-
it's still very likely
that someone you know has,
-
though they may not talk about it.
-
Depression has actually now surpassed
-
HIV/AIDS, malaria, diabetes, and war
-
as the leading cause
of disability worldwide,
-
and also, like tuberculosis in the 1950s,
-
we don't know what causes it.
-
Once it's developed, it's chronic,
-
lasts a lifetime,
-
and there are no known cures.
-
The second antidepressant we discovered,
-
also by accident in the 1950s,
-
from an antihistamine
that was making people manic,
-
Imipramine.
-
And in both the case of the tuberculosis
ward an the antihistamine,
-
someone had to be able to recognize
-
that a drug that was designed
to do one thing --
-
treat tuberculosis
or suppress allergies --
-
could be used to do
something very different --
-
treat depression.
-
And this sort of repurposing
is actually quite challenging.
-
When doctors first saw
this mood-enhancing effect of Iproniazid,
-
they didn't really
recognize what they saw.
-
They were so used to thinking about it
-
from the framework
of being a tuberculosis drug
-
that they actually just listed it
-
as a side effect, an adverse side effect.
-
As you can see here,
a lot of these patients in 1954
-
are experiencing severe euphoria.
-
And they were worried
that this might somehow interfere
-
with their recovering from tuberculosis.
-
So they recommended that Iproniazid
-
only be used in cases of extreme TB
-
and in patients that were
highly emotionally stable,
-
which is of course the exact opposite
of how we use it as an antidepressant.
-
They were so used to looking at it
from the perspective of this one disease,
-
they could not see the larger implications
-
for another disease.
-
And to be fair,
it's not entirely their fault.
-
Functional fixedness
is a bias that affects all of us.
-
It's a tendency to only
be able to think of an object
-
in terms of its traditional
use or function.
-
And mental set is another thing. Right?
-
That's sort of this preconceived framework
-
with which we approach problems.
-
And that actually makes repurposing
pretty hard for all of us,
-
which is, I guess, why they gave
a TV show to the guy who was,
-
like, really great at repurposing.
-
(Laughter)
-
So the effects in both the case
of Iproniazid and Imipramine,
-
they were so strong --
-
there was mania
or people dancing in the halls.
-
It's actually not that surprising
they were caught.
-
But it does make you wonder
-
what else we've missed.
-
So Iproniazid and Imipramine,
-
they're more than just
a case study in repurposing.
-
They have two other things in common
that are really important.
-
One, they have terrible side effects.
-
That includes liver toxicity,
-
weight gain of over 50 pounds,
-
suicidality.
-
And two, they both
increase levels of serotonin,
-
which is a chemical signal in the brain,
-
or a neurotransmitter.
-
And those two things together,
right, one or the two,
-
may not have been that important,
-
but the two together meant
that we had to develop safer drugs,
-
and that serotonin
-
seemed like a pretty good place to start.
-
So we developed drugs
to more specifically focus on serotonin,
-
the selective serotonin
reuptake inhibitors, so the SSRIs,
-
the most famous of which is Prozac.
-
And that was 30 years ago,
-
and since then we have mostly
just worked on optimizing those drugs.
-
And the SSRIs, they are better
than the drugs that came before them,
-
but they still have a lot of side effects,
-
including weight gain, insomnia,
-
suicidality,
-
and they take a really long time to work,
-
something like four to six weeks
in a lot of patients.
-
And that's in the patients
where they do work.
-
There are a lot of patients
where these drugs don't work.
-
And that means now, in 2016,
-
we still have no cures
-
for any mood disorders,
-
just drugs that suppress symptoms,
-
which is kind of the difference between
taking a painkiller for an infection
-
versus an antibiotic.
-
Painkiller will make you feel better,
-
but is not going to do anything
to treat that underlying disease.
-
And it was this flexibility
in our thinking
-
that let us recognize
that Iproniazid and Imipramine
-
could be repurposed in this way,
-
which led us to the serotonin hypothesis,
-
which we then, ironically, fixated on.
-
This is brain signaling, serotonin
-
from an SSRI commercial.
-
In case you're not clear,
this is a dramatization.
-
And in science, we try
and remove our bias, right,
-
by running double-blinded experiments
-
or being statistically agnostic
as to what our results will be.
-
But bias creeps in more insidiously
-
in what we choose to study
-
and how we choose to study it.
-
So we've focused on serotonin now
-
for the past 30 years,
-
often to the exclusion of other things.
-
We still have no cures,
-
and what if serotonin
isn't all there is to depression?
-
What if it's not even the key part of it?
-
That means no matter how much time
-
or money or effort we put into it,
-
it will never lead to a cure.
-
In the past few years,
doctors have discovered
-
probably what is the first truly new
antidepressant since the SSRIs,
-
Calypsol,
-
and this drug works very quickly,
within a few hours or a day,
-
and it doesn't work on serotonin.
-
It works on glutamate,
which is another neurotransmitter.
-
And it's also repurposed.
-
It was traditionally used
as anesthesia in surgery.
-
But unlike those other drugs,
-
which were recognized pretty quickly,
-
it took us 20 years
-
to realize that Calypsol
was an antidepressant,
-
despite the fact that it's actually
a better antidepressant,
-
probably, than those other drugs.
-
It's actually probably because of the fact
-
that it's a better antidepressant
-
that it was harder for us to recognize.
-
There was no mania to signal its effects.
-
So in 2013, up at Columbia University,
-
I was working with my colleague,
-
Dr. Christine Ann Denny,
-
and we were studying Calypsol
as an antidepressant in mice.
-
And Calypsol has, like,
a really short half-life,
-
which means it's out of your body
within a few hours.
-
And we were just piloting.
-
So we would give an injection to mice,
-
and then we'd wait a week,
-
and then we'd run
another experiment to save money.
-
And one of the experiments I was running,
-
we would stress the mice,
-
and we used that as a model of depression.
-
And at first it kind of just looked
like it didn't really work at all.
-
So we could have stopped there.
-
But I have run this model
of depression for years,
-
and the data just looked kind of weird.
-
It didn't really look right to me.
-
So I went back,
-
and we reanalyzed it
-
based on whether or not they had gotten
that one injection of Calypsol
-
a week beforehand.
-
And it looked kind of like this.
-
So if you look at the far left,
-
if you put a mouse in a new space,
-
this is the box, it's very exciting,
-
a mouse will walk around and explore,
-
and you can see that pink line
is actually the measure of them walking.
-
And we also give it
another mouse in a pencil cup
-
that it can decide to interact with.
-
This is also a dramatization,
in case that's not clear.
-
And a normal mouse will explore.
-
It will be social.
-
Check out what's going on.
-
If you stress a mouse
in this depression model,
-
which is the middle box,
-
they aren't social, they don't explore.
-
They mostly just kind of hide
in that back corner behind a cup.
-
Yet the mice that had gotten
that one injection of Calypsol
-
here on your right,
-
they were exploring, they were social.
-
They looked like they
had never been stressed at all,
-
which is impossible.
-
So we could have just stopped there,
-
but Christine had also used
Calypsol before as anesthesia,
-
and a few years ago she had seen
-
that it seemed to have
some weird effects on cells
-
and some other behavior
-
that also seemed to last
long after the drug,
-
maybe a few weeks.
-
So we were like, OK,
-
maybe this is not completely impossible,
-
but we were really skeptical.
-
So we did what you do in science
when you're not sure,
-
and we ran it again.
-
And I remember being in the animal room,
-
moving mice from box to box
-
to test them,
-
and Christine was actually sitting
on the floor with the computer in her lap
-
so the mice couldn't see her,
-
and she was analyzing
the data in real time.
-
And I remember us yelling,
-
which you're not supposed to do
in an animal room where you're testing
-
because it had worked.
-
It seemed like these mice
were protected against stress,
-
or they were inappropriately happy,
however you want to call it.
-
And we were really excited.
-
And then we were really skeptical,
because it was too good to be true.
-
So we ran it again.
-
And then we ran it again in a PTSD model,
-
and we ran it again
in a physiological model,
-
where all we did was give stress hormones.
-
And we had our undergrads run it.
-
And then we had our collaborators
halfway across the world in France run it.
-
And every time someone ran it,
they confirmed the same thing.
-
It seemed like
this one injection of Calypsol
-
was somehow protecting
against stress for weeks.
-
And we only published this a year ago,
-
but since then other labs
have independently confirmed this effect.
-
So we don't know what causes depression,
-
but we do know that stress
is the initial trigger
-
in 80 percent of cases,
-
and depression and PTSD
are different diseases,
-
but this is something
they share in common.
-
Right? It is traumatic stress
-
like active combat or natural disasters
-
or community violence or sexual assault
-
that causes post-traumatic
stress disorder,
-
and not everyone that is exposed to stress
-
develops a mood disorder.
-
And this ability to experience
stress and be resilient
-
and bounce back and not develop
depression or PTSD
-
is known as stress resilience,
-
and it varies between people.
-
And we have always thought of it
as just sort of this passive property.
-
It's the absence of susceptibility factors
-
and risk factors for these disorders.
-
But what if it were active?
-
Maybe we could enhance it,
-
sort of akin to putting on armor.
-
We had accidentally discovered
-
the first resilience-enhancing drug.
-
And like I said, we only gave
a tiny amount of the drug,
-
and it lasted for weeks,
-
and that's not like anything
you see with antidepressants.
-
But it is actually kind of similar
to what you see in immune vaccines.
-
So in immune vaccines,
you'll get your shots,
-
and then weeks, months, years later
-
when you're actually exposed to bacteria,
-
it's not the vaccine in your body
that protects you.
-
It's your own immune system
-
that's developed resistance and resilience
to this bacteria that fights it off,
-
and you actually never get the infection,
-
which is very different
from, say, our treatments. Right?
-
In that case, you get the infection,
you're exposed to the bacteria,
-
you're sick, and then you take,
say, an antibiotic which cures it,
-
and those drugs are actually working
to kill the bacteria.
-
Or similar to as I said before,
with this palliative,
-
you'll take something
that will suppress the symptoms,
-
but it won't treat
the underlying infection,
-
and you'll only feel better
during the time in which you're taking it,
-
which is why you have to keep taking it.
-
And in depression and PTSD --
-
here we have your stress exposure --
-
we only have palliative care.
-
Antidepressants only suppress symptoms,
-
and that is why you basically
have to keep taking them
-
for the life of the disease,
-
which is often
the length of your own life.
-
So we're calling our resilience
enhancing drugs "paravaccines,"
-
which means vaccine-like,
-
because it seems
like they might have the potential
-
to protect against stress
-
and prevent mice from developing
-
depression and post-traumatic
stress disorder.
-
Also, not all antidepressants
are also paravaccines.
-
We tried Prozac as well,
-
and that had no effect.
-
So if this were to translate into humans,
-
we might be able to protect people
-
who are predictably at risk
-
against stress-induced disorders
like depression and PTSD.
-
So that's first responders
and firefighters,
-
refugees, prisoners and prison guards,
-
soldiers, you name it.
-
And to give you a sense
-
of the scale of these diseases,
-
in 2010, the global burden of disease
-
was estimated at 2.5 trillion dollars,
-
and since they are chronic,
-
that cost is compounding
and is therefore expected to rise
-
up to six trillion dollars
in just the next 15 years.
-
As I mentioned before,
repurposing can be challenging
-
because of our prior biases.
-
Calypsol has another name,
-
ketamine,
-
which also goes by another name,
-
Special K,
-
which is a club drug and drug of abuse.
-
It's still used across the world
as an anesthetic.
-
It's used in children.
We use it on the battlefield.
-
It's actually the drug of choice
in a lot of developing nations
-
because it doesn't affect breathing.
-
It is on the World Health Organization
list of most essential medicines.
-
If we had discovered ketamine
as a paravaccine first,
-
it'd be pretty easy for us to develop it,
-
but as is, we have to compete
with our functional fixedness
-
and mental set that kind of interfere.
-
Fortunately, it's not
the only compound we have discovered
-
that has these prophylactic,
paravaccine qualities,
-
but all of the other drugs
we've discovered,
-
or compounds if you will,
they're totally new,
-
they have to go through
the entire FDA approval process,
-
if they make it,
-
before they can ever be used in humans.
-
And that will be years.
-
So if we wanted something sooner,
-
ketamine is already FDA-approved.
-
It's generic, it's available.
-
We could develop it for a fraction
of the price and a fraction of the time.
-
But actually, beyond functional fixedness
-
and mental set,
-
there's a real other challenge
to repurposing drugs,
-
which is policy.
-
There are no incentives in place
-
once a drug is generic and off patent
and no longer exclusive
-
to encourage pharma companies
to develop them,
-
because they don't make money.
-
And that's not true for just ketamine.
That is true for all drugs.
-
Regardless, the idea itself
is completely novel in psychiatry,
-
to use drugs to prevent mental illness
-
as opposed to just treat it.
-
It is possible
-
that 20, 50, 100 years from now,
-
we will look back now
at depression and PTSD
-
the way we look back
at tuberculosis sanitoriums
-
as a thing of the past.
-
This could be the beginning of the end
of the mental health epidemic.
-
But as a great scientist once said,
-
only a fool is sure of anything.
-
A wise man keeps on guessing.
-
Thank you guys.
-
(Applause)
closed TED
