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What the sugar coating on your cells is trying to tell you

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    This is a talk about sugar and cancer.
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    I became interested in sugar
    when I was in college.
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    Not this kind of sugar.
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    It was the sugar that our biology
    professors taught us about
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    in the context of the coating
    of your cells.
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    Maybe you didn't know that your cells
    are coated with sugar.
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    And I didn't know that, either,
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    until I took these courses in college,
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    but back then --
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    and this was in, let's just
    call it the 1980s --
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    people didn't know much about why
    our cells are coated with sugar.
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    And when I dug through my notes,
    what I noticed I had written down
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    is that the sugar coating on our cells
    is like the sugar coating
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    on a peanut M and M.
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    And people thought
    the sugar coating on our cells
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    was like a protective coating
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    that somehow made our cells
    stronger or tougher.
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    But we now know, many decades later,
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    that it's much more complicated than that,
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    and that the sugars on our cells
    are actually very complex.
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    And if you could shrink yourself down
    to a little miniature airplane
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    and fly right along
    the surface of your cells,
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    it might look something like this --
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    with geographical features.
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    And now, the complex sugars
    are these trees and bushes --
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    weeping willows that are
    swaying in the wind
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    and moving with the waves.
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    And when I started thinking about
    all these complex sugars
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    that are like this foliage on our cells,
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    it became one of the most interesting
    problems that I encountered
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    as a biologist and also as a chemist.
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    And so now we tend
    to think about the sugars
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    that are populating
    the surface of our cells
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    as a language.
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    They have a lot of information
    stored in their complex structures.
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    But what are they trying to tell us?
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    I can tell you that we do know
    some information
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    that comes from these sugars,
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    and it's turned out already
    to be incredibly important
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    in the world of medicine.
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    For example, one thing
    your sugars are telling us
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    is your blood type.
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    So your blood cells, your red blood
    cells, are coated with sugars,
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    and the chemical structures of those
    sugars determine your blood type.
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    So for example, I know
    that I am blood type O.
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    How many people are also blood type O?
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    Put your hands up.
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    It's a pretty common one,
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    so when so few hands go up,
    either you're not paying attention
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    or you don't know your blood type,
    and both of those are bad.
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    (Laughter)
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    But for those of you who share
    the blood type O with me,
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    what this means is that we have
    this chemical structure
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    on the surface of our blood cells:
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    three simple sugars linked together
    to make a more complex sugar.
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    And that, by definition, is blood type O.
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    Now, how many people are blood type A?
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    Right here.
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    That means you have
    an enzyme in your cells
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    that adds one more building block,
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    that red sugar,
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    to build a more complex structure.
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    And how many people are blood type B?
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    Quite a few.
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    You have a slightly different enzyme
    than the A people,
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    so you build a slightly
    different structure,
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    and those of you that are AB
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    have the enzyme from your mother,
    the other enzyme from your father,
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    and now you make both of these structures
    in roughly equal proportions.
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    And when this was figured out,
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    which is now back in the previous century,
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    this enabled one of the most important
    medical procedures in the world,
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    which, of course,
    is the blood transfusion.
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    And by knowing what your blood type is,
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    we can make sure,
    if you ever need a transfusion,
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    that your donor has the same blood type,
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    so that your body
    doesn't see foreign sugars,
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    which it wouldn't like
    and would certainly reject.
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    What else are the sugars on the surface
    of your cells trying to tell us?
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    Well, those sugars might be telling us
    that you have cancer.
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    So a few decades ago,
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    correlations began to emerge
    from the analysis of tumor tissue.
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    And the typical scenario is a patient
    would have a tumor detected,
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    and the tissue would be removed
    in a biopsy procedure
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    and then sent down to a pathology lab
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    where that tissue would be analyzed
    to look for chemical changes
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    that might inform the oncologist
    about the best course of treatment.
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    And what was discovered
    from studies like that
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    is that the sugars have changed
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    when the cell transforms
    from being healthy to being sick.
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    And those correlations have come up
    again and again and again.
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    But a big question in the field
    has been: Why?
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    Why do cancers have different sugars?
    What's the importance of that?
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    Why does it happen, and what
    can we do about it if it does turn out
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    to be related to the disease process?
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    So, one of the changes that we study
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    is an increase in the density
    of a particular sugar
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    that's called sialic acid.
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    And I think this is going to be
    one of the most important sugars
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    of our times,
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    so I would encourage everybody
    to get familiar with this word.
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    Sialic acid is not
    the kind of sugar that we eat.
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    Those are different sugars.
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    This is a kind of sugar
    that is actually found
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    at certain levels on all
    of the cells in your body.
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    It's actually quite common on your cells.
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    But for some reason,
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    cancer cells, at least in a successful,
    progressive disease,
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    tend to have more sialic acid
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    than a normal, healthy cell would have.
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    And why?
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    What does that mean?
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    Well, what we've learned
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    is that it has to do
    with your immune system.
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    So let me tell you a little bit
    about the importance of your immune system
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    in cancer.
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    And this is something that's, I think,
    in the news a lot these days.
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    You know, people are starting
    to become familiar with the term
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    "cancer immune therapy."
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    And some of you might even know people
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    who are benefiting from these very new
    ways of treating cancer.
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    What we now know
    is that your immune cells,
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    which are the white blood cells
    coursing through your bloodstream,
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    protect you on a daily basis
    from things gone bad --
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    including cancer.
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    And so in this picture,
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    those little green balls
    are your immune cells,
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    and that big pink cell is a cancer cell.
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    And these immune cells go around
    and taste all the cells in your body.
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    That's their job.
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    And most of the time, the cells taste OK.
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    But once in a while,
    a cell might taste bad.
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    Hopefully, that's the cancer cell,
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    and when those immune cells
    get the bad taste,
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    they launch an all-out strike
    and kill those cells.
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    So we know that.
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    We also know that if you can
    potentiate that tasting,
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    if you can encourage those immune cells
    to actually take a big old bite
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    out of a cancer cell,
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    you get a better job protecting
    yourself from cancer every day
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    and maybe even curing a cancer.
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    And there are now a couple of drugs
    out there in the market
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    that are used to treat cancer patients
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    that act exactly by this process.
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    They activate the immune system
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    so that the immune system
    can be more vigorous
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    in protecting us from cancer.
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    In fact, one of those drugs
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    may well have spared
    President Jimmy Carter's life.
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    Do you remember, President Carter
    had malignant melanoma
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    that had metastasized to his brain,
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    and that diagnosis is one
    that is usually accompanied by numbers
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    like "months to live."
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    But he was treated with one
    of these new immune-stimulating drugs,
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    and now his melanoma
    appears to be in remission,
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    which is remarkable,
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    considering the situation
    only a few years ago.
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    In fact, it's so remarkable
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    that provocative statements like this one:
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    "Cancer is having a penicillin moment,"
    people are saying,
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    with these new immune therapy drugs.
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    I mean, that's an incredibly bold thing
    to say about a disease
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    which we've been fighting for a long time
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    and mostly losing the battle with.
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    So this is very exciting.
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    Now what does this have to do with sugars?
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    Well, I'll tell you what we've learned.
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    When an immune cell snuggles
    up against a cancer cell to take a taste,
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    it's looking for signs of disease,
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    and if it finds those signs,
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    the cell gets activated and it launches
    a missile strike and kills the cell.
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    But if that cancer cell has a dense forest
    of that sugar, sialic acid,
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    well, it starts to taste pretty good.
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    And there's a protein on immune cells
    that grabs the sialic acid,
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    and if that protein
    gets held at that synapse
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    between the immune cell
    and the cancer cell,
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    it puts that immune cell to sleep.
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    The sialic acids are telling
    the immune cell,
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    "Hey, this cell's all right.
    Nothing to see here, move along.
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    Look somewhere else."
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    So in other words,
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    as long as our cells are wearing
    a thick coat of sialic acid,
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    they look fabulous, right?
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    It's amazing.
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    And what if you could strip off that coat
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    and take that sugar away?
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    Well, your immune system
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    might be able to see that cancer cell
    for what it really is:
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    something that needs to be destroyed.
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    And so this is what we're doing in my lab.
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    We're developing new medicines
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    that are basically
    cell-surface lawnmowers --
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    molecules that go down
    to the surface of these cancer cells
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    and just cut off those sialic acids,
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    so that the immune system
    can reach its full potential
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    in eliminating those cancer
    cells from our body.
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    So in closing,
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    let me just remind you again:
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    your cells are coated with sugars.
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    The sugars are telling cells
    around that cell
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    whether the cell is good or bad.
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    And that's important,
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    because our immune system needs
    to leave the good cells alone.
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    Otherwise, we'd have autoimmune diseases.
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    But once in a while,
    cancers get the ability
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    to express these new sugars.
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    And now that we understand
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    how those sugars mesmerize
    the immune system,
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    we can come up with new medicines
    to wake up those immune cells,
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    tell them, "Ignore
    the sugars, eat the cell
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    and have a delicious snack, on cancer."
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    Thank you.
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    (Applause)
Title:
What the sugar coating on your cells is trying to tell you
Speaker:
Carolyn Bertozzi
Description:

Your cells are coated with sugars that store information and speak a secret language. What are they trying to tell us? Your blood type, for one -- and, potentially, that you have cancer. Chemical biologist Carolyn Bertozzi researches how sugars on cancerous cells interact with (and sometimes trick) your immune system. Learn more about how your body detects cancer and how the latest cancer-fighting medicines could help your immune system beat the disease.

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Video Language:
English
Team:
closed TED
Project:
TEDTalks
Duration:
11:25

English subtitles

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