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The immortal cells of Henrietta Lacks - Robin Bulleri

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    Imagine something small enough to float
    on a particle of dust
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    that holds the keys to understanding
    cancer, virology, and genetics.
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    Luckily for us,
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    such a thing exists in the form
    of trillions upon trillions
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    of human lab-grown cells
    called HeLa.
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    Let's take a step back for a second.
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    Scientists grow human cells in the lab
    to study how they function,
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    understand how diseases develop,
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    and test new treatments without
    endangering patients.
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    To make sure that they can repeat
    these experiments over and over,
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    and compare the results
    with other scientists,
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    they need huge populations
    of identical cells
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    that can duplicate themselves
    faithfully for years,
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    but until 1951, all human cell lines
    that researchers tried to grow
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    had died after a few days.
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    Then a John Hopkins scientist
    named George Gey
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    received a sample of
    a strange looking tumor:
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    dark purple, shiny, jelly-like.
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    This sample was special.
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    Some of its cells just kept dividing,
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    and dividing,
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    and dividing.
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    When individual cells died,
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    generations of copies took their place
    and thrived.
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    The result was an endless source of
    identical cells that's still around today.
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    The very first immortal human cell line.
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    Gey labeled it "HeLa" after the patient
    with the unusual tumor, Henrietta Lacks.
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    Born on a tobacco farm in Virginia,
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    she lived in Baltimore with her husband
    and five children.
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    She died of aggressive cervical cancer
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    a few months after her tumorous cells
    were harvested,
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    and she never knew about them.
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    So what's so special about the cells
    from Henrietta Lacks
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    that lets them survive
    when other cell lines die?
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    The short answer is
    we don't entirely know.
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    Normal human cells have built-in
    control mechanisms.
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    They can divide about 50 times
    before they self destruct
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    in a process called apoptosis.
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    This prevents the propagation
    of genetic errors
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    that creep in after
    repeated rounds of division.
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    But cancer cells ignore these signals,
    dividing indefinitely
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    and crowding out normal cells.
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    Still, most cell lines eventually die off,
    especially outside the human body.
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    Not HeLa, though, and that's the part
    we can't yet explain.
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    Regardless, when Dr. Gey realized he had
    the first immortal line of human cells,
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    he sent samples
    to labs all over the world.
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    Soon the world's first
    cell production facility
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    was churning out
    6 trillion HeLa cells a week,
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    and scientists put them to work
    in an ethically problematic way,
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    building careers and fortunes
    off of Henrietta's cells
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    without her or her family's consent,
    or even knowledge until decades later.
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    The polio epidemic was at its peak
    in the early 50s.
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    HeLa cells, which easily took up
    and replicated the virus,
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    allowed Jonas Salk to test his vaccine.
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    They've been used to study diseases,
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    including measles,
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    mumps,
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    HIV,
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    and ebola.
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    We know that human
    cells have 46 chromosomes
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    because a scientist working with HeLa
    discovered a chemcial
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    that makes chromosomes visible.
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    HeLa cells themselves actually have
    around 80 highly mutated chromosomes.
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    HeLa cells were the first to be cloned.
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    They've traveled to outer space.
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    Telomerase,
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    an enzyme that helps cancer cells evade
    destruction by repairing their DNA,
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    was discovered first in HeLa cells.
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    In an interesting turn of fate,
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    thanks to HeLa, we know that cervical
    cancer can be caused by a virus called HPV
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    and now there's a vaccine.
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    HeLa-fueled discoveries have filled
    thousands of scientific papers,
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    and that number is probably even higher
    than anyone knows.
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    HeLa cells are so resilient that they
    can travel on almost any surface:
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    a lab worker's hand,
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    a piece of dust,
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    invading cultures of other cells
    and taking over like weeds,
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    countless cures, patents and discoveries
    all made thanks to Henrieta Lacks.
Title:
The immortal cells of Henrietta Lacks - Robin Bulleri
Description:

View full lesson: http://ed.ted.com/lessons/the-immortal-cells-of-henrietta-lacks-robin-bulleri

Imagine something small enough to float on a particle of dust that holds the keys to understanding cancer, virology, and genetics. Luckily for us, such a thing exists in the form of trillions upon trillions of human, lab-grown cells called HeLa. But where did we get these cells? Robin Bulleri tells the story of Henrietta Lacks, a woman whose DNA led to countless cures, patents, and discoveries.

Lesson by Robin Bulleri, animation by Brandon Denmark.
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Video Language:
English
Team:
closed TED
Project:
TED-Ed
Duration:
04:27

English subtitles

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