Longevity: can ageing be reversed?

00:15:54
https://www.youtube.com/watch?v=FYr04ymjD1w

Summary

TLDRThe video delves into the potential of reversing aging, suggesting that within 50 years, science may allow treatments that keep people young. It discusses the malleability of aging, attracting big investors, and the possibility of age-reversing therapies. The disposable soma theory explains aging as an evolutionary trade-off between reproduction and repair. Research is focused on genes related to longevity, including Yamanaka factors for epigenetic reprogramming, and drugs like metformin and rapamycin that may slow aging by mimicking dietary restrictions or altering cellular functions. The video highlights efforts to extend life spans healthily and economically, presenting anti-aging as a trillion-dollar opportunity. Researchers aim to slow cellular aging with epigenetic treatments, reduce senescent cells, and replicate the effects of specific longevity genes to allow people to age healthily, reducing medical costs associated with aging.

Takeaways

  • ๐Ÿงฌ Scientific research aims to slow biological aging, potentially making youthfulness accessible.
  • ๐Ÿ’ธ Significant investments are fueling age-reversal research, viewing it as a lucrative future market.
  • ๐Ÿง  The Disposable Soma Theory describes aging as a trade-off in evolutionary terms between repair and reproduction.
  • ๐Ÿงช Genes and epigenetic modifications are central to new anti-aging treatments.
  • ๐Ÿฝ๏ธ Caloric restriction in animals has shown to extend lifespan, a practice linked to the Disposable Soma Theory.
  • ๐Ÿ”ฌ Yamanaka factors have demonstrated the ability to reset biological clocks in cell research.
  • ๐Ÿ’Š Existing drugs like metformin and rapamycin might aid in slowing aging processes.
  • ๐Ÿ”„ Senescent cells contribute to aging and are targeted in new therapeutic trials.
  • ๐Ÿง  Parabiosis experiments suggest transfusions from younger to older organisms might slow aging.
  • ๐Ÿงฌ Changes to epigenetics open new potential for treatable aging conditions.

Timeline

  • 00:00:00 - 00:05:00

    Aging is typically expected as a natural part of life, but scientific advancements suggest that it might be possible to slow down or even reverse the biological aging process. Big investors are increasingly funding age reversal research. The field of aging research has progressed from hopeful speculation to promising scientific discoveries, such as the Longevity Genes Project which studies individuals with unusually long and healthy lives to unlock aging mysteries.

  • 00:05:00 - 00:10:00

    Experiments reveal that caloric restriction can significantly extend the lifespan of various species, providing insights into longevity linked with the Disposable Soma Theory, where organisms prioritize survival in resource-scarce conditions. Scientists like Cynthia Kenyon have discovered that genetic modifications can greatly affect aging, potentially tricking genes into behaving as if they are in a caloric-restricted state, extending lifespan without actual dietary changes. Modifying how genes are read, rather than altering the genes themselves, could be pivotal in developing anti-aging therapies.

  • 00:10:00 - 00:15:54

    Controversial methods like parabiosis, where the young blood is transfused to the old, and the use of certain supplements are being explored for anti-aging effects. Existing drugs such as metformin and rapamycin show potential in slowing aging, working through mechanisms like reducing inflammation and improving cellular clean-up processes. The development of anti-aging treatments could economically benefit society by reducing medical costs and improving the healthspan of the elderly, reflecting a shift in societal demographics toward older, yet vibrant populations.

Mind Map

Video Q&A

  • What is the Disposable Soma Theory?

    It suggests an evolutionary trade-off between repair and reproduction, where organisms prioritize reproduction over maintaining somatic cells, leading to aging.

  • What breakthrough did Clive McCay discover in the 1930s?

    He found that restricting rats' diets increased their lifespan by up to 33%, demonstrating aging could be slowed.

  • What are senescent cells?

    Senescent cells are cells that have stopped dividing and become inflammatory, contributing to aging and age-related diseases.

  • How does metformin affect aging?

    Metformin mimics dietary restrictions, reduces inflammation, and helps break down cellular waste, potentially slowing aging.

  • What role do Yamanaka factors play in aging research?

    They are proteins that, when expressed in old cells, can reverse the biological clock by altering the epigenome.

  • How do epigenetic treatments work?

    They modify how genes are read, potentially reversing aging by changing the epigenome's structure.

  • What is parabiosis?

    Parabiosis involves linking the circulatory systems of young and old animals, potentially extending the old animal's lifespan.

  • How does rapamycin influence aging?

    Rapamycin alters nutrient sensing and metabolism, helping cells eliminate junk accumulations, thus restoring youthful functions.

  • Are there existing drugs that show promise in slowing aging?

    Yes, drugs like metformin and rapamycin, originally for diabetes and organ transplants, are being explored for anti-aging effects.

  • What are the economic benefits of anti-aging treatments?

    They can reduce age-related healthcare costs, benefiting economies as people age healthily.

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  • 00:00:01
    [Music]
  • 00:00:06
    aging it's the price we pay for
  • 00:00:09
    living but it might not always be this
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    way I think that in 50 years we'll be
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    able to take a 20-year-old and give them
  • 00:00:18
    a treatment they'll be Peter Pan they'll
  • 00:00:21
    be forever young increasingly science is
  • 00:00:24
    revealing how we can slow our biological
  • 00:00:27
    clocks the rate of Aging is malleable
  • 00:00:30
    and these tantalizing glimpses of an
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    ageless future are attracting huge money
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    big investors are zeroing in on age
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    reversal research but does the science
  • 00:00:40
    live up to the hype can we really slow
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    down aging or even stop it all together
  • 00:00:46
    when I started the field it was like
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    well let's let's see we moved from Hope
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    to realizing the promise
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    [Music]
  • 00:01:08
    if we can slow aging
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    enough so that we don't have diseases of
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    Aging then we will be happy but there
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    will be a side effect we might live
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    longer I want you to walk back to me
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    calling off every other letter of the
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    alphabet starting with a
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    a
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    c she might not look it but gy is 98
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    years old she's a participant in the
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    longevity genes project at the Albert
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    Einstein College of Medicine in New York
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    my brother died in his mid 80s my sister
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    is now
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    103 I have a younger sister who is 90 my
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    father died 5 days short of
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    95 my mother
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    died at 85 or
  • 00:02:04
    [Music]
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    86 not only longer they live he here for
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    the past 25 years near barel has studied
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    the long lived in a bid to unlock the
  • 00:02:14
    mystery of Aging when I started studying
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    the centenarian the question is do they
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    just live longer or do they also leave
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    healthier and the answer is yes they're
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    healthy we have discovered several genes
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    in our centenarians if we can imitate
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    them if we can understand what happens
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    to them we can create it as a drug or or
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    some other intervention that we could
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    use near is just one of a growing number
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    of scientists chasing a future where
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    aging is no longer inevitable but what
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    is aging the longer you live the greater
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    the impact of molecular and cellular
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    damage in your body bringing you closer
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    to death as to why we age one
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    explanation is the Disposable Soma
  • 00:03:06
    Theory there's an evolutionary trade-off
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    between repair and
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    reproduction it's not obvious why an
  • 00:03:14
    animal should become more damaged as it
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    gets older and The evolutionary
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    explanation is a thing called disposable
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    Soma Theory and for that you have to
  • 00:03:23
    understand that the purpose of an
  • 00:03:25
    organism is to reproduce and since it's
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    always at risk of getting killed by the
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    outside world it makes sense to get your
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    reproducing done as fast as possible so
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    organisms tend to reproduce when they're
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    young evolutionary pressure to keep them
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    in full working order as they get older
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    uh
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    diminishes an adult human's risk of
  • 00:03:46
    death doubles roughly every 8 years at
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    30 years of age your odds of dying in
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    the next year are less than
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    0.1% at 60 years of age that risk is 1%
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    by the time you turn 90 it's over
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    15% but this isn't true for all
  • 00:04:07
    animals alabra giant tortoises for
  • 00:04:10
    example can live to well over 100 and as
  • 00:04:14
    adults their risk of death remains
  • 00:04:16
    roughly constant at just over 2% per
  • 00:04:21
    year biologically speaking they hardly
  • 00:04:24
    age at
  • 00:04:25
    all so if aging isn't fixed Maybe maybe
  • 00:04:30
    it can be
  • 00:04:32
    changed in the 1930s a paper by Clive
  • 00:04:36
    McCay a scientist at Cornell University
  • 00:04:38
    in New York state proved just that with
  • 00:04:42
    one simple modification he revealed a
  • 00:04:45
    way to make animals stay healthy for
  • 00:04:47
    longer and even prolong their lives
  • 00:04:51
    McKay found that if he restricted the
  • 00:04:53
    diet of rats to near starving levels he
  • 00:04:57
    could increase their lifespan by up to
  • 00:04:59
    30
  • 00:05:00
    3% that was the first time that we
  • 00:05:02
    discovered that agent could be slowed
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    down and it's true of pretty well every
  • 00:05:06
    animal it's been tested on from yeast to
  • 00:05:11
    dogs it sounds counterintuitive but in
  • 00:05:15
    evolutionary terms it fits with the
  • 00:05:17
    Disposable Soma theory if you are um
  • 00:05:21
    solving then reproduction is possibly
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    not top of your list of things to do you
  • 00:05:26
    want to survive and so a mechanism that
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    will PR long life then to allow the
  • 00:05:30
    animal to arrive at a point where it can
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    reproduce successfully makes sense
  • 00:05:34
    Evolution will wish to preserve the
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    animal for better times but it does
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    preserve Health as well it's not that
  • 00:05:40
    you uh have a horrible old age you have
  • 00:05:43
    a healthy old age but keeping yourself
  • 00:05:46
    hungry for a longer healthier life is
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    far from ideal the trick would be to
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    fool the body into thinking it's
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    starving when it's not and the key to
  • 00:05:57
    that may lurk in our DNA
  • 00:06:00
    [Music]
  • 00:06:07
    [Music]
  • 00:06:08
    in the 1990s Cynthia Kenyan made
  • 00:06:11
    headlines when her groundbreaking work
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    with round worms showed for the first
  • 00:06:15
    time that genes can play a part in aging
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    amazingly we found that changing a gene
  • 00:06:23
    called daff 2 could in one Fell Swoop
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    double the lifespan of the animal and
  • 00:06:29
    caus it to age much more slowly than
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    normal so that it stayed young much
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    longer than normal since then scientists
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    have tweaked various genes in round
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    worms resulting in mutants that can live
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    to over 5 months old 10 times longer
  • 00:06:45
    than those without the genetic changes
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    we now know from work from our lab and
  • 00:06:52
    from other labs that the reason that
  • 00:06:54
    this Gene change slows down aging is
  • 00:06:58
    because the genes that we changed are
  • 00:07:01
    involved in a kind of programmed system
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    of resiliency they make the animals less
  • 00:07:07
    sensitive to pathogens they improve the
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    ability of the animal to repair its DNA
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    all sorts of things it's pretty amazing
  • 00:07:16
    they're the same changes responsible for
  • 00:07:18
    increasing lifespan in near starving
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    animals only this time the animal can
  • 00:07:24
    eat as much as it wants because its
  • 00:07:26
    genes have been tricked into thinking
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    it's starving and humans have the genes
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    they're right there in us but we don't
  • 00:07:34
    yet know whether they affect our
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    lifespan or not researchers have
  • 00:07:38
    discovered other genes that affect Aging
  • 00:07:40
    in humans but changing genes in people
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    is irreversible a more practical way to
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    slow aging would be to change not genes
  • 00:07:49
    themselves but how they're read
  • 00:07:52
    modifying something called The epig
  • 00:07:54
    genome epigenetics literally means on
  • 00:07:58
    top of genes so you can think of it as a
  • 00:08:02
    layer of information that are added to
  • 00:08:05
    the DNA the epigenome Tells genes when
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    to turn on and off there is a very
  • 00:08:11
    promising um therapeutic Avenue that is
  • 00:08:14
    being investigated now called epigenetic
  • 00:08:17
    reprogramming tweaking the epigenome of
  • 00:08:20
    mice has already shown it's possible to
  • 00:08:23
    turn back a cell's biological clock in
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    particular manipulating four proteins
  • 00:08:28
    known as yam AKA factors and if you
  • 00:08:32
    express those yamanaka factors in Old
  • 00:08:35
    cells they change the epigenome and push
  • 00:08:39
    the cell back in time epigenetic
  • 00:08:42
    treatments are showing so much potential
  • 00:08:45
    that research money is flooding in
  • 00:08:48
    startups betting they can modify the
  • 00:08:50
    epig genome to slow down aging are
  • 00:08:52
    popping up all over Silicon Valley and
  • 00:08:55
    elsewhere the claims might sound
  • 00:08:58
    outlandish but but the science is real
  • 00:09:02
    epigenetics um or epigenetic patterns
  • 00:09:06
    are laid down by enzymes which by Nature
  • 00:09:09
    catalyze mostly reversible reactions and
  • 00:09:12
    therefore if we can Target the correct
  • 00:09:15
    enzymes to change those patterns and
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    convert them back to the youthful
  • 00:09:22
    pattern then it means that epigenetics
  • 00:09:25
    is a drugable field of research in terms
  • 00:09:28
    of anti-aging
  • 00:09:30
    while a drug that can fight aging at the
  • 00:09:32
    DNA level remains closer to Theory than
  • 00:09:35
    practical application other methods of
  • 00:09:38
    turning back the biological clog already
  • 00:09:41
    exist for the past few years I've been
  • 00:09:44
    endeavoring to build the world's best
  • 00:09:46
    anti-aging
  • 00:09:48
    protocol some attempts to slow aging are
  • 00:09:51
    raising
  • 00:09:52
    eyebrows take Brian Johnson the man
  • 00:09:55
    whose Zeal for a long life is viewed as
  • 00:09:58
    obsessive by many
  • 00:09:59
    these are all the supplements I take in
  • 00:10:01
    his quest to remain Forever Young he's
  • 00:10:04
    pushed boundaries even using his own
  • 00:10:06
    son's blood we'll lead her out we'll
  • 00:10:09
    lead her in for me as macabra as it
  • 00:10:11
    sounds it seems to work in animals it's
  • 00:10:15
    known as
  • 00:10:18
    parabiosis it's almost like out of a
  • 00:10:20
    vampire
  • 00:10:22
    story parabiosis is when you take two
  • 00:10:25
    animals of the same species and Link
  • 00:10:27
    their blood circulations together if you
  • 00:10:29
    do it with animals of significantly
  • 00:10:32
    different ages so one's quite young and
  • 00:10:33
    one's quite old the older animal lives
  • 00:10:35
    longer than you would expect although
  • 00:10:37
    how much of this is down to special
  • 00:10:39
    qualities in the younger blood is open
  • 00:10:42
    to debate there probably are some
  • 00:10:44
    factors that are crossing over from the
  • 00:10:45
    young to the old but it look as though a
  • 00:10:47
    lot of the effect is coming simply from
  • 00:10:49
    the dilution of the bad factors in the
  • 00:10:50
    old animal and blood isn't the only gift
  • 00:10:54
    the young can donate to provide the old
  • 00:10:56
    with youthful figure if you transplant E
  • 00:11:00
    from a young animal to an old animal
  • 00:11:02
    that will extend its lifespan not much
  • 00:11:04
    is known yet about why this works but
  • 00:11:07
    the microbiome the bacteria in the gut
  • 00:11:10
    changes with age presumably it's
  • 00:11:13
    adapting to the the host we know the
  • 00:11:16
    composition of the microbium changes as
  • 00:11:18
    the animal gets older and it becomes
  • 00:11:20
    more specific so this might be a way
  • 00:11:23
    that you can gu its longevity through
  • 00:11:26
    the gut it might take blood and guts to
  • 00:11:29
    stay this young but a range of different
  • 00:11:31
    drugs are also showing promise at
  • 00:11:34
    slowing down aging and some of them have
  • 00:11:36
    been on pharmacist shelves for years a
  • 00:11:40
    class of drugs that includes dasatinib
  • 00:11:43
    used to treat leukemia has been found to
  • 00:11:45
    extend life in Animals by attacking a
  • 00:11:49
    major contributor to aging there's a
  • 00:11:51
    certain kind of cell called a senescent
  • 00:11:53
    cell it could have been any cell in your
  • 00:11:56
    body but when it becomes ccent it stops
  • 00:11:59
    stops dividing no longer proliferates
  • 00:12:02
    and it becomes highly inflammatory it's
  • 00:12:04
    a little Center of inflammation right
  • 00:12:07
    there in your body and that's a problem
  • 00:12:10
    because inflammation is linked to a
  • 00:12:12
    variety of age related
  • 00:12:15
    diseases in animals where they've
  • 00:12:18
    cleared ccent cells it's really
  • 00:12:20
    remarkable the animals don't live that
  • 00:12:22
    much longer but they're much healthier
  • 00:12:25
    currently there are nearly 20 clinical
  • 00:12:27
    trials globally for therapies that clear
  • 00:12:30
    ccent cells but this isn't the only
  • 00:12:33
    class of drug that shows promise in
  • 00:12:36
    slowing
  • 00:12:37
    aging this one is metformin it's been
  • 00:12:41
    also taken off label for longevity
  • 00:12:43
    purposes met forming is a common drug to
  • 00:12:47
    treat diabetes but also the people who
  • 00:12:49
    are using that are protected against
  • 00:12:51
    variety of age related
  • 00:12:53
    diseases metformin mimics dietary
  • 00:12:56
    restrictions by lessening the amount of
  • 00:12:58
    sugar the body produces and absorbs the
  • 00:13:02
    way it works inside a cell isn't
  • 00:13:04
    completely understood but it reduces
  • 00:13:06
    inflammation and helps break down
  • 00:13:09
    accumulated rubbish in studies diabetics
  • 00:13:12
    taking metformin have lived longer and
  • 00:13:14
    healthier than people not on the drug
  • 00:13:17
    whether they were diabetic or
  • 00:13:19
    Not Another drug that seems to slow
  • 00:13:22
    aging is
  • 00:13:23
    Ramy already approved for use with organ
  • 00:13:27
    transplants rap myin is an
  • 00:13:30
    immunosuppressant it changes the way
  • 00:13:33
    that nutrients are are sensed and
  • 00:13:34
    changes the way that they're metabolized
  • 00:13:36
    in ways which are useful to extending
  • 00:13:40
    life Romy boosts the way cells clear up
  • 00:13:44
    junk that builds up inside them with age
  • 00:13:47
    this means they can function better like
  • 00:13:49
    a younger version of
  • 00:13:51
    themselves whether they're drugs that
  • 00:13:53
    already exist or new ones that change
  • 00:13:56
    our epig genome anti-aging treatments
  • 00:13:58
    are are coming and the need for them has
  • 00:14:01
    never been greater we all know that we
  • 00:14:05
    have a demographic shift in which fewer
  • 00:14:08
    young people are supporting more old
  • 00:14:12
    people so it's really really important
  • 00:14:16
    that our older people stay vibrant and
  • 00:14:19
    Youthful and productive it's also
  • 00:14:21
    something we all want for ourselves and
  • 00:14:24
    for our family and people we love and
  • 00:14:25
    for everybody a future where we grow old
  • 00:14:28
    with aging would benefit billions and
  • 00:14:32
    give the world an economic Boon too it's
  • 00:14:35
    not a billion doll question it's
  • 00:14:37
    trillions the last two years of medical
  • 00:14:40
    expense of centenarians is third of
  • 00:14:43
    those who di at
  • 00:14:44
    7 if people lived longer with a sharper
  • 00:14:47
    decline in old age it would reduce
  • 00:14:50
    medical expenses resulting from age
  • 00:14:52
    related
  • 00:14:55
    diseases although it's impossible to put
  • 00:14:58
    a price on on extra years of healthy
  • 00:15:01
    life one day hopefully more of us will
  • 00:15:04
    be as independent into old age as
  • 00:15:08
    gy as I look
  • 00:15:10
    back who ever thought of
  • 00:15:14
    98 when I was in my 60s I never thought
  • 00:15:18
    of that but today 50 is like being a
  • 00:15:22
    baby I want to beat my sister right now
  • 00:15:25
    my sister is 103
  • 00:15:29
    I want to be able to live that long
  • 00:15:36
    120 thank you for watching to read more
  • 00:15:39
    about the science of Life Extension
  • 00:15:41
    click the link and don't forget to
  • 00:15:43
    subscribe
Tags
  • aging
  • biological clocks
  • longevity
  • age reversal
  • epigenetic reprogramming
  • Disposable Soma Theory
  • Yamanaka factors
  • senescent cells
  • metformin
  • rapamycin