The Scientist : NewsBlog Print: Why we go gray
The Scientist: NewsBlog:
Why we go gray
Posted by Edyta Zielinska
[Entry posted at 11th June 2009 05:00 PM GMT]

Researchers have identified the mechanism for why hair goes gray with age and stress -- and in the process discovered a novel response to DNA damage in stem cells, they report in the June 12 issue of Cell.

It's generally thought that accumulated DNA damage is a likely culprit in aging phenotypes such as graying hair, but researchers have been unable to show a direct link, said David Fisher chairman of the department of dermatology at the Massachusetts General Hospital, who was not involved in the study. "Hair follicles are very deep," said Fisher, so it's unlikely that DNA damage would be caused by UV radiation from sunlight, for example.

Image: Wikipedia
In order to understand the process involved in graying hair, Emi Nishimura from the Kanazawa University in Ishikawa, Japan, and colleagues investigated the role of ionizing radiation and other chemical inducers of DNA damage on pigment stem cells called melanocyte stem cells (MSCs) in mice. All the measures of DNA damage they studied resulted in premature graying in mice.

To probe the cellular mechanism involved, the researchers took a closer look at the stem cell niche at the base of the hair follicle. "DNA damage normally causes two outcomes -- apoptosis or cell cycle arrest," said Peter McKinnon from St. Jude Children's Research Hospital in Memphis, Tenn., who was not involved in the research. Nishimura and colleagues, however, found a third pathway -- an increase in differentiated melanocytes. Rather than causing the stem cells to die, DNA damage appeared to force MSCs into terminal differentiation. As a result, they lost their ability to continue to replenish pigmented cells.

Like apoptosis or senescence, "differentiation is a protective mechanism," said Fisher. Cells that have been subjected to DNA damage have a higher likelihood of becoming cancerous. Terminal differentiation in these cells, much like senescence and apoptosis, results in the cells' death. Thus, said Fisher, graying could simply be the body's mechanism for removing damaged stem cells before they have a chance to become cancerous.

If the differentiation proves to be a response to DNA damage in other cell types as well, said Fisher, it could open up a new area of study in cancer research. Scientists have extensively studied the links between cancer and apoptosis, he explained, but "if you're looking for errors [that lead to cancer] in a differentiation pathway, you're looking in a very different place."

Correction (12 June 2009): The original version of this article referred to Emi Nishimura as a male. Nishimura is a female. The Scientist regrets the error.


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    [19th May 2008]


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    Graying
    by KWASI JAMES KUMI DIAKA

    [Comment posted 2009-06-18 14:31:24]
    Has anyone been interested in gender, ethnic and/or racial differences in graying?

    I am aware of the link between steroid hormone and baldness.

    Any direct or indirect impact of steroid hormones on graying?


    Original article
    by Elizabeth Brooks

    [Comment posted 2009-06-17 17:38:24]
    I would like to source the original article please


    An old story
    by VETURY SITARAMAM

    [Comment posted 2009-06-15 05:03:21]
    When I was a medical student decades ago, this story was going around. As you grow old, the hair goes deeper and turns grey when it hits the grey matter. It falls off when it hits vacuum!


    Peroxide-induced terminal differentiation ?
    by PETER PROCTOR

    [Comment posted 2009-06-12 18:58:33]
    Other studies have shown that hair greying is somehow related to production of hydrogen peroxide in hair melanocytes. It is easy to combine these two discoveries.

    Simply-stated, perhaps peroxide, known to have multiple "redox-signalling" functions, induces terminal differentiation in melanocytes.


    On the practical end of things...
    by anonymous poster

    [Comment posted 2009-06-12 16:20:55]


    Less HCl results in less Vitamin B-12 being released from digested food. Without Vitamin B12, the melanocytes in the hair shaft, over time, become white, as the colored part of the cell dies away. Normally, this happens slowly over a period of some years.

    Hence, the "normal greying of hair" seems to me to be, not so much due to the 'aging process' (whatever that is), as it is to a vitamin B-12 deficiency. Unfortunately you can take B-12 until it comes out of your ears for all the good you'll see in your hair. The problem's one of absorption. Maybe stem cell studies will solve that problem?

    For sure, nobody who discovers the solution to this one will ever have to worry about funding,(or anything else, most likely) ever again!

    I only had a couple of grey hairs when I learned this. Now, though--despite years and decades of taking ever-increasing doses of B-12, I'm not grey anymore but I am bald. Connection, anyone?

    (Sigh...I'm SUCH a 'disinterested' fan of stem cell work...(LOL)


    I just do nort understand
    by Ruth Rosin

    [Comment posted 2009-06-12 05:09:36]
    Why scientists are specifically so interested in the ontogeny of grey hair, when there are thousands of other ontogenetic processes that occur in human individual develment, starting at conceoption???


    He or she
    by anonymous poster

    [Comment posted 2009-06-11 20:05:09]
    Professor Emi NIshimura is a female researcher, therefore, "Nishimura and his colleagues" shouuld be read as "Nishimura and her colleagues".


    CLEARLY These guys have NO CLUE what they're talking about
    by David Claghorn

    [Comment posted 2009-06-11 14:11:22]
    Why do we gray? KIDS! Pure and simple! You get a few ones when they're little, as they approach driving age, it just floods over your head. Genetics. Pshaw!


    Other reson for gray hair
    by anonymous poster

    [Comment posted 2009-06-11 13:08:41]
    People with gluten intolerance problem have gray hair in very early age do to sulfur groups deficiency in the diet.


    Cancer Cell Terminal Differentiation
    by Keith Loritz

    [Comment posted 2009-06-11 12:38:56]
    If one could force a cell to enter this 'terminal differentiation', then perhaps pre-cancer or even cancer cells could be told to stop multiplying.

    If one could do this to all 'good' cells, then initiated chemo therapy to destroy 'bad' cells, then re-enable some of the 'good' cells to de-differentiation back to dividing stem cells the side effects of standard chemo can be reduced or eliminated.


    Gray Hair
    by Robert Willette

    [Comment posted 2009-06-11 12:28:06]
    Have these or other scientist looked at the role of selenium levels in regards to the graying of hair? Selenium is an essential element for melanocyte activity.


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