“Harvard scientists at Dana-Farber Cancer Institute say they have for the first time partially reversed age-related degeneration in mice, resulting in new growth of the brain and testes, improved fertility, and the return of a lost cognitive function. In a report posted online by the journal Nature in advance of print publication, researchers led by Ronald A. DePinho, a Harvard Medical School (HMS) professor of genetics, said they achieved the milestone in aging science by engineering mice with a controllable telomerase gene. The telomerase enzyme maintains the protective caps called telomeres that shield the ends of chromosomes.
As humans age, low levels of telomerase are associated with progressive erosion of telomeres, which may then contribute to tissue degeneration and functional decline in the elderly. By creating mice with a telomerase switch, the researchers were able to generate prematurely aged mice. The switch allowed the scientists to find out whether reactivating telomerase in the animals would restore telomeres and mitigate the signs and symptoms of aging. The work showed a dramatic reversal of many aspects of aging, including reversal of brain disease and infertility.
While human applications remain in the future, the strategy might one day be used to treat conditions such as rare genetic premature aging syndromes in which shortened telomeres play an important role, said DePinho, senior author of the report and the director of Dana-Farber’s Belfer Institute for Applied Cancer Science. “Whether this would impact on normal aging is a more difficult question,” he added. “But it is notable that telomere loss is associated with age-associated disorders and thus restoration of telomeres could alleviate such decline.” The first author is Mariela Jaskelioff, a research fellow in medicine in DePinho’s laboratory.”
Read more at Harvard Science
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