How That Glass of Red Wine Might Help You Live
TUESDAY, May 1 (HealthDay News) -- Researchers have found new
evidence showing that resveratrol, a compound found in red wine,
may play a role in preventing cell aging.
The study in rodents found that when mice had a particular gene
-- SIRT1 -- knocked out, or turned off, resveratrol had no effect
on them. But tests of muscle tissue in mice with a normal SIRT1
gene that were given resveratrol found that the substance boosted
Mitochondria provide the energy that cells need to function. A
decrease in mitochondrial energy production has been linked to a
variety of diseases, including diabetes and Alzheimer's disease, as
well as to the aging process itself, said senior study author David
Sinclair, a professor of genetics at Harvard Medical School in
But don't go reaching for that Chianti yet. Yes, resveratrol is
found in the skin of red grapes. But "the amounts we gave to our
mice would be like drinking 100 glasses of red wine a day,"
Instead, the goal is to develop synthetic resveratrol compounds
that activate SIRT1 and could be taken as medication. "My
colleagues are in the middle of developing better molecules that we
hope will be medicines that will be used to treat diseases of
aging, not to extend lifespan, though that may be a side effect,"
The study is in the May 1 issue of
While previous studies have also suggested that resveratrol may
have anti-aging properties, the precise mechanism of resveratrol
has been controversial. Several studies, including work with yeast,
worms and flies, have found that resveratrol acts on a class of
seven genes known as sirtuins and, in human cells, SIRT1 in
But other researchers have argued that resveratrol may work by
activating a separate energy pathway called AMPK, which is also
related to mitochondrial energy production but does not involve
Testing the effect of resveratrol on SIRT1 in mice was
difficult, Sinclair said. Mice that have their SIRT1 gene deleted
are born with developmental defects and are unsuitable for
experiments, he explained.
So Sinclair and two graduate students, Nathan Price and Ana
Gomes, worked for years to come up with a method for knocking out
SIRT1 in healthy adult mice.
"Our paper found you absolutely require the SIRT1 gene for resveratrol to improve the metabolism of the mice," Sinclair said.
The paper also showed that the AMPK pathway was activated in
mice given high doses of resveratrol, yet there was no benefit to
mitochondrial function. There was no effect on AMPK in mice given a
lower dose of resveratrol.
Sinclair is co-founder and a consultant for Sirtris
Pharmaceuticals Inc., which is developing resveratrol-like
molecules for use as treatment for age-related diseases. In 2010,
according to news reports, the company, which is owned by
GlaxoSmithKline, halted clinical trials of resveratrol, but
Sinclair said the company continues to develop improved synthetic
George Vlasuk, CEO of Sirtris, said the new findings offer the
"first definitive evidence" for a direct link between SIRT1 and the
metabolic benefits of resveratrol.
"The work by [first author] Price et al. strongly supports the basic rationale being pursued at Sirtris, which focuses on the development of small-molecule compounds that directly activate the enzymatic activity of SIRT1 as a new therapeutic approach to many diseases of aging," Vlasuk wrote in an email to the journal.
Philippe Marambaud, an investigator at the Litwin-Zucker Center
for Research in Alzheimer's Disease and Memory Disorders at the
Feinstein Institute for Medical Research in Manhasset, N.Y, said
the new research adds to a body of evidence that resveratrol can
potentially combat aging by boosting mitochondrial activity.
"In this study, by using an elegant adult-inducible SIRT1 knock-out mouse model, the authors now provide compelling evidence that SIRT1 is required in vivo [in the animal] for the effect of resveratrol on AMPK activation and on mitochondrial function," Marambaud said.
While studies involving animals can be useful, they frequently
fail to produce similar results in humans.
"A mouse model is not a human being, especially when you are genetically manipulating this animal model, you want to be very careful," Marambaud said. "This field has been extremely controversial. We should be very careful about claiming the importance of resveratrol for medical purposes. We have to wait and see, but this study is a big step forward."
U.S. Centers for
Disease Control and Prevention has more on healthy aging.
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