> email@example.com writes:
> << Wasn't someone on the list looking for a life expectancy calculator?
> one at MSNBC. Well, you know how much I love polls. >>
> Do you have a URL for this?
Shoot, I'm sorry. Here it is.
And here's the MSNBC article that had the link if you're interested.
Extending your life, through genetics
New research in worms points to promise of living until 180
By Charlene Laino
June 10 - Imagine taking a drug that offers the promise of allowing you to live to be 180 - without suffering such crippling disabilities as arthritis or fatigue. That may no longer be the stuff of science fiction, thanks to new studies in genetics. While the work has so far only be done in worms, there is every reason to think it may be applicable to humans.
"IF WHAT we're finding in lower organisms hold true for humans, it is possible that we might know how to change the rate of aging in humans within 20 years," said Cynthia Kenyon , a professor of biochemistry and biophysics at the University of California at San Francisco.
"Every animal ages at a different rate - a mouse only lives two years, a canary lives 13 years and a bat can live 50 years," she said. The reason is because of their genes, she added, which makes it logical that genes control the rate of aging.
And now her new studies show that the genes that control aging are the same genes that control hormones involved in food metabolism - "a most fundamental process," as she puts it. Kenyon discussed her research on anti-aging at an American Medical Association media briefing Thursday.
In her new work, Kenyon has been focusing on a small worm called C. elegans, studying what makes the worm age.
According to Kenyon, there are many similarities between the cells of worms and other animals. "Its cells have to grow and divide and make tissues , make nerve chemicals, make muscles, just like other organisms do," she said. "The genes that control all those processes end up being the same genes that control these processes in us."
C. elegans has a life span of about two weeks. But Kenyon found than when the gene known as daf-2 is altered, the worm's life span doubles.
"So we now know that the worm has its own kind of death gene," Kenyon said. "In C. elegans, this gene speeds up the aging process. When its activity is inhibited, the worms live much longer, and remain active and youthful for much longer than normal."
The protein in worms that regulates life span looks similar to the hormone in humans that binds to insulin and IGF-1, which control food utilization and metabolism, she said.
IMPLICATIONS FOR HUMANS
So what does this mean for us? In essence, it means that a simple drug that blocks the action of such hormones might retard aging.
In the worm, her team went in and directly changed its genetic material - telling the receptor not to bind as well to the hormone - and thus extending life span.
"In humans, we would want to develop drugs that mimic this," she said. "If this pans out, it is quite reasonable to think we can double life span - and improve the quality of life, working toward eliminating aging diseases."
The next step, Kenyon said, is to try to duplicate the work in mice. "By about five years from now, we should know if mice are wired similarly," she said. "If so, it should probably hold true for humans too.