New study reveals why restricting calories may lead to longevity.
We have known for more than 70 years that the one surefire way to extend the lives of animals was to cut calories by an average of 30 to 40 percent. But, why?
Now a new study begins to unravel the mystery and the mechanism by which reducing food intake protects cells against aging and age-related diseases.
Researchers report that the phenom is likely linked to two enzymes—SIRT3 and SIRT4—in mitochondria (the cell’s powerhouse that, among other tasks, converts nutrients to energy). They found that a cascade of reactions triggered by lower caloric intake raises the levels of these enzymes, leading to an increase in the strength and efficiency of the cellular batteries. By invigorating the mitochondria, SIRT3 and SIRT4 extend the life of cells, by preventing flagging mitochondria from developing tiny holes (or pores) in their membranes that allow proteins that trigger apoptosis, or cell death, to seep out into the rest of the cell.
"We didn’t expect that the most important part of this pathway was in the mitochondria," says David Sinclair, an assistant professor of pathology at Harvard Medical School and a study co-author. "We think that we’ve possibly found regulators of aging."
In 2003 Sinclair’s lab published a paper in Nature that described the discovery of a gene that switched on in the yeast cell in response to calorie restriction, which Sinclair calls a "master regulator in aging." Since then, his team has been searching for an analogous gene that plays a similar role in the mammalian cell.
The researchers determined from cultures of human embryonic kidney cells that lower caloric intake sends a signal that activates a gene inside cells that codes for the enzyme NAMPT (nicotinamide phosphoribosyltransferase). The two- to four-fold surge in NAMPT in turn triggers the production of a molecule called NAD (nicotinamide adenine dinucleotide), which plays a key role in cellular metabolism and signaling.
The uptick in NAD levels activates the SIRT3 and SIRT4 genes, increasing levels of their corresponding SIRT3 and SIRT4 enzymes, which then flood the interior of the mitochondria. Sinclair says he’s not sure exactly how SIRT3 and SIRT4 beef up the mitochondria’s energy output, but that events leading to cell death are at the very least delayed when there are vast quantities of the enzymes.
SIRT3 and SIRT4 are part of a family called sirtuins. (SIRT1, which helps extend cell life by modulating the number of repair proteins fixing DNA damage both inside and outside the cell’s nucleus is also a member.) SIRT is short for sir-2
omologue—a well-studied protein that is known to extend yeast cell longevity. According to Sinclair, all of the mammalian SIRT genes (and their proteins) are possible drug targets for therapies aimed at extending life, as well as staving off age-related illnesses, such as Alzheimer’s disease, cancers and metabolic disorders, like diabetes.
"I think SIRT3 is the next most interesting sirtuin from a drug development standpoint," Sinclair says. "It does protect cells, but there’s growing evidence that it may mediate the benefits of exercise as well."
Sinclair’s lab is now working on developing what he calls a possible "supermouse" with elevated levels of NAMPT to see if it lives longer and is more disease-resistant than normal mice.
Matt Kaeberlein, a pathologist at the University of Washington in Seattle, says that Sinclair’s team has an interesting hypothesis connecting the mitochondria to longevity, but that it needs to be more directly tested in the context of dietary restriction. "If the NAMPT-over expressing mice are long-lived and disease resistant, that will provide more support for this idea."
For his part, Sinclair is eager to see the results of his experiments with the super mouse. "Depending on how this mouse turns out," he says, "we may put NAMPT on the list of drug targets, as well."
Cell, Sept. 2007
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