New “longevity gene” spurs hopes of long life

[Angel Tarragon]

New “longevity gene” spurs hopes of long life

This just in from World-Science.net

Now, researchers at the Salk Institute for Biological Studies in La Jolla, Calif., report they have have cracked the riddle, finding the first gene that specifically links this “caloric restriction” regimen to longevity.

“We finally have genetic evidence to unravel the underlying molecular program required for increased longevity in response to calorie restriction,” said the institute’s Andrew Dillin, who led the study published online in the May 2 issue of the research journal Nature.

The finding opens the door to development of drugs that mimic calorie restriction’s effects, he added. These could allow people to reap health benefits without going hungry.

One compound that may fit this description, resveratrol, is already marketed and has shown promise in animal studies. But it’s not clear whether it acts specifically on the biochemical pathway of dietary restrictions one of three separate pathways known to affect longevity, Dillin said.

Caloric restriction also is the only strategy apart from direct genetic manipulation that consistently prolongs life in animals, Dillin noted. It also cuts the risk of cancer, diabetes, and cardiovascular disease and staves off age related neurodegeneration in laboratory animals from mice to monkeys.

Humans have three genes very similar to worm pha4; they all belong to a family of genes called Foxa, Dillin continued. All three play roles in development and later in the regulation of glucagon, a Pancreatic hormone that unlike insulin boosts blood sugar levels and maintains energy balance, especially during fasting. Scientists might be able to exploit the findings to create antiaging treatments specifically, by finding ways to stimulate Foxa activities, Researchers said. “Those are experiments we’re actively collaborating on,” said Siler Panowski, a graduate student in Dillin’s laboratory.

The price: caloric restriction requires cutting to around 60 percent of normal calorie intake while maintaining a healthy diet rich in vitamins, minerals, and other nutrients, Dillin said. Although some
people live by this regimen, it’s too soon to say whether it will extend lifespan in humans, Dillin said.

In the quest for genes involved in the caloric restriction response, graduate student Suzanne Wolff and others in Dillin’s laboratory studied an array of genes related to ones previously linked to antiaging pathways. They found that only one gene, called pha4, specifically affected the caloric restriction response. In ground worms, they reported that loss of the gene, and the protein molecule whose production it
encodes, negated caloric restriction’s life extending effect. Stimulating it enhanced the effect.

Dillin speculated that the longevity benefits of near starvation may have evolved as a system to help animals live through stressful times. Pha4 “may be the primordial gene that regulates nutrient sensing and helps animals live a long time through stress and dietary restriction,” he added.

One other gene, called sir2, has been implicated in the life and health prolonging response to calorie restriction, Dillin said. But while loss of sir2 disrupts the calorie restriction response only in yeast, it has no effect on other organisms, such as worms, Dillin added. Resveratrol is proposed to stimulate sir2.

Besides caloric restriction, the two other molecular pathways affecting longevity are called the insulin/IGF signaling and the mitochondrial electron transport chain pathways, Dillin said. “It is still not clear where sir2 fits in. It seems to meddle with more than one pathway,” he added. “PHA4 is specific for calorie restriction as it does not affect the other pathways.”

Too cool!

 

[Steve Jung]

What's with all the smilies interspersed in the text?

 

[Angel Tarragon]

What's with all the smilies interspersed in the text?

Copy and paste error; Fixed.

 

[megamania]

not quite fixed.


Not sure if this helps me or my kids.....