The insomnia gene 'discovered'



The insomnia gene `discovered`
London: Scientists claim to have discovered an "insomnia gene", a major finding which may pave the way for an effective treatment for the sleep disorder.

A team at Rockefeller University in New York says its has identified the genetic mutation in fruit flies -- it found that those the gene slept two thirds less than normal and also had much shorter lifespans.



The scientists believe the gene works by eliminating specific proteins within brain cells that help in the onset of sleep.

The research says although flies and humans have little in common when it comes to lifestyle, the mechanisms of sleep and wakefulness are likely to be quite similar, the `Daily Mail` reported.

Dr Nicholas Stavropoulos, who led the team, said: "Sleep is a fundamental behaviour in all animals, and it is poorly understood from a scientific standpoint.

"This work gives us several new clues about how sleep is controlled at the molecular level, and could prove useful in understanding and treating sleep disorders."

By cloning and testing the gene, known as insomniac, in more than 20,000 fruit flies, the team has discovered an entirely new mechanism by which sleep is regulated.

Using an infrared beam to detect when the flies nodded off, they discovered those with the variant slept for an average of just 317 minutes a day instead of the typical amount of 927 minutes. The mutant flies also snoozed for shorter periods, and slept and woke more frequently.

Dr Stavropoulos said: "The results showed a dramatic loss of both the duration of the flies` sleep and their ability to remain asleep after they dozed off. But what`s especially interesting is the insomniac gene may function through homeostatic mechanisms.

"These are distinct from the well-studied circadian clock pathways linked to sleep, and have an effect on the body regardless of the time of day."

The researchers also found flies with mutations lived only about two thirds as long as others.

But when the scientists eliminated the gene from neurons-- allowing it to remain in the rest of the flies` bodies - this disparity was eliminated. The resulting animals slept poorly but lived just as long.

Dr Stavropoulos said: "This suggests reduced sleep can be `uncoupled` from reduced lifespan, supporting the idea some disruptions of sleep do not effect overall health, at least as far as lifespan is concerned."

PTI