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Tests raise life extension hopes

A drug discovered in the soil of a South Pacific island may help to fight the

ageing process, research suggests.

When US scientists treated old mice with rapamycin it extended their expected

lifespan by up to 38%.

The findings, published in the journal Nature, raise the prospect of being able

to slow down the ageing process in older people.

However, a UK expert warned against using the drug to try to extend lifespan,

as it can suppress immunity.

We believe this is the first convincing evidence that the ageing process can

be slowed and lifespan can be extended by a drug therapy starting at an

advanced age.

Professor Randy Strong University of Texas

Rapamycin was first discovered on Easter Island in the 1970s.

It is already used to prevent organ rejection in transplant patients, and in

stents implanted into patients to keep their coronary arteries open. It is also

being tested as a possible treatment for cancer.

Researchers at three centres in Texas, Michigan and Maine gave the drug to mice

at an age equivalent to 60 in humans.

The mice were bred to mimic the genetic diversity and susceptibility to disease

of humans as closely as possible.

Rapamycin extended the animals' expected lifespan by between 28% and 38%.

The researchers estimated that in human terms this would be greater than the

predicted increase in extra years of life, if both cancer and heart disease

were prevented and cured.

Researcher Dr Arlan Richardson, of the Barshop Institute, said: "I've been in

ageing research for 35 years and there have been many so-called 'anti-ageing'

interventions over those years that were never successful.

"I never thought we would find an anti-ageing pill for people in my lifetime;

however, rapamycin shows a great deal of promise to do just that."

Professor Randy Strong, of the University of Texas Health Science Center, said:

"We believe this is the first convincing evidence that the ageing process can

be slowed and lifespan can be extended by a drug therapy starting at an

advanced age."

Calorie restriction

Rapamycin appears to have a similar effect to restricting food intake, which

has also been shown to boost longevity.

In no way should anyone consider using this particular drug to try to extend

their own lifespan, as rapamycin suppresses immunity

Dr Lynne Cox University of Oxford

It targets a protein in cells called mTOR, which controls many processes

involved in metabolism and response to stress.

The researchers had to find a way to re-formulate the drug so that it was

stable enough to make it to the mice's intestines before beginning to break

down.

The original aim was to begin feeding the mice at four months of age, but the

delay caused by developing the new formulation meant that feeding did not start

until the animals were 20 months old.

The researchers thought the animals would be too old for the drug to have any

effect - and were surprised when it did.

Professor Strong said: "This study has clearly identified a potential

therapeutic target for the development of drugs aimed at preventing age-related

diseases and extending healthy lifespan.

"If rapamycin, or drugs like rapamycin, works as envisioned, the potential

reduction in health cost will be enormous."

'Don't try it now'

Dr Lynne Cox, an expert in ageing at the University of Oxford, described the

study as "exciting".

She said: "It is especially interesting that the drug was effective even when

given to older mice, as it would be much better to treat ageing in older people

rather than using drugs long-term through life."

However, she added: "In no way should anyone consider using this particular

drug to try to extend their own lifespan, as rapamycin suppresses immunity.

"While the lab mice were protected from infection, that's simply impossible in

the human population.

"What the study does is to highlight an important molecular pathway that new,

more specific drugs might be designed to work on.

"Whether it's a sensible thing to try to increase lifespan this way is another

matter; perhaps increasing health span rather than overall lifespan might be a

better goal."