Rhesus monkeys on calorie-restricted diets age just as quickly as their chubbier counterparts.
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From Nature magazine
To those who enjoy the pleasures of the dining table, the news may come as a relief: drastically cutting back on calories does not seem to lengthen lifespan in primates.
The verdict, from a 25-year study in rhesus monkeys fed 30% less than control animals, represents another setback for the notion that a simple, diet-triggered switch can slow ageing. Instead, the findings, published this week in Nature1, suggest that genetics and dietary composition matter more for longevity than a simple calorie count.
“To think that a simple decrease in calories caused such a widespread change, that was remarkable,” says Don Ingram, a gerontologist at Louisiana State University in Baton Rouge, who designed the study almost three decades ago while at the National Institute on Aging (NIA) in Bethesda, Maryland.
When the NIA-funded monkey study began, however, studies of caloric restriction in short-lived animals were hinting at a connection. Experiments had showed that starvation made roundworms live longer. Other studies had showed that rats fed fewer calories than their slow and balding brethren maintained their shiny coats and a youthful vigour. And more recently, molecular studies had suggested that caloric restriction — or compounds that mimicked it — might trigger a cascade of changes in gene expression that had the net effect of slowing ageing.
In 2009, another study2, which began in 1989 at the Wisconsin National Primate Research Center (WNPRC) in Madison, concluded that caloric restriction did extend life in rhesus monkeys. The investigators found that 13% of the dieting group died from age-related causes, compared with 37% of the control group.
One reason for that difference could be that the WNPRC monkeys were fed an unhealthy diet, which made the calorie-restricted monkeys seem healthier by comparison simply because they ate less of it. The WNPRC monkeys’ diets contained 28.5% sucrose, compared with 3.9% sucrose at the NIA. Meanwhile, the NIA meals included fish oil and antioxidants, whereas the WNPRC meals did not. Rick Weindruch, a gerontologist at the WNPRC who led the study, admits: “Overall, our diet was probably not as healthy.”
Further, the WNPRC control group probably ate more overall, because their meals were unlimited, whereas NIA monkeys were fed fixed amounts. As adults, control monkeys in the WNPRC study weighed more than their NIA counterparts. Overall, the WNPRC results might have reflected an unhealthy control group rather than a long-lived treatment group. “When we began these studies, the dogma was that a calorie is a calorie,” Ingram says. “I think it’s clear that the types of calories the monkeys ate made a profound difference.”
Researchers studying caloric restriction in mice have become accustomed to mixed results, which they attribute to genetic diversity among strains. Genetics probably explains part of the variation between the monkey studies, too, as the NIA monkeys were descended from lines from India and China, whereas the Wisconsin monkeys were all from India.
The molecular effects of caloric restriction have also turned out to be complicated. Using compounds such as resveratrol, found in red wine, scientists have triggered the stress response that caloric restriction activates, which shuts down non-vital processes in favour of those that ward off disease. But hopes that ageing could be delayed by targeting a single gene or protein in a single molecular pathway have faded, as researchers have learned that the key pathways vary according to the animal.“It may take us a decade to sort out longevity networks,” says David Sinclair, a geneticist at Harvard Medical School in Boston, Massachusetts.
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6 Comments
Add CommentIt looks like more studies are needed with standardization of diets, genetic make up of subjects, etc.
Reply | Report Abuse | Link to thisFor most Americans, at least, the relevant question is: will reducing fatty junk intake increase longevity?
Reply | Report Abuse | Link to thisThe underlying issue here is indeed, not merely the quantity, but also the quality of the food intake; I am constantly amazed at the unscientific omission of the vital factor : species-specific nutrition, especially here on our own home turf, that is, primate nutrition!
Reply | Report Abuse | Link to thisOur evolutionary roots as well as modern medicine regarding antioxidant effects of phytochemicals ( such as dark red resveratrol, clearly point at the importance of our 'colorific' plant food intake, rather than the outdated bias towards calorific assessment, when it comes to our optimal survival nutrition.
Epigenetics is the focus we need to factor in, before we blame our feeding habits and their negative consequences on 'genetics'. It takes two to tango!
vide the upcoming
Colorific Manifesto .
"Colorific Manifesto"? I think that perhaps you have embraced unsupported concepts rather than proven fact. The color of food is far less important than what nutritional value it has and a healthy diet does not require specific color ranges of food. It does require certain nutrients.
Reply | Report Abuse | Link to thisOn the contrary, it has been proven that the antioxidants are mainly to be found in the colour pigments of plants, which act like 'sunscreens'against the oxidative stress of solar radiation. To catch up on the role that colour pigments play in our own nutrition, thanks to our own evolution as primates, I suggest the excellent book by Professor Heber from U.C.L.A.: 'What Color Is Your Diet?"
Reply | Report Abuse | Link to thisThe Colorific Manifesto will be freely downloadable as an e book soon. See under Google, "Colour Eating.."
It also strikes me as bizarre how often/easily species-specific nutrition is over looked!
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