Scientists to explore antioxidant overconsumption

Scientists to explore antioxidant overconsumption

AS free radicals build up in the environment, antioxidants may ward off some of their harmful health effects in people and animals.

However, free radicals have a silver lining, and too many antioxidants can do harm, according to researchers at Cornell University.

With a $1.4 million grant from the National Institutes of Health, the researchers will explore why that is in a project that could change preventive strategies and treatments for neurodegenerative diseases like Alzheimer's and Parkinson's and some forms of cancer.

Starting in January, Dr. Carolyn Sevier, assistant professor of molecular medicine at Cornell's College of Veterinary Medicine, will use her discovery of a benefit bestowed by oxygen-derived free radicals to launch a five-year study mapping how cells deal with oxidative stress.

Just as food spoils when exposed to oxygen, cells suffer oxidative stress when they are exposed to more reactive oxygen ions (free radicals) than they can handle, which they usually manage partly with certain vitamins and minerals (antioxidants).

"That's why antioxidants are hot in the popular press and companies push things like pomegranate powder. Some think consuming tons of antioxidants improves health, but that's not necessarily true," Sevier said. "It's true that reducing oxidative stress can lessen cell damage, but we're realizing that free radicals serve as useful messengers to cells, and completely quashing them can keep cells from forming their own protective defenses."

Free radicals form in the body as products of normal metabolism but also come from outside sources such as smoking, herbicides, pesticides and fatty foods. Their accumulation contributes to aging, cancer and most neurodegenerative disorders.

These unstable oxygen remnants have unpaired electrons that seek partners by taking electrons from other compounds, initiating a chain reaction of electron stealing that damages proteins and DNA, Sevier explained. Cells usually detoxify with antioxidants and other defense mechanisms that break down or neutralize free radicals by offering a spare electron. Thus, theories formed that suggested that eating more antioxidants would ward off disease.

"Sadly, this is an oversimplification," Sevier said. "For every time a study has made adding extra dietary antioxidants look good, another has shown the opposite. Our study seeks to understand this dissonance. Scientists are beginning to realize now that obliterating free radicals with antioxidants can keep cells too complacent to build beneficial protective pathways free radicals normally spur. We want to identify these advantageous pathways."

Sevier's study will build on her previous discovery of a cellular protein that acts like a switch free radicals turn on, initiating a signaling cascade that confers cellular benefits.

Volume:86 Issue:02

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