Association between fitness and survival suggests a link between impaired oxygen metabolism and disease
Posted By: News-Medical in Medical Research News
Published: Wednesday, 26-Jan-2005
Research published in the current issue of Science magazine reinforces the belief that aerobic capacity is an important determinant in the continuum between health and disease.
"Our data clearly show that the some of the major health problems of today, namely obesity, hypertension, and insulin resistance, are strongly influenced by our genes," said Steven Swoap, associate professor of biology at Williams Colleges, a member of the research team. "Coupled with our current environment of physical inactivity and over-abundance of food, this "metabolic syndrome" will become the primary health issue of the 21st century"
The research paper is titled "Cardiovascular Risk Factors from Artificial Selection for Low Aerobic Capacity in Rats."
Along with researchers from the Norwegian University of Science and Technology; St. Olav's Hospital in Trondhelm, Norway; the Medical College of Ohio; and the University of Michigan, Swoap examined rats that had been genetically selected for high or low proficiency in endurance running.
"In humans, the strong statistical association between fitness and survival suggests a link between impaired oxygen metabolism and disease," the article reports. "[Indeed,] after 11 generations, rats with low aerobic capacity scored high on cardiovascular risk factors that constitute the metabolic syndrome."
Swoap's research "supports the notion that impaired regulation of oxidative pathways in mitochondria may be a common factor liking reduced total-body aerobic capacity to cardiovascular and metabolic disease."
His research has been published in the American Journal of Physiology, the Journal of Experimental Biology and the Journal of Applied Physiology and is supported through multi-year grants from the National Institutes of Health (NIH) and the National Science Foundation (NSF). The NIH awarded him nearly $100,000 to determine why skeletal muscle becomes more fatigable after disuse, and the NSF has funded his research on the mechanism of how restricting caloric intake lowers blood pressure, with grants totaling more than $700,000.
In 2001, Swoap won the Arthur C. Guyton Award for Excellence in Integrative Physiology from the American Physiological Society, for demonstrating outstanding promise in his research program in physiology. He was also invited to give a lecture on "Molecular Biology in Skeletal Muscles" at the 2001 meeting of the New England American College of Sports Medicine and was the winner of the American College of Sports Medicine New Investigator Award in 2000.
Swoap is the chair of the biochemistry and molecular biology program at Williams College, where he has taught since 1996. His research has focused on the molecular bases of changes in muscle physiology, and how muscle fibers change as a result of exercise. In addition to courses on physiology, Swoap teaches the popular "Biology of Exercise and Nutrition" class, which attracted over 10 percent of the student body its first year offered.
He earned his B.S. in biology from Trinity University in 1990 and his Ph.D. in physiology and biophysics from the University of California at Irvine in 1994. He did post-doctoral work at the University of Texas Southwestern Medical Center in Dallas.
Science is published by the American Association for the Advancement of Science, an international non-profit organization with a mission to "advance science and serve society" through initiatives in science policy, international programs, science education and the publication of scientific newsletters, books and reports.
http://www.williams.edu/
