We know that exercise is good for you. But why, and how? The National Institutes of Health today (Dec. 13) announced a six-year, $170 million nationwide project to dig deep into the molecular changes that come from physical activity, and how they influence health.
Sue Bodine and Keith Baar, both professors in the Department of Physiology and Membrane Biology at the University of California, Davis, and College of Biological Sciences, are taking part in the effort.
“We have long understood that exercising is beneficial to our overall health, but don’t fully understand the impact of exercise at the molecular level,” said NIH Director Francis S. Collins, M.D., Ph.D. “The development of a so-called molecular map of circulating signals produced by physical activity will allow us to discover, at a fundamental level, how physical activity affects our health. This knowledge should allow researchers and doctors to develop individually targeted exercise recommendations and better help those who are unable to exercise.” Learn more about the program in this video interview from Collins.
The Molecular Transducers of Physical Activity Consortium (MoTrPAC) will include seven clinical centers across the country, including one at UC Irvine focused on children. The clinical centers will recruit people from diverse racial and ethnic groups, aged from childhood to old age, and examine how molecular signals are altered by exercise.
The UC Davis researchers will run one of three centers using rats as a model to understand exercise physiology. Working in tandem with the clinical centers, the animal model will allow researchers to more fully explore the effects of exercise on organs and body systems.
More Than Building Muscle
Understanding the role of exercise in health is increasingly important as our lives become more sedentary, Bodine said.
“The general population is inactive, and it’s getting worse,” she said. Your doctor might recommend that you take exercise or become more active, but physicians aren’t trained in how to prescribe different types of exercise for different needs. Exercise is known to affect mood and cognition as well as physical attributes such as heart health and muscle strength, but the mechanisms are largely unknown.
“Nobody would question that exercise is good for you,” Bodine said. “What we don’t understand is, what are the signals and pathways that lead from exercise to improved health.”
Among the questions the consortium hopes to answer are how different kinds of exercise, such as endurance exercises such as running or resistance exercise such as weightlifting, affect health, and how the effects of exercise change over our lifespan.
“When we think about exercise, we think about muscle, heart and lungs, but we also know that exercise has effects on the brain, on cognition, on cancer prevention. How does exercise do these things?” Bodine said.
Other centers will carry out analytical work on tissue samples from both human and animals. The resulting data and tissue banks will be available to other researchers.
The UC Davis share of the grant will be approximately $2.3 million.
The consortium is funded through the NIH Common Fund and managed by the National Institute of Arthritis and Musculoskeletal and Skin Diseases, National Institute of Diabetes and Digestive and Kidney Diseases, National Institute on Aging, and National Institute of Biomedical Imaging and Bioengineering.
More information: commonfund.nih.gov/MolecularTransducers/overview