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It鈥檚 so obvious that exercise is a healthy habit that it almost goes without saying. Scientists have known for years that physical activity lowers the risk of cancer, heart disease, stroke and diabetes, among other benefits.

What might come as a surprise is that researchers still don鈥檛 know why being physically fit is beneficial, especially on a molecular level.

A massive, first-of-its-kind study to map out those molecular changes reached a milestone this month as a group of 25 universities and research centers across the nation, including the University of Florida, published its first major joint paper. After several years of work, the Molecular Transducers of Physical Activity Consortium, or MoTrPAC, published a paper in the journal Cell that outlines the investigation鈥檚 organization and clinical study protocols.

Protocols describe study objectives, design, methods and steps used to protect participants, among other considerations.

It鈥檚 a major step for the $170 million study, funded by the National Institutes of 网红黑料, or NIH, that combines both preclinical and clinical studies, with an expected enrollment of up to 2,600 participants. (Recruitment is currently paused because of the COVID-19 pandemic.)

鈥淭his is a very complex project,鈥� said , director of the and chair of the UF College of Medicine鈥檚 department of aging and geriatric research, part of 网红黑料. 鈥淚t鈥檚 never been attempted to try and put together such a broad range and array of competencies. We all speak different scientific languages. We鈥檝e been working for three years to get together a common protocol on which everyone agrees. It鈥檚 a landmark paper.鈥�

In conjunction with scientists at Wake Forest University and the University of Vermont, Pahor leads the consortium鈥檚 coordinating center under a grant totaling $9.4 million. , associate program director of the , was awarded $2.2 million to lead one of MoTrPAC鈥檚 preclinical animal study sites. Other preclinical sites are the University of Iowa and the Joslin Diabetes Center in Boston. Esser, a professor in the UF College of Medicine鈥檚 department of physiology and functional genomics, said MoTrPAC animal studies already are far along.

The study is examining the effects of exercise on humans in the short term and over time.

In ongoing animal studies, scientists are examining the impact of exercise on more than 17 organs, including the heart, brain, kidneys and other tissues.

鈥淭he idea is that exercise is resulting in a systemic effect,鈥� said Esser. 鈥淎nd these things don鈥檛 work in isolation. These cells and tissues are all talking to each other. This study has the potential to uncover these systemwide beneficial effects.鈥�

Esser said a 鈥渢remendous strength鈥� of MoTrPAC is that it combines preclinical animal and human clinical trials. The results from each are equally important and address different scientific questions, she said.

鈥淭he early results from the preclinical outcomes emerging now will be really helpful for interpreting some of the human outcomes,鈥� Esser said. 鈥淎nd the human outcomes will inform the preclinical studies.鈥�

Knowing how exercise changes chemical molecules in the body could eventually lead to more targeted types of physical activity and perhaps even pharmaceuticals that might mimic some of the changes exercises brings about in the body.

鈥淭he metabolic pathways can perhaps be modulated pharmacologically or hormonally to mimic exercise to produce benefits in people who cannot exercise or don鈥檛 want to,鈥� Pahor said.

Eleven clinical sites across the country, 10 for adults and one for those under 18 years old, were recruiting people from diverse racial and ethnic groups until the pandemic hit. They will examine how molecular signals are altered following changes in exercise patterns.

NIH officials, who call the study the largest research program of its kind, noted the large study size is meant to account for person-to-person variation, and to reveal differences based on demographics like age, race and gender.

鈥淢oTrPAC was launched to fill an important gap in exercise research,鈥� said NIH Director Francis S. Collins, M.D., Ph.D. 鈥淚t shifts focus from a specific organ or disease to a fundamental understanding of exercise at the molecular level 鈥� an understanding that may lead to personalized, prescribed exercise regimens based on an individual鈥檚 needs and traits.鈥�

NIH officials said the data from the study will be made available to researchers worldwide to bring new perspectives to the topic.

This work was conducted as part of the Molecular Transducers of Physical Activity Consortium funded by the NIH under award numbers and .