New Research Reveals Exercise as a Powerful Biological Intervention
Exercise does more than build strength or improve cardiovascular health — it literally reprograms the body at the molecular level, according to new research published in Nature Reviews Endocrinology. The findings, led by Professor John Hawley and Dr. Nolan Hoffman from the Australian Catholic University (ACU), show that regular physical activity reshapes molecular pathways throughout the body, offering new strategies for disease prevention and treatment.
“For chronic conditions like heart disease, obesity, and type 2 diabetes, these findings suggest a future where exercise is integrated into healthcare as a form of preventive medicine,” said Professor Hawley, director of ACU’s Mary MacKillop Institute for Health Research.
Mapping Two Decades of Exercise Metabolism
The ACU researchers reviewed over 20 years of scientific progress in human exercise metabolism, compiling a roadmap of molecular discoveries that explain why movement benefits nearly every system in the body. Their work reveals that exercise acts as a potent biological medicine — influencing thousands of molecules and biochemical reactions that maintain metabolic health.
“Twenty years ago, we knew exercise was good for you, but we didn’t understand the molecular machinery driving those effects,” said Dr. Hoffman. “Now, research is mapping the molecular blueprints of exercise — identifying how genes, proteins, and metabolites interact during endurance and strength training to produce specific health outcomes.”
How Exercise Reshapes Molecular Networks
Hawley and Hoffman highlight several landmark studies that uncovered how skeletal muscle and blood molecules respond dynamically to physical activity. These studies show that exercise activates a cascade of genes, proteins, and signaling molecules that coordinate energy use, immunity, and recovery across the body.
Dr. Hoffman explained that this process goes far beyond simple muscle movement. “Exercise orchestrates molecular communication throughout the body,” he said. “It triggers waves of gene activity in muscle tissue, activates immune and metabolic pathways in the bloodstream, and releases molecular ‘packages’ that send messages to other organs. Essentially, it rewires how the body functions at every level.”
Personalized Exercise Medicine on the Horizon
The study also points to the future of personalized exercise medicine. Scientists are beginning to identify molecular biomarkers that could predict how an individual’s body responds to specific types of exercise based on their genetic and metabolic profile. This approach could help tailor exercise programs to prevent or treat cardiometabolic diseases more effectively.
At ACU’s Melbourne campus, researchers are using advanced molecular tools — including the only human metabolic chamber in the southern hemisphere — to measure precise energy expenditure and metabolic responses during exercise. This technology allows scientists to better understand how different workouts affect human biology in real time.
“Exercise is not just movement,” said Hawley. “It’s a molecular conversation between cells, organs, and systems that transforms the body from the inside out. Understanding that conversation could unlock entirely new ways to treat and prevent disease.”

