Exercise Stimulates Brain Function Thanks to Its Effect on Muscles, Study Suggests

ReachMD Healthcare Image

05/15/2024

Share on Pinterest
Exercise gives the brain a boost, and may help protect against cognitive decline, but why? Image credit: NICK VEASEY/SCIENCE PHOTO LIBRARY/Getty Images.
  • Exercise can stimulate brain-boosting molecules when muscles are active, a new study found.
  • By innervating muscle-tissue models, researchers found that the same nerves that signal muscles to move can also send neurotrophic factors — a type of biomolecule — into the brain.
  • Some evidence suggests that exercise can reverse or delay the cognitive decline associated with aging, but experts say future studies should allow for time and variations among individuals to see how physical activity can affect this.

Exercise plays a role in brain health by triggering molecules involved in cognitive function to be released by muscles, a recent study has shown.

The study, published in Proceedings of the National Academy of Sciences, shows that when nerves that stimulate muscles are activated, they also send signals to the brain by secreting bioactive molecules and nanoparticles that enhance brain function.

The findings illustrate the importance of maintaining musculoskeletal health, not just for cardiovascular health or mobility, but also to counteract neurological degeneration, Hyunjoon Kong, PhD, Robert W Schafer Professor in the Department of Chemical and Biomolecular Engineering at the University of Illinois Urbana-Champaign, corresponding author of this study, told Medical News Today.

He explained that:

“Maintaining neuronal innervation is crucial for muscles to produce biological factors beneficial to the brain. With regular muscle contractions, muscles not only secrete these beneficial factors but also help sustain the innervation necessary for nerves to continue signaling muscles. This signaling is essential for regulating the release of neurotrophic factors into the brain.”

The study involved stimulating muscles with glutamate to see how nerve function would respond. Researchers used models of muscle tissue, one that was innervated and one that was not, and discovered that the innervated tissue sent more signals to the brain.

Since some of the neuron function in muscles can decrease with age or injury, researchers were interested in discovering how this loss would affect brain health.

In this study, the researchers did not observe people exercising. Rather, they looked at muscle models, meaning that it was not possible to draw immediate conclusions about particular forms of exercise and how they may vary in the way they interact with brain health.

Kong said that previous studies on exercise and brain health have found direct correlations between the size of the hippocampus and regular physical activity. But for this new study, the researchers examined the nervous system and musculoskeletal functions to achieve further understanding of brain-body interactions.

“Our study didn’t prove how exercise can improve cognitive function directly,” Kong cautioned. ”Several studies have already demonstrated that regular exercise can enhance cognitive function in adults. In these studies, participants were asked to do regular exercise, and the changes in the size of their hippocampi were monitored.”

“Findings indicate that individuals who perform aerobic exercises regularly tend to have larger hippocampi and exhibit improved performance on spatial memory tests. What we focused on was how neurons connected with muscle influence one of the cross-talk routes between muscle and brain.”

– Hyunjoon Kong, PhD

Ryan Glatt, CPT, NBC-HWC, senior brain health coach and director of the FitBrain Program at Pacific Neuroscience Institute in Santa Monica, CA, not involved in this research, told MNT that it would certainly take time to fully comprehend the effects of exercise on the brain, and future studies that used human participants would have to allow for that.

“The duration needed to observe the effects of exercise on cognitive function can vary based on the type, intensity, and frequency of exercise, as well as individual differences in age, baseline cognitive function, and health status,” Glatt said.

“Research typically indicates observable effects within a range of a few weeks to several months. It’s crucial for subsequent studies to consider these variables to accurately assess the timeframe,” he noted.

There are some notable benefits to regular exercise for brain health. Boxing, for example, has been used to help people with Parkinson’s disease.

Glatt acknowledged that certain forms of exercise may be more effective than others for enhancing brain health, especially activities that require cognitive function.

“Aerobic exercises, like running, swimming, and cycling, which improve cardiovascular health, are widely noted for their positive impacts on brain function,” he said.

“However, activities that combine physical and cognitive demands — such as dance and team sports — may offer additional benefits due to their requirement for coordination, rhythm, and executive functions,” he added.

Kong suggested that physical activity can potentially reverse or delay the cognitive decline associated with getting older.

“As individuals age, they gradually lose the well-formed neuromuscular junctions between nerves and muscles, impairing the muscles’ ability to be regulated by nerve signals and subsequently reducing their capacity to secrete factors critical for brain function,” Kong explained.

“With appropriate training or stimulation for muscle contractions, muscles can produce factors that help maintain these neuromuscular junctions, thus preventing denervation. As a result, elderly individuals can still possess functional innervated muscles capable of producing important factors that enhance cognitive function in the brain,” he noted.

Glatt pointed out that a sedentary lifestyle, with relatively low levels of physical activity, can be associated with a higher risk of cognitive decline.

But he cautioned that there are a number of variations among individuals regarding genetics, lifestyle choices, and environmental factors.

“Exercise is increasingly recognized as a supportive intervention for individuals with compromised cognitive functions, including those affected by age-related declines or conditions like Alzheimer’s disease. Physical activity can enhance blood flow to the brain, reduce inflammation, and stimulate the release of growth factors, which may help to maintain or improve cognitive function,” Glatt said.

“While exercise is beneficial for maintaining cognitive health and potentially slowing the progression of decline, the evidence on its ability to reverse existing cognitive impairment is still inconclusive. Most studies suggest that exercise can contribute to a slower rate of decline and better overall brain health but reversing established cognitive deficits requires more extensive research,” he cautioned.

Register

We're glad to see you're enjoying Global Neurology Academy…
but how about a more personalized experience?

Register for free