Antibiotics wreak havoc on athletic performance

Antibiotics wreak havoc on athletic performance
10 days of antibiotics reduced the adult gut microbiome from millions of aerobic colony-forming units to a non-detectable amount. Credit: Monica McNamara/UCR

New research demonstrates that by killing essential gut bacteria, antibiotics ravage athletes' motivation and endurance. The UC Riverside-led mouse study suggests the microbiome is a big factor separating athletes from couch potatoes.

Other studies have examined the way that exercise affects the , but this study is one of few to examine the reverse—how also impact voluntary exercise behaviors. Voluntary exercise involves both motivation and athletic ability.

The researchers' methods and results are now detailed in the journal Behavioural Processes.

"We believed an animal's collection of gut bacteria, its microbiome, would affect digestive processes and muscle function, as well as motivation for various behaviors, including exercise," said Theodore Garland, UCR evolutionary physiologist in whose lab the research was conducted. "Our study reinforces this belief."

Researchers confirmed through fecal samples that after 10 days of antibiotics, gut bacteria were reduced in two groups of mice: some bred for high levels of running, and some that were not.

Neither group of mice exhibited any signs of sickness behavior from the antibiotic treatment. So, when wheel running in the athletic mice was reduced by 21 percent, researchers were certain the microbiome damage was responsible. In addition, the high runner mice did not recover their running behavior even 12 days after the antibiotic treatment stopped.

The behavior of the normal mice was not significantly affected either during the treatment, or afterward.

Antibiotics wreak havoc on athletic performance
Lead author Monica McNamara counting anaerobic plates. Credit: Monica McNamara/UCR

"A casual exerciser with a minor injury wouldn't be affected much. But on a world-class athlete, a small setback can be much more magnified," said Monica McNamara, UCR doctoral student and the paper's first author. "That's why we wanted to compare the two types of mice." Knocking out the normal gut microbiome might be compared with an injury.

One way the microbiome might affect exercise in mice or in humans is through its ability to transform carbohydrates into chemicals that travel through the body and affect muscle performance.

"Metabolic end products from bacteria in the gut can be reabsorbed and used as fuel," Garland said. "Fewer good bacteria means less available fuel."

Moving forward, the researchers would like to identify the specific bacteria responsible for increased athletic performance. "If we can pinpoint the right microbes, there exists the possibility of using them as a therapeutic to help average people exercise more," Garland said.

A lack of exercise is known to be a major risk factor for aspects of mental health, including depression, as well as , including , diabetes, obesity, cardiovascular disease, cancer, and osteoporosis. Many in the public health community would like to promote exercise, but few have found ways to do it successfully.

"Though we are studying , their physiology is very similar to humans. The more we learn from them, the better our chances of improving our own health," Garland said.

Certain foods may also increase desirable gut . While research into "probiotics" is developing, Garland recommends that those interested in promoting overall health maintain a in addition to regular exercise.

"We do know from previous studies that the western diet, high in fat and sugar, can have a on biodiversity in your gut and likely, by extension, on athletic ability and possibly even on motivation to ," Garland said.

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More information: Monica P. McNamara et al, Oral antibiotics reduce voluntary exercise behavior in athletic mice, Behavioural Processes (2022). DOI: 10.1016/j.beproc.2022.104650
Journal information: Behavioural Processes

Citation: Antibiotics wreak havoc on athletic performance (2022, June 1) retrieved 7 August 2022 from
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