Gut Microbiome Plays Role in Older Adults' Strength

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  • The gut microbiome may play a role in older adults' muscle strength.

  • A small study found that older adults who were more physically active had bacterial differences compared to sedentary older adults.

  • The researchers then colonized mice with fecal samples from the two sets of adults and found that mice who received the physically active bacteria had increased grip strength.

  • Neither body composition or endurance were altered in either sets of mice.

  • Although it was a small sample size, researchers will continue to look into the role that the gut microbiome plays in physical function.

This article was first published on Tufts Now.

A novel new study suggests that the gut microbiome has a role in mechanisms related to muscle strength in older adults. The work, led by researchers at the Jean Mayer USDA Human Nutrition Research Center on Aging (HNRCA) at Tufts, is available as a pre-proof in advance of print in Experimental Gerontology.

The gut-muscle axis, or the relationship between gut microbiota and muscle mass and physical function, has gained momentum as a research topic in the last few years as studies have established that gut microbiota influences many aspects of health. While researchers have begun exploring the connection between the gut microbiome, muscle, and physical function in mice and younger adults, few studies have been conducted with older adults.

To gain insight into this population, the researchers compared bacteria from the gut microbiomes of 18 older adults with high-physical function and a favorable body composition (higher percentage of lean mass, lower percentage of fat mass) with 11 older adults with low-physical function and a less favorable body composition. The small study identified differences in the bacterial profiles between the two groups.

Similar bacterial differences were present when mice were colonized with fecal samples from the two human groups, and grip strength was increased in mice colonized with samples from the high-functioning older adults, suggesting a role for the gut microbiome in mechanisms related to muscle strength in older adults.

Specifically, when compared to the low-functioning older adult group, the researchers found higher levels of Prevotellaceae, Prevotella, Barnesiella, and Barnesiella intestinihominis—all potentially good bacteria—in the high-functioning older adults and in the mice that were colonized with fecal samples from the high-functioning older adults.

No significant differences in body composition or endurance capacity were observed in the colonized mice; however, the researchers note that the length of the intervention period was short and these data may warrant further study.

“While we were surprised that we didn’t identify a role for the gut microbiome on the maintenance of body composition, with these results we now start to understand the role of gut bacteria on the maintenance of muscle strength in older adults,” said Michael Lustgarten, last and corresponding author on the study and a researcher in the Nutrition, Exercise Physiology & Sarcopenia (NEPS) Laboratory at the HNRCA. “For example, if we were to conduct an intervention to increase Prevotella levels in the gut microbiome, we would expect to see an increase in muscle strength if these bacteria are involved. Prevotella’s role in the maintenance of muscle strength in older adults is one area we expect to continue to explore.”

“As we age, body composition, muscle strength, and lean mass all decrease,” said first author Roger Fielding, director of the NEPS Laboratory at the HNRCA. “Identifying differences in bacteria present in the high-functioning and low-functioning groups in this study moves us toward a fuller understanding of both the gut microbiome and healthy aging.”

For the study, the researchers measured lower extremity function, mobility, and strength in the sedentary older adult group (ages 70-85) at the first and one-month study visits. In the mice, they measured body composition with quantitative magnetic resonance imaging, and grip strength and treadmill endurance capacity to test physical function. Fecal samples from the older adults were transplanted into young, gender-matched germ-free mice. Four weeks after fecal transfer, the researchers measured body composition, physical function, and gut microbiome in the 18 mice colonized with fecal samples from the high-functioning human group and the 18 mice colonized with fecal samples from the low-functioning human group.

The authors note the small sample size and brief time period as potential study limitations.

This study was published in Science Direct in September 2019.

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