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Researchers identify promising model for studying human aging

MedicalXpress Breaking News-and-Events Jan 15, 2021

There are many components to aging, both mental and physical. When it comes to the infrastructure of the human body—the musculoskeletal system that includes muscles, bones, tendons and cartilage—age-associated decline is inevitable, and the rate of that decline increases the older we get. The loss of muscle function—and often muscle mass—is scientifically known as sarcopenia or dynapenia.

For adults in their 40s, sarcopenia is hardly noticeable—about 3% muscle mass is lost each decade. For those aged 65 years and older, however, muscle decline can become much more rapid, with an average loss of 1% muscle mass each year. More importantly, sarcopenia is also marked by a decrease in strength, impaired gait, reduced physical activity, or difficulty completing everyday tasks.

The proportion of older adults aged 65+ is projected to more than double by the year 2060, driving research into the process of musculoskeletal decline. Researchers at Colorado State University's Columbine Health Systems Center for Healthy Aging believe they have found an animal model that will help them better understand it and find ways to curtail the symptoms.

The study, published in Frontiers in Physiology: Striated Muscle in October, is an example of using comparative medicine to understand human diseases and conditions.

Animal models

Scientists often rely on animal models to mimic disease progression and study the prevention, diagnosis and treatment of conditions. However, until now, no animal model has been able to fully capture all aspects of human musculoskeletal aging.

"Existing preclinical models either rely on unloading the muscle, meaning mimicking bedrest in an animal, or they must wait until the animals get really, really old, and even then they don't really get the same muscle aging phenotype as people do," said Karyn Hamilton, a professor in the CSU Department of Health and Exercise Science, an associate director at the Center for Healthy Aging, and a researcher on the study.

In their work, Hamiliton's team found that the Dunkin Hartley guinea pig was a good candidate for a muscle aging model due to the animal's tendency to develop osteoarthritis (OA) at a young age.

The two conditions—OA and sarcopenia—seem to be linked in humans: With advancing age, skeletal muscle dysfunction increases the risk for OA, and OA increases the risk for further muscle decline.

Hamilton teamed up with Dr. Kelly Santangelo—an associate professor in the Department of Microbiology, Immunology, and Pathology at CSU, who has been studying primary OA in Hartley guinea pigs for many years—and Associate Professor Raoul Reiser, also in Department of Health and Exercise Science, to understand how skeletal muscle changes as OA progresses in guinea pigs.

The team hypothesized that those muscle changes might mimic human musculoskeletal aging.

Classic signs

Muscle composition also changes with age: fast-twitch fibers, which are larger and capable of exerting stronger forces, decrease in number, and slow-twitch fibers, which are smaller and less metabolically efficient, tend to increase. Generally when people "lose muscle mass," it's the large, fast-twitch fibers that are affected. With decreasing muscle mass also tends to come an increase in fat mass, or adipose tissue, in the body.

As humans age, it may be that maintaining muscle function is more important than preventing loss of mass.

"What we've learned over the decades is that age-related loss of muscle mass and age-related loss of muscle function don't always go hand in hand," Hamilton said. "You can do things to improve muscle mass, and you might not get an improvement in muscle function; you can do things to improve muscle function and may not get an increase in muscle mass."

The researchers compared muscle changes observed in Hartley guinea pigs with those in Strain 13 guinea pigs, which tend to develop OA later in their lifespan and, therefore, might not exhibit the same classic signs of muscle aging.

They found some striking similarities to human muscle aging, such as a decrease in muscle density, likely due to an increase in fat mass. While a decrease in muscle mass was not noted, researchers did find a shift toward smaller, slow-twitch muscle fibers, as is expected in human muscle with advancing age.

"If you look at the overall picture, we think that some of the key things that always happen with human muscle aging—that shift toward a less powerful, slower-twitch muscle phenotype—are quite clearly modeled in the Hartley guinea pigs," Hamilton said. "And we believe that if we started looking at even older guinea pigs, we might see more of the things that people think of as classic sarcopenia."

Future directions

This study provides a baseline that allows the team to take multiple directions in future research. One direction will be to employ functional tests to study how muscle strength and gait or mobility change with age in the Hartley guinea pigs, and how these changes mimic the deterioration of muscle function in aging humans.

A priority will be to identify if Hartley guinea pigs can be a valuable translational model for identifying interventions that show promise for preventing or slowing the decline in overall musculoskeletal function with aging in humans.

In fact, Hamilton and Santangelo have already begun treating the guinea pigs with plant-based phytochemicals that target a protective suite of genes. The treatment seems to reverse some signs of musculoskeletal aging at the molecular level by improving mitochondrial function as well as preventing joint deterioration and preserving aspects of gait that normally deteriorate with advancing age.

Overall, Hamilton says she hopes this work can provide researchers with another animal model for studying human aging, one that can "successfully translate preclinical findings and basic science discoveries to encouraging interventions to increase human health span or improve healthy aging."

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