BUFFALO, NY — November 11, 2025 — A new #research paper was #published in Volume 17, Issue 10 of Aging-US on October 1, 2025, titled “L-β-aminoisobutyric acid (L-BAIBA) in combination with voluntary wheel running exercise enhances musculoskeletal properties in middle-age male mice.”
In this study led by first author Julian A. Vallejo and corresponding author Michael J. Wacker from the University of Missouri, Kansas City, researchers investigated how L-β-aminoisobutyric acid (L-BAIBA), a natural compound released during exercise, works together with regular physical activity to improve muscle and bone health in middle-aged male mice. The findings may support new strategies to maintain musculoskeletal health in aging populations, especially those at risk for mobility loss or osteoporosis.
Muscle and bone strength naturally decline with age, increasing the risk of falls, fractures, and reduced quality of life. While exercise remains the most effective way to counteract this deterioration, it is often difficult for older individuals to maintain sufficient activity levels to see results. L-BAIBA, a molecule naturally produced during physical activity, is known to promote energy metabolism and support muscle and bone cells. This study explored its potential to work in synergy with endurance exercise to maximize health benefits in aging bodies.
Researchers studied 12-month-old male mice that were split into different groups. Some remained sedentary, while others exercised freely on running wheels. Half of each group received daily L-BAIBA supplementation. After three months, the mice that received both the supplement and exercise showed greater improvements than those receiving either one alone. The soleus, a slow-twitch muscle essential for endurance and balance, grew larger and stronger only in the combined treatment group. These muscles also shifted to a more fatigue-resistant fiber type and had a larger number of oxidative fibers.
“To investigate this hypothesis, we subjected 12-month-old (as a model of middle-age) male C57BL6 mice to voluntary wheel running (VWR) with L-BAIBA (100mg/kg/day) (VWR+L-BAIBA), VWR alone, L-BAIBA alone, or none (CTRL) for three months.”
The study also showed significant improvements in bone health. Mice that received both exercise and L-BAIBA developed thicker and denser trabecular bone, along with reduced fat levels in the bone marrow, indicators of stronger, healthier bones. These changes were not observed in the groups that only exercised or only received L-BAIBA. Although the compound caused minor changes in heart electrical activity, it did not affect heart size or overall function, suggesting it is safe in this setting.
These findings suggest that L-BAIBA may enhance the benefits of physical activity by supporting muscle strength and bone structure, particularly in slow-twitch muscle fibers. This combination could serve as a therapeutic strategy to help older adults, including those unable to engage in regular exercise, maintain musculoskeletal health.
As the aging population grows, there is a growing need for solutions that support muscle and bone health without requiring strenuous activity. This research highlights the potential of natural, exercise-related molecules like L-BAIBA to help maintain mobility and strength throughout aging.
DOI - https://doi.org/10.18632/aging.206325
Corresponding author - Michael J. Wacker — wackerm@umkc.edu
Abstract video - https://www.youtube.com/watch?v=A-zfrLUikfQ
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BUFFALO, NY — November 11, 2025 — A new #research paper was #published in Volume 17, Issue 10 of Aging-US on October 1, 2025, titled “L-β-aminoisobutyric acid (L-BAIBA) in combination with voluntary wheel running exercise enhances musculoskeletal properties in middle-age male mice.”
In this study led by first author Julian A. Vallejo and corresponding author Michael J. Wacker from the University of Missouri, Kansas City, researchers investigated how L-β-aminoisobutyric acid (L-BAIBA), a natural compound released during exercise, works together with regular physical activity to improve muscle and bone health in middle-aged male mice. The findings may support new strategies to maintain musculoskeletal health in aging populations, especially those at risk for mobility loss or osteoporosis.
Muscle and bone strength naturally decline with age, increasing the risk of falls, fractures, and reduced quality of life. While exercise remains the most effective way to counteract this deterioration, it is often difficult for older individuals to maintain sufficient activity levels to see results. L-BAIBA, a molecule naturally produced during physical activity, is known to promote energy metabolism and support muscle and bone cells. This study explored its potential to work in synergy with endurance exercise to maximize health benefits in aging bodies.
Researchers studied 12-month-old male mice that were split into different groups. Some remained sedentary, while others exercised freely on running wheels. Half of each group received daily L-BAIBA supplementation. After three months, the mice that received both the supplement and exercise showed greater improvements than those receiving either one alone. The soleus, a slow-twitch muscle essential for endurance and balance, grew larger and stronger only in the combined treatment group. These muscles also shifted to a more fatigue-resistant fiber type and had a larger number of oxidative fibers.
“To investigate this hypothesis, we subjected 12-month-old (as a model of middle-age) male C57BL6 mice to voluntary wheel running (VWR) with L-BAIBA (100mg/kg/day) (VWR+L-BAIBA), VWR alone, L-BAIBA alone, or none (CTRL) for three months.”
The study also showed significant improvements in bone health. Mice that received both exercise and L-BAIBA developed thicker and denser trabecular bone, along with reduced fat levels in the bone marrow, indicators of stronger, healthier bones. These changes were not observed in the groups that only exercised or only received L-BAIBA. Although the compound caused minor changes in heart electrical activity, it did not affect heart size or overall function, suggesting it is safe in this setting.
These findings suggest that L-BAIBA may enhance the benefits of physical activity by supporting muscle strength and bone structure, particularly in slow-twitch muscle fibers. This combination could serve as a therapeutic strategy to help older adults, including those unable to engage in regular exercise, maintain musculoskeletal health.
As the aging population grows, there is a growing need for solutions that support muscle and bone health without requiring strenuous activity. This research highlights the potential of natural, exercise-related molecules like L-BAIBA to help maintain mobility and strength throughout aging.
DOI - https://doi.org/10.18632/aging.206325
Corresponding author - Michael J. Wacker — wackerm@umkc.edu
Abstract video - https://www.youtube.com/watch?v=A-zfrLUikfQ
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TRF1 Protein Loss Reduces Fat and Improves Metabolic Health in Mice Without Shortening Telomeres
Aging-US
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2 weeks ago
TRF1 Protein Loss Reduces Fat and Improves Metabolic Health in Mice Without Shortening Telomeres
BUFFALO, NY — October 27, 2025 — A new #research paper was #published in Volume 17, Issue 9 of Aging-US on September 17, 2025, titled “Depletion of the TRF1 telomere-binding protein leads to leaner mice with altered metabolic profiles.”
In this study led by first author Jessica Louzame Ruano and corresponding author Maria A. Blasco from the Spanish National Cancer Centre (CNIO), researchers investigated the role of TRF1, a protein known for protecting telomeres, in regulating whole-body metabolism. The results suggest that TRF1 influences metabolic health through mechanisms unrelated to its known function in telomere maintenance.
Obesity and metabolic disorders are major health concerns, especially as people age. To explore TRF1’s role beyond telomere protection, the research team studied both normal mice and genetically modified mice that lacked TRF1. Mice without TRF1 remained leaner over time, resisted fat accumulation, and showed healthier blood sugar and insulin levels compared to normal mice. Importantly, these benefits occurred without any detectable shortening of telomeres.
The leaner body composition in TRF1-deficient mice was not due to reduced food intake or increased physical activity. Instead, the fat loss appeared to result from biological changes in how energy was processed and stored. Male mice without TRF1 gained less weight and had lower LDL cholesterol levels, even on a high-fat diet. Female mice showed milder effects, reflecting known sex-based differences in susceptibility to diet-induced obesity. This highlights the importance of including both sexes in metabolic research.
“Major metabolic pathways related with energy production and regulation of metabolism homeostasis were also found downregulated in Trf1-deficient mice.”
Gene expression analysis in the liver revealed shifts in several key pathways. Genes related to fat production, energy generation, and muscle growth were downregulated, while genes linked to inflammation and cholesterol synthesis were upregulated. The mice also showed signs of higher energy expenditure and a shift from using fat to protein as an energy source, possibly due to their reduced fat reserves. However, some older mice developed mild liver stress, including fibrosis and DNA damage, suggesting a possible long-term trade-off.
Overall, this study expands the understanding of how telomere-related proteins influence more than just cellular aging. By identifying a connection between TRF1 and metabolism, the research opens new possibilities for targeting TRF1 or its pathways to address obesity and related conditions. Still, further studies are needed to clarify how TRF1 affects fat development and whether similar effects occur in humans.
DOI - https://doi.org/10.18632/aging.206320
Corresponding author - Maria A. Blasco — mblasco@cnio.es
Abstract video - https://www.youtube.com/watch?v=7AG3TBgDZIw
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Keywords - aging, Trf1, metabolism, leaner, fat, telomeres
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Aging-US
BUFFALO, NY — November 11, 2025 — A new #research paper was #published in Volume 17, Issue 10 of Aging-US on October 1, 2025, titled “L-β-aminoisobutyric acid (L-BAIBA) in combination with voluntary wheel running exercise enhances musculoskeletal properties in middle-age male mice.”
In this study led by first author Julian A. Vallejo and corresponding author Michael J. Wacker from the University of Missouri, Kansas City, researchers investigated how L-β-aminoisobutyric acid (L-BAIBA), a natural compound released during exercise, works together with regular physical activity to improve muscle and bone health in middle-aged male mice. The findings may support new strategies to maintain musculoskeletal health in aging populations, especially those at risk for mobility loss or osteoporosis.
Muscle and bone strength naturally decline with age, increasing the risk of falls, fractures, and reduced quality of life. While exercise remains the most effective way to counteract this deterioration, it is often difficult for older individuals to maintain sufficient activity levels to see results. L-BAIBA, a molecule naturally produced during physical activity, is known to promote energy metabolism and support muscle and bone cells. This study explored its potential to work in synergy with endurance exercise to maximize health benefits in aging bodies.
Researchers studied 12-month-old male mice that were split into different groups. Some remained sedentary, while others exercised freely on running wheels. Half of each group received daily L-BAIBA supplementation. After three months, the mice that received both the supplement and exercise showed greater improvements than those receiving either one alone. The soleus, a slow-twitch muscle essential for endurance and balance, grew larger and stronger only in the combined treatment group. These muscles also shifted to a more fatigue-resistant fiber type and had a larger number of oxidative fibers.
“To investigate this hypothesis, we subjected 12-month-old (as a model of middle-age) male C57BL6 mice to voluntary wheel running (VWR) with L-BAIBA (100mg/kg/day) (VWR+L-BAIBA), VWR alone, L-BAIBA alone, or none (CTRL) for three months.”
The study also showed significant improvements in bone health. Mice that received both exercise and L-BAIBA developed thicker and denser trabecular bone, along with reduced fat levels in the bone marrow, indicators of stronger, healthier bones. These changes were not observed in the groups that only exercised or only received L-BAIBA. Although the compound caused minor changes in heart electrical activity, it did not affect heart size or overall function, suggesting it is safe in this setting.
These findings suggest that L-BAIBA may enhance the benefits of physical activity by supporting muscle strength and bone structure, particularly in slow-twitch muscle fibers. This combination could serve as a therapeutic strategy to help older adults, including those unable to engage in regular exercise, maintain musculoskeletal health.
As the aging population grows, there is a growing need for solutions that support muscle and bone health without requiring strenuous activity. This research highlights the potential of natural, exercise-related molecules like L-BAIBA to help maintain mobility and strength throughout aging.
DOI - https://doi.org/10.18632/aging.206325
Corresponding author - Michael J. Wacker — wackerm@umkc.edu
Abstract video - https://www.youtube.com/watch?v=A-zfrLUikfQ
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