AI Article Synopsis
- Fsp27 is a protein linked to lipid droplet regulation in fat cells, but its role in muscle function was previously unknown.
- This study found that mice lacking Fsp27 showed significantly reduced muscle endurance and strength compared to normal mice, while glycogen levels remained consistent.
- The research indicates that Fsp27 is crucial for fat storage in muscles and directly affects muscle performance, highlighting a metabolic paradox where Fsp27-knockout mice have healthy glucose metabolism but poor exercise capacity.
Article Abstract
Fsp27 was previously identified as a lipid droplet-associated protein in adipocytes. Various studies have shown that it plays a role in the regulation of lipid homeostasis in adipose tissue and liver. However, its function in muscle, which also accumulate and metabolize fat, remains completely unknown. Our present study identifies a novel role of Fsp27 in muscle performance. Here, we demonstrate that Fsp27 and Fsp27 mice, both males and females, had severely impaired muscle endurance and exercise capacity compared with wild-type controls. Liver and muscle glycogen stores were similar among all groups fed or fasted, and before or after exercise. Reduced muscle performance in Fsp27 and Fsp27 mice was associated with severely decreased fat content in the muscle. Furthermore, results in heterozygous Fsp27 mice indicate that Fsp27 haploinsufficiency undermines muscle performance in both males and females. In summary, our physiological findings reveal that Fsp27 plays a critical role in muscular fat storage, muscle endurance, and muscle strength. This is the first study identifying Fsp27 as a novel protein associated with muscle metabolism. The Fsp27-knockout model shows that Fsp27 plays a role in muscular-fat storage, muscle endurance, and muscle strength, which ultimately impacts limb movement. In addition, our study suggests a potential metabolic paradox in which FSP27-knockout mice presumed to be metabolically healthy based on glucose utilization and oxidative metabolism are unhealthy in terms of exercise capacity and muscular performance.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC8957325 | PMC |
| http://dx.doi.org/10.1152/ajpendo.00255.2021 | DOI Listing |
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