TY - JOUR
T1 - Fsp27 plays a crucial role in muscle performance
AU - Slayton, Mark
AU - Balakrishnan, Bijinu
AU - Gupta, Abhishek
AU - Jobe, Scott
AU - Puri, Ishika
AU - Neely, Savannah
AU - Tamori, Yoshikazu
AU - Russ, David W.
AU - Yildirim, Gozde
AU - Yakar, Shoshana
AU - Sharma, Vishva M.
AU - Puri, Vishwajeet
N1 - Publisher Copyright:
Copyright © 2022 the American Physiological Society
PY - 2022/4
Y1 - 2022/4
N2 - 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. NEW & NOTEWORTHY 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.
AB - 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. NEW & NOTEWORTHY 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.
KW - Cidea
KW - Cidec
KW - diabetes
KW - fat metabolism
KW - lipid droplets
KW - lipids
KW - obesity
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U2 - 10.1152/AJPENDO.00255.2021
DO - 10.1152/AJPENDO.00255.2021
M3 - Article
C2 - 35157807
AN - SCOPUS:85128001636
SN - 0193-1849
VL - 322
SP - E331-E343
JO - American Journal of Physiology - Endocrinology and Metabolism
JF - American Journal of Physiology - Endocrinology and Metabolism
IS - 4
ER -