Pooreum Lim, Sang Woo Woo, Jihye Han, Young Lim Lee, Jae Ho Shim, Hyeon Soo Kim
{"title":"丹参素钠通过CaMKII-PGC1α-FoxO3a信号通路缓解d -半乳糖诱导的肌肉萎缩。","authors":"Pooreum Lim, Sang Woo Woo, Jihye Han, Young Lim Lee, Jae Ho Shim, Hyeon Soo Kim","doi":"10.1096/fj.202402158R","DOIUrl":null,"url":null,"abstract":"<p>Sarcopenia is an age-related muscle atrophy syndrome characterized by the loss of muscle strength and mass. Although many agents have been used to treat sarcopenia, there are no successful treatments to date. In this study, we identified Danshensu sodium salt (DSS) as a substantial suppressive agent of muscle atrophy. We used a D-galactose (DG)-induced aging-acceleration model, both in vivo and in vitro, to confirm the effect of DSS on sarcopenia. DSS inhibits the expression of muscle atrophy-related factors (MuRF1, MAFbx, myostatin, and FoxO3a) in DG-induced mouse C2C12 and human skeletal muscle cells. Additionally, DSS restored the diameter of reduced C2C12 myotubes. Next, we demonstrated that DSS stimulates AMPK and PGC1α through CaMKII. DSS inhibits the translocation of FoxO3a into the nucleus, thus inhibiting muscle atrophy in a calcium-dependent manner. DSS initiated the protein–protein interaction between FoxO3a and PGC1α. The reduction of the PGC1α-FoxO3a interaction by DG was restored by DSS. Also, DSS suppressed increased intracellular reactive oxygen species (ROS) by DG. In animal models, DSS administration improved mouse muscle mass and physical performance (grip strength and hanging test) under DG-induced accelerated aging conditions. These findings demonstrated that DSS attenuates muscle atrophy by inhibiting the expression of muscle atrophy-related factors. Therefore, DSS may be a potential therapeutic agent for the treatment of sarcopenia.</p>","PeriodicalId":50455,"journal":{"name":"The FASEB Journal","volume":"39 2","pages":""},"PeriodicalIF":4.4000,"publicationDate":"2025-01-21","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"https://www.ncbi.nlm.nih.gov/pmc/articles/PMC11748827/pdf/","citationCount":"0","resultStr":"{\"title\":\"Danshensu sodium salt alleviates muscle atrophy via CaMKII-PGC1α-FoxO3a signaling pathway in D-galactose-induced models\",\"authors\":\"Pooreum Lim, Sang Woo Woo, Jihye Han, Young Lim Lee, Jae Ho Shim, Hyeon Soo Kim\",\"doi\":\"10.1096/fj.202402158R\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<p>Sarcopenia is an age-related muscle atrophy syndrome characterized by the loss of muscle strength and mass. Although many agents have been used to treat sarcopenia, there are no successful treatments to date. In this study, we identified Danshensu sodium salt (DSS) as a substantial suppressive agent of muscle atrophy. We used a D-galactose (DG)-induced aging-acceleration model, both in vivo and in vitro, to confirm the effect of DSS on sarcopenia. DSS inhibits the expression of muscle atrophy-related factors (MuRF1, MAFbx, myostatin, and FoxO3a) in DG-induced mouse C2C12 and human skeletal muscle cells. Additionally, DSS restored the diameter of reduced C2C12 myotubes. Next, we demonstrated that DSS stimulates AMPK and PGC1α through CaMKII. DSS inhibits the translocation of FoxO3a into the nucleus, thus inhibiting muscle atrophy in a calcium-dependent manner. DSS initiated the protein–protein interaction between FoxO3a and PGC1α. The reduction of the PGC1α-FoxO3a interaction by DG was restored by DSS. Also, DSS suppressed increased intracellular reactive oxygen species (ROS) by DG. In animal models, DSS administration improved mouse muscle mass and physical performance (grip strength and hanging test) under DG-induced accelerated aging conditions. These findings demonstrated that DSS attenuates muscle atrophy by inhibiting the expression of muscle atrophy-related factors. 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Danshensu sodium salt alleviates muscle atrophy via CaMKII-PGC1α-FoxO3a signaling pathway in D-galactose-induced models
Sarcopenia is an age-related muscle atrophy syndrome characterized by the loss of muscle strength and mass. Although many agents have been used to treat sarcopenia, there are no successful treatments to date. In this study, we identified Danshensu sodium salt (DSS) as a substantial suppressive agent of muscle atrophy. We used a D-galactose (DG)-induced aging-acceleration model, both in vivo and in vitro, to confirm the effect of DSS on sarcopenia. DSS inhibits the expression of muscle atrophy-related factors (MuRF1, MAFbx, myostatin, and FoxO3a) in DG-induced mouse C2C12 and human skeletal muscle cells. Additionally, DSS restored the diameter of reduced C2C12 myotubes. Next, we demonstrated that DSS stimulates AMPK and PGC1α through CaMKII. DSS inhibits the translocation of FoxO3a into the nucleus, thus inhibiting muscle atrophy in a calcium-dependent manner. DSS initiated the protein–protein interaction between FoxO3a and PGC1α. The reduction of the PGC1α-FoxO3a interaction by DG was restored by DSS. Also, DSS suppressed increased intracellular reactive oxygen species (ROS) by DG. In animal models, DSS administration improved mouse muscle mass and physical performance (grip strength and hanging test) under DG-induced accelerated aging conditions. These findings demonstrated that DSS attenuates muscle atrophy by inhibiting the expression of muscle atrophy-related factors. Therefore, DSS may be a potential therapeutic agent for the treatment of sarcopenia.
期刊介绍:
The FASEB Journal publishes international, transdisciplinary research covering all fields of biology at every level of organization: atomic, molecular, cell, tissue, organ, organismic and population. While the journal strives to include research that cuts across the biological sciences, it also considers submissions that lie within one field, but may have implications for other fields as well. The journal seeks to publish basic and translational research, but also welcomes reports of pre-clinical and early clinical research. In addition to research, review, and hypothesis submissions, The FASEB Journal also seeks perspectives, commentaries, book reviews, and similar content related to the life sciences in its Up Front section.
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