BIO101 stimulates myoblast differentiation and improves muscle function in adult and old mice

Autor: Maria Serova, Blaise Didry‐Barca, Robin Deloux, Anne‐Sophie Foucault, Stanislas Veillet, René Lafont, Pierre J. Dilda, Mathilde Latil
Jazyk: angličtina
Rok vydání: 2024
Předmět:
Zdroj: Journal of Cachexia, Sarcopenia and Muscle, Vol 15, Iss 1, Pp 55-66 (2024)
Druh dokumentu: article
ISSN: 2190-6009
2190-5991
DOI: 10.1002/jcsm.13326
Popis: Abstract Background Muscle aging is associated with a consistent decrease in the ability of muscle tissue to regenerate following intrinsic muscle degradation, injury or overuse. Age‐related imbalance of protein synthesis and degradation, mainly regulated by AKT/mTOR pathway, leads to progressive loss of muscle mass. Maintenance of anabolic and regenerative capacities of skeletal muscles may be regarded as a therapeutic option for sarcopenia and other muscle wasting diseases. Our previous studies have demonstrated that BIO101, a pharmaceutical grade 20‐hydroxyecdysone, increases protein synthesis through the activation of MAS receptor involved in the protective arm of renin‐angiotensin‐aldosterone system. The purpose of the present study was to assess the anabolic and pro‐differentiating properties of BIO101 on C2C12 muscle cells in vitro and to investigate its effects on adult and old mice models in vivo. Methods The effects of BIO101 on C2C12 differentiation were assessed using myogenic transcription factors and protein expression of major kinases of AKT/mTOR pathway by Western blot. The in vivo effects of BIO101 have been investigated in BIO101 orally‐treated (50 mg/kg/day) adult mice (3 months) for 28 days. To demonstrate potential beneficial effect of BIO101 treatment in a sarcopenic mouse model, we use orally treated 22‐month‐old C57Bl6/J mice, for 14 weeks with vehicle or BIO101. Mice body and muscle weight were recorded. Physical performances were assessed using running capacity and muscle contractility tests. Results Anabolic properties of BIO101 were confirmed by the rapid activation of AKT/mTOR, leading to an increase of C2C12 myotubes diameters (+26%, P
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