Fibroblast growth factor 21 controls mitophagy and muscle mass

肌动蛋白 粒体自噬 FGF21型 内科学 骨骼肌 成纤维细胞生长因子 肌萎缩 肌肉萎缩 葡萄糖稳态 旁分泌信号 平衡 萎缩 生物 内分泌学 医学 自噬 胰岛素抵抗 糖尿病 生物化学 细胞凋亡 受体
作者
Lynette J. Oost,Monika Kustermann,Andrea Armani,Bert Blaauw,Vanina Romanello
出处
期刊:Journal of Cachexia, Sarcopenia and Muscle [Springer Science+Business Media]
卷期号:10 (3): 630-642 被引量:149
标识
DOI:10.1002/jcsm.12409
摘要

Abstract Background Skeletal muscle is a plastic tissue that adapts to changes in exercise, nutrition, and stress by secreting myokines and myometabolites. These muscle‐secreted factors have autocrine, paracrine, and endocrine effects, contributing to whole body homeostasis. Muscle dysfunction in aging sarcopenia, cancer cachexia, and diabetes is tightly correlated with the disruption of the physiological homeostasis at the whole body level. The expression levels of the myokine fibroblast growth factor 21 (FGF21) are very low in normal healthy muscles. However, fasting, ER stress, mitochondrial myopathies, and metabolic disorders induce its release from muscles. Although our understanding of the systemic effects of muscle‐derived FGF21 is exponentially increasing, the direct contribution of FGF21 to muscle function has not been investigated yet. Methods Muscle‐specific FGF21 knockout mice were generated to investigate the consequences of FGF21 deletion concerning skeletal muscle mass and force. To identify the mechanisms underlying FGF21‐dependent adaptations in skeletal muscle during starvation, the study was performed on muscles collected from both fed and fasted adult mice. In vivo overexpression of FGF21 was performed in skeletal muscle to assess whether FGF21 is sufficient per se to induce muscle atrophy. Results We show that FGF21 does not contribute to muscle homeostasis in basal conditions in terms of fibre type distribution, fibre size, and muscle force. In contrast, FGF21 is required for fasting‐induced muscle atrophy and weakness. The mass of isolated muscles from control‐fasted mice was reduced by 15–25% ( P < 0.05) compared with fed control mice. FGF21‐null muscles, however, were significantly protected from muscle loss and weakness during fasting. Such important protection is due to the maintenance of protein synthesis rate in knockout muscles during fasting compared with a 70% reduction in control‐fasted muscles ( P < 0.01), together with a significant reduction of the mitophagy flux via the regulation of the mitochondrial protein Bnip3. The contribution of FGF21 to the atrophy programme was supported by in vivo FGF21 overexpression in muscles, which was sufficient to induce autophagy and muscle loss by 15% ( P < 0.05). Bnip3 inhibition protected against FGF21‐dependent muscle wasting in adult animals ( P < 0.05). Conclusions FGF21 is a novel player in the regulation of muscle mass that requires the mitophagy protein Bnip3.

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