Repeated Heat Stress Modulates the Levels of the Mitokines MOTS-C and FGF21 in Active Men during Calf Muscle Immobilization.

Medicine & Science in Sports & Exercise Pub Date : 2025-07-17 DOI:10.1249/mss.0000000000003825

Rabie Elhusseiny,Mohammed Ihsan,Mariem Labidi,Marine Alhammoud,Khouloud Mtibaa,Nelda Nader,Nada Nasir,Abdulaziz Farooq,Emmanoui Papakostas,Bruno Olory,Flavio Cruz,Pieter D'Hooghe,Sebastien Racinais,Louise Deldicque

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Abstract

PURPOSE Heat stress, like exercise, can elicit beneficial mitochondrial adaptations and attenuate disuse muscle atrophy. The beneficial effects of heat therapy may in part be related to mitokines as they are released by the cells in response to perceived mitochondrial stress. This study thus investigated the effect of repeated heat exposures on mitokine response in the context of immobilization-induced muscle atrophy. METHODS A total of 19 physically active men underwent 4 weeks of supervised training followed by 2 weeks of immobilization of the left ankle, during which they were randomly divided into the heat (n = 9) or the sham (n = 10) treatment group. Muscle thickness by ultrasound, cross sectional area by magnetic resonance imaging, circulating and skeletal muscle mitokine levels, as well as a series of skeletal muscle anabolism and atrophy markers were assessed before and after the 2-week immobilization period. RESULTS While immobilization did not induce any effect on mitokine levels, repeated heat treatment upregulated the circulating MOTS-c (p = 0.033) and downregulated the skeletal muscle FGF21 (p = 0.027) levels. Immobilization decreased muscle thickness (p = 0.012, η2 = 0.32) and cross-sectional area (CSA, p < 0.01, η2 = 0.75) of the gastrocnemius medialis. CONCLUSIONS our results indicate that repeated heat stress specifically modulates the levels of the mitokines MOTS-c and FGF21 in a manner that is comparable to, but not identical to, exercise. Further research is needed to elucidate the underlying mechanisms and explore the therapeutic potential of heat stress and mitokines in mitigating muscle loss.

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反复热应激调节运动男性小腿肌肉固定期间线粒体分裂因子MOTS-C和FGF21的水平

目的：热应激和运动一样，可以引起有益的线粒体适应，减轻废用肌萎缩。热疗的有益效果可能部分与细胞在感知线粒体应激时释放的分裂因子有关。因此，本研究探讨了在固定运动诱导的肌肉萎缩的情况下，反复热暴露对丝分裂因子反应的影响。方法对19名体力活动男性进行为期4周的监督训练和2周的左踝关节固定，在此期间随机分为热疗组（n = 9）和假疗组（n = 10）。在2周固定前后评估超声测得的肌肉厚度、磁共振成像测得的横截面积、循环和骨骼肌分裂因子水平，以及一系列骨骼肌合成代谢和萎缩指标。结果固定不影响细胞分裂因子水平，反复热处理可上调循环MOTS-c (p = 0.033)，下调骨骼肌FGF21 （p = 0.027）水平。固定使腓肠肌内侧肌厚度（p = 0.012, η2 = 0.32）和横截面积（CSA, p < 0.01, η2 = 0.75）下降。结论反复热应激可特异性调节细胞分裂因子MOTS-c和FGF21的水平，其调节方式与运动相当，但不完全相同。需要进一步的研究来阐明潜在的机制，并探索热应激和丝裂因子在减轻肌肉损失方面的治疗潜力。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Medicine & Science in Sports & Exercise

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