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冬眠达乌尔黄鼠(Spermophilus dauricus)比目鱼肌中稳定的肌萎缩蛋白 1(Fbxo32)和 MuRF1(Trim63)基因表达参与保护机制。

Stable atrogin-1 (Fbxo32) and MuRF1 (Trim63) gene expression is involved in the protective mechanism in soleus muscle of hibernating Daurian ground squirrels (Spermophilus dauricus).

机构信息

Key Laboratory of Resource Biology and Biotechnology in Western China (Northwest University), Ministry of Education, Xi'an 710069, China.

Gravitational Physiology and Medicine Research Unit, Institute of Physiology, Center of Physiological Medicine, Medical University Graz, Graz 8010, Austria

出版信息

Biol Open. 2016 Jan 6;5(1):62-71. doi: 10.1242/bio.015776.

DOI:10.1242/bio.015776
PMID:26740574
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4728309/
Abstract

Understanding the mechanisms that protect against or limit muscle atrophy in hibernators during prolonged inactivity has important implications for its treatment. We examined whether external factors influence the pathways regulating protein synthesis and degradation, leading to muscle atrophy prevention in Daurian ground squirrels (Spermophilus dauricus). We investigated the effects of 14-day hindlimb-unloading (HU) in different seasons and two-month hibernation on the soleus (SOL) muscle wet mass, muscle-to-body mass ratio, fiber cross sectional area (CSA), fiber distribution and muscle ultrastructure. We also measured changes in the protein expression and activation states of Akt, mTOR and FoxO1 and the mRNA expression of atrogin-1 and MuRF1. Compared with the control groups, autumn and winter HU significantly lowered SOL muscle wet mass and muscle-to-body mass ratio, decreased type I and II fiber CSA and induced ultrastructural anomalies. However, these measured indices were unchanged between Pre-hibernation and Hibernation groups. Furthermore, phosphorylation levels of Akt and mTOR significantly decreased, while the phosphorylation level of FoxO1 and mRNA expression of atrogin-1 and MuRF1 increased after HU. During hibernation, the phosphorylation levels of Akt and mTOR significantly decreased, but the phosphorylation level of FoxO1 and mRNA expression of atrogin-1 and MuRF1 remained unchanged. Overall, our findings suggest that disuse and seasonality may not be sufficient to initiate the innate protective mechanism that prevents SOL atrophy during prolonged periods of hibernation inactivity. The stable expression of atrogin-1 and MuRF1 may facilitate to prevent SOL atrophy via controlling ubiquitination of muscle proteins during hibernation.

摘要

了解冬眠动物在长时间不活动期间防止或限制肌肉萎缩的机制,对其治疗具有重要意义。我们研究了外部因素是否会影响调节蛋白质合成和降解的途径,从而防止达乌尔黄鼠(Spermophilus dauricus)的肌肉萎缩。我们研究了在不同季节和两个月冬眠期间进行 14 天的后肢悬吊(HU)对比目鱼肌(SOL)肌肉湿重、肌肉与体重比、纤维横截面积(CSA)、纤维分布和肌肉超微结构的影响。我们还测量了 Akt、mTOR 和 FoxO1 的蛋白表达和激活状态以及 atrogin-1 和 MuRF1 的 mRNA 表达的变化。与对照组相比,秋季和冬季 HU 显著降低了 SOL 肌肉湿重和肌肉与体重比,减少了 I 型和 II 型纤维 CSA,并诱导了超微结构异常。然而,冬眠前和冬眠期间两组之间这些测量指标没有变化。此外,HU 后 Akt 和 mTOR 的磷酸化水平显著降低,而 FoxO1 的磷酸化水平和 atrogin-1 和 MuRF1 的 mRNA 表达增加。在冬眠期间,Akt 和 mTOR 的磷酸化水平显著降低,但 FoxO1 的磷酸化水平和 atrogin-1 和 MuRF1 的 mRNA 表达保持不变。总的来说,我们的研究结果表明,失用和季节性可能不足以启动内在的保护机制,防止 SOL 在长时间冬眠不活动期间萎缩。Atrogin-1 和 MuRF1 的稳定表达可能通过控制肌肉蛋白的泛素化来促进冬眠期间 SOL 萎缩的预防。

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