FoxO‐dependent atrogenes vary among catabolic conditions and play a key role in muscle atrophy induced by hindlimb suspension

萎缩 肌肉萎缩 去神经支配 福克斯O1 分解代谢 后肢 生物 骨骼肌 人口 内科学 内分泌学 细胞生物学 转录因子 化学 医学 基因 遗传学 新陈代谢 环境卫生
作者
Lorenza Brocca,L. Toniolo,Carlo Reggiani,Roberto Bottinelli,Marco Sandri,Maria Antonietta Pellegrino
出处
期刊:The Journal of Physiology [Wiley]
卷期号:595 (4): 1143-1158 被引量:90
标识
DOI:10.1113/jp273097
摘要

Key points Muscle atrophy is a debilitating condition that affects a high percentage of the population with a negative impact on quality of life. Dissecting the molecular level of the atrophy process, and the similarities/dissimilarities among different catabolic conditions, is a necessary step for designing specific countermeasures to attenuate/prevent muscle loss. The FoxO family transcription factors represent one of the most important regulators of atrophy programme stimulating the expression of many atrophy‐related genes. The findings of the present study clearly indicate that the signalling network controlling the atrophy programme is specific for each catabolic condition. Abstract Muscle atrophy is a complex process that is in common with many different catabolic diseases including disuse/inactivity and ageing. The signalling pathways that control the atrophy programme in the different disuse/inactivity conditions have not yet been completely dissected. The inhibition of FoxO is considered to only partially spare muscle mass after denervation. The present study aimed: (i) to determine the involvement of FoxOs in hindlimb suspension disuse model; (ii) to define whether the molecular events of protein breakdown are shared among different unloaded muscles; and finally (iii) to compare the data obtained in this model with another model of inactivity such as denervation. Both wild‐type and muscle‐specific FoxO1,3,4 knockout (FoxO1,3,4 −/− ) mice were unloaded for 3 and 14 days and muscles were characterized by functional, morphological, biochemical and molecular assays. The data obtained show that FoxOs are required for muscle loss and force drop during unloading. Moreover, we found that FoxO‐dependent atrogenes vary in different unloaded muscles and that they diverge from denervation. The findings of the present study clearly indicate that the signalling network that controls the atrophy programme is specific for each catabolic condition.
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