Skeletal muscle atrophy after sciatic nerve damage: Mechanistic insights

坐骨神经 萎缩 安普克 肌肉萎缩 细胞生物学 去神经支配 医学 骨骼肌 线粒体 PI3K/AKT/mTOR通路 解剖 内分泌学 内科学 化学 磷酸化 信号转导 蛋白激酶A 生物
作者
Aarti Yadav,Rajesh Dabur
出处
期刊:European Journal of Pharmacology [Elsevier BV]
卷期号:970: 176506-176506 被引量:24
标识
DOI:10.1016/j.ejphar.2024.176506
摘要

Sciatic nerve injury leads to molecular events that cause muscular dysfunction advancement in atrophic conditions. Nerve damage renders muscles permanently relaxed which elevates intracellular resting Ca2+ levels. Increased Ca2+ levels are associated with several cellular signaling pathways including AMPK, cGMP, PLC-β, CERB, and calcineurin. Also, multiple enzymes involved in the tricarboxylic acid cycle and oxidative phosphorylation are activated by Ca2+ influx into mitochondria during muscle contraction, to meet increased ATP demand. Nerve damage induces mitophagy and skeletal muscle atrophy through increased sensitivity to Ca2+-induced opening of the permeability transition pore (PTP) in mitochondria attributed to Ca2+, ROS, and AMPK overload in muscle. Activated AMPK interacts negatively with Akt/mTOR is a highly prevalent and well-described central pathway for anabolic processes. Over the decade several reports indicate abnormal behavior of signaling machinery involved in denervation-induced muscle loss but end up with some controversial outcomes. Therefore, understanding how the synthesis and inhibitory stimuli interact with cellular signaling to control muscle mass and morphology may lead to new pharmacological insights toward understanding the underlying mechanism of muscle loss after sciatic nerve damage. Hence, the present review summarizes the existing literature on denervation-induced muscle atrophy to evaluate the regulation and expression of differential regulators during sciatic damage.
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