辅活化剂
生物
脂肪组织
肌动蛋白
线粒体
自噬
神经科学
细胞代谢
细胞生物学
过氧化物酶体增殖物激活受体
信号转导
骨骼肌
受体
生物信息学
转录因子
内分泌学
新陈代谢
生物化学
基因
细胞凋亡
作者
Ivo Vieira de Sousa Neto,Ana P. Pinto,Vítor Rosetto Muñoz,Rita de Cássia Marqueti,José Rodrigo Pauli,Eduardo R. Ropelle,Adelino Sánchez Ramos da Silva
标识
DOI:10.1016/j.arr.2023.101935
摘要
Physical training is a potent therapeutic approach for improving mitochondrial health through peroxisome proliferator-activated receptor gamma coactivator 1 alpha (PGC-1α) signaling pathways. However, comprehensive information regarding the physical training impact on PGC-1α in the different physiological systems with advancing age is not fully understood. This review sheds light on the frontier-of-knowledge data regarding the chronic effects of exercise on the PGC-1α signaling pathways in rodents and humans. We address the molecular mechanisms involved in the different tissues, clarifying the precise biological action of PGC-1α, restricted to the aged cell type. Distinct exercise protocols (short and long-term) and modalities (aerobic and resistance exercise) increase the transcriptional and translational PGC-1α levels in adipose tissue, brain, heart, liver, and skeletal muscle in animal models, suggesting that this versatile molecule induces pleiotropic responses. However, PGC-1α function in some human tissues (adipose tissue, heart, and brain) remains challenging for further investigations. PGC-1α is not a simple transcriptional coactivator but supports a biochemical environment of mitochondrial dynamics, controlling physiological processes (primary metabolism, tissue remodeling, autophagy, inflammation, and redox balance). Acting as an adaptive mechanism, the long-term effects of PGC-1α following exercise may reflect the energy demand to coordinate multiple organs and contribute to cellular longevity.
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