线粒体与自噬相互作用的机制。
Mechanisms of mitochondria and autophagy crosstalk.
机构信息
The Eunice Kennedy Shriver National Institute of Child Health and Development, National Institutes of Health, Bethesda, MD, USA.
出版信息
Cell Cycle. 2011 Dec 1;10(23):4032-8. doi: 10.4161/cc.10.23.18384.
Abstract
Autophagy is a cellular survival pathway that recycles intracellular components to compensate for nutrient depletion and ensures the appropriate degradation of organelles. Mitochondrial number and health are regulated by mitophagy, a process by which excessive or damaged mitochondria are subjected to autophagic degradation. Autophagy is thus a key determinant for mitochondrial health and proper cell function. Mitophagic malfunction has been recently proposed to contribute to progressive neuronal loss in Parkinson's disease. In addition to autophagy's significance in mitochondrial integrity, several lines of evidence suggest that mitochondria can also substantially influence the autophagic process. The mitochondria's ability to influence and be influenced by autophagy places both elements (mitochondria and autophagy) in a unique position where defects in one or the other system could increase the risk to various metabolic and autophagic related diseases.
摘要
自噬是一种细胞存活途径,它可以回收细胞内的成分,以弥补营养物质的消耗,并确保细胞器的适当降解。线粒体的数量和健康受到自噬的调节,这是一种将多余或受损的线粒体进行自噬降解的过程。因此,自噬是维持线粒体健康和细胞功能正常的关键决定因素。最近有研究提出,自噬功能失调可能导致帕金森病中神经元的进行性丧失。除了自噬对线粒体完整性的重要意义外,还有几条证据表明,线粒体也可以显著影响自噬过程。线粒体影响和被自噬影响的能力使这两个元素(线粒体和自噬)处于一个独特的位置,其中一个或另一个系统的缺陷可能会增加各种代谢和自噬相关疾病的风险。
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