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线粒体作为轴突退行性刺激的中央感受器。

Mitochondria as a central sensor for axonal degenerative stimuli.

机构信息

Millennium Nucleus for Regenerative Biology, Faculty of Biology, Catholic University of Chile, Santiago 8331150, Chile.

出版信息

Trends Neurosci. 2012 Jun;35(6):364-72. doi: 10.1016/j.tins.2012.04.001. Epub 2012 May 11.

Abstract

Axonal degeneration is a major contributor to neuronal dysfunction in many neurological conditions and has additional roles in development. It can be triggered by divergent stimuli including mechanical, metabolic, infectious, toxic, hereditary and inflammatory stresses. Axonal mitochondria are an important convergence point as regulators of bioenergetic metabolism, reactive oxygen species (ROS), Ca²⁺ homeostasis and protease activation. The challenges likely to render axonal mitochondria more vulnerable than their cellular counterparts are reviewed, including axonal transport, replenishing nuclear-encoded proteins and maintenance of quality control, fusion and fission in locations remote from the cell body. The potential for mitochondria to act as a decision node in axon loss is considered, highlighting the need to understand the biology of axonal mitochondria and their contributions to degenerative mechanisms for novel therapeutic strategies.

摘要

轴突变性是许多神经疾病中神经元功能障碍的主要原因,并且在发育过程中也具有额外的作用。它可以由机械、代谢、感染、毒性、遗传和炎症等不同的刺激引发。轴突线粒体是调节生物能量代谢、活性氧 (ROS)、Ca²⁺稳态和蛋白酶激活的重要汇聚点。本文综述了使轴突线粒体比细胞内线粒体更容易受损的各种挑战,包括轴突运输、核编码蛋白的补充以及在远离细胞体的位置维持质量控制、融合和裂变。本文还考虑了线粒体作为轴突丢失的决策节点的可能性,突出了需要了解轴突线粒体的生物学及其对退行性机制的贡献,以制定新的治疗策略。

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