老年脑线粒体功能的调节:自噬和凋亡的参与

Pranali A Chandurkar, Mrunali D. Dhokne, N. Wankhede, S. Mangrulkar, B. Taksande, A. Upaganlawar, M. Umekar, Mayur B. Kale
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引用次数: 1

摘要

线粒体是调节能量产生、氧化平衡和钙稳态等重要的细胞器。衰老是一个自然的、多因素的、多器官的过程,病理和生理变化都是随着时间的推移而逐渐发生的。自噬能力和线粒体过程,如线粒体自噬、生物发生和动力学与衰老有关。这些过程对于维持线粒体的结构完整性和细胞寿命非常重要,因为线粒体功能障碍会导致能量代谢障碍和活性氧的产生增加,这两者都可能刺激细胞衰老和凋亡细胞死亡的机制。此外,在模式生物和人类中,线粒体活性的下降都可能导致与年龄相关的疾病表型。随着人们年龄的增长,线粒体损伤和功能障碍可能导致细胞凋亡,从而解释了细胞死亡的增加。许多老化过程被认为是由氧化应激驱动的。综上所述,这些证据有力地表明,线粒体功能与广泛的衰老过程之间存在联系。尽管在所回顾的研究中没有普遍的共识,但似乎衰老会降低线粒体的生物发生和动力学,以及相关生物体的线粒体自噬能力。本文综述了自噬和细胞凋亡在脑线粒体功能调节中的作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Modulation of Mitochondrial Function in Elderly Brain: Involvement of Autophagy and Apoptosis
Mitochondria are crucial cellular organelles that regulate energy production, oxidative balance, and calcium homeostasis, among other things. Aging is a natural, multifactorial, and multi-organic process, in which both pathological and physiological changes occur gradually over time. Autophagy capacity and mitochondrial processes such as mitophagy, biogenesis, and dynamics are associated with aging. These processes are important for maintaining the structural integrity of mitochondria and thus cell life since mitochondrial dysfunction leads to an impairment in energy metabolism and an increased production of reactive oxygen species, both of which may stimulate mechanisms of cellular senescence and apoptotic cell death. Furthermore, in both model organisms and humans, a decline in mitochondrial activity can contribute to age-related disease phenotypes. As people age, mitochondrial damage and malfunction may induce apoptosis, thus explaining the rise in cell death. Many aging processes are believed to be driven by oxidative stress. Taken together, the evidence strongly suggests a relation between mitochondrial function and a wide spectrum of aging processes. Although there is no general consensus among the studies reviewed, it appears that aging reduces mitochondrial biogenesis and dynamics, as well as the mitophagy capacity of the organism involved. This review describes the involvement of autophagy and apoptosis in the modulation of mitochondrial function in the brain.
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