Commentary: Can astrocytic mitochondria therapy be used as antioxidant conditioning to protect neurons?

Conditioning medicine Pub Date : 2022-12-01
Kazuhide Hayakawa
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Abstract

In the context of central nervous system (CNS) disease, oxidative stress may cause progression of cell death and neuroinflammation. Therefore, restoring mitochondrial antioxidant ability within cells is a major therapeutic strategy in many CNS disorders. A recent study uncovers a novel mechanism of astrocytic mitochondria being neuroprotective after intracerebral hemorrhage in mice. In their work, systemic administration of mitochondria obtained from astrocytes restores neuronal antioxidant defense, prevents neuronal death while promoting neurite outgrowth, indicating that extracellular mitochondria may play key roles in mediating beneficial non-cell autonomous effects. Given that mitochondria are also responsible for tolerance to stress and injury, is it possible that exogenous mitochondria signals may regulate cellular conditioning by boosting antioxidant ability? Further studies are warranted to build on these emerging findings in the pursuit of conditioning therapies mediated by mitochondrial transplantation in CNS injury and disease.

评论:星形细胞线粒体疗法可以作为抗氧化调理来保护神经元吗?
在中枢神经系统(CNS)疾病的情况下,氧化应激可能导致细胞死亡和神经炎症的进展。因此,恢复细胞内线粒体抗氧化能力是许多中枢神经系统疾病的主要治疗策略。最近的一项研究揭示了小鼠脑出血后星形细胞线粒体具有神经保护作用的新机制。在他们的工作中,从星形胶质细胞中获得的线粒体系统管理恢复神经元抗氧化防御,防止神经元死亡,同时促进神经突生长,表明细胞外线粒体可能在介导有益的非细胞自主作用中发挥关键作用。考虑到线粒体也负责对压力和损伤的耐受性,外源线粒体信号是否可能通过增强抗氧化能力来调节细胞条件?在这些新发现的基础上,有必要进一步研究线粒体移植介导的中枢神经系统损伤和疾病的调节疗法。
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