星形胶质细胞中的线粒体代谢调节脑能量代谢、神经传递和氧化还原平衡。

Mitochondrial Metabolism in Astrocytes Regulates Brain Bioenergetics, Neurotransmission and Redox Balance.

作者信息

Rose Jordan, Brian Christian, Pappa Aglaia, Panayiotidis Mihalis I, Franco Rodrigo

机构信息

Redox Biology Center, University of Nebraska-Lincoln, Lincoln, NE, United States.

School of Veterinary Medicine and Biomedical Sciences, University of Nebraska-Lincoln, Lincoln, NE, United States.

出版信息

Front Neurosci. 2020 Nov 5;14:536682. doi: 10.3389/fnins.2020.536682. eCollection 2020.

DOI:10.3389/fnins.2020.536682

PMID:33224019

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC7674659/

Abstract

In the brain, mitochondrial metabolism has been largely associated with energy production, and its dysfunction is linked to neuronal cell loss. However, the functional role of mitochondria in glial cells has been poorly studied. Recent reports have demonstrated unequivocally that astrocytes do not require mitochondria to meet their bioenergetics demands. Then, the question remaining is, what is the functional role of mitochondria in astrocytes? In this work, we review current evidence demonstrating that mitochondrial central carbon metabolism in astrocytes regulates overall brain bioenergetics, neurotransmitter homeostasis and redox balance. Emphasis is placed in detailing carbon source utilization (glucose and fatty acids), anaplerotic inputs and cataplerotic outputs, as well as carbon shuttles to neurons, which highlight the metabolic specialization of astrocytic mitochondria and its relevance to brain function.

摘要

在大脑中，线粒体代谢在很大程度上与能量产生相关，其功能障碍与神经元细胞丢失有关。然而，线粒体在神经胶质细胞中的功能作用却鲜有研究。最近的报道明确表明，星形胶质细胞并不需要线粒体来满足其生物能量需求。那么，剩下的问题是，线粒体在星形胶质细胞中的功能作用是什么呢？在这项工作中，我们回顾了当前的证据，这些证据表明星形胶质细胞中的线粒体中心碳代谢调节着整体脑生物能量、神经递质稳态和氧化还原平衡。重点详细阐述了碳源利用（葡萄糖和脂肪酸）、回补输入和排出补充输出，以及向神经元的碳穿梭，这些突出了星形胶质细胞线粒体的代谢特化及其与脑功能的相关性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0728/7674659/00f48899b4f3/fnins-14-536682-g001.jpg

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星形胶质细胞中的线粒体代谢调节脑能量代谢、神经传递和氧化还原平衡。

Mitochondrial Metabolism in Astrocytes Regulates Brain Bioenergetics, Neurotransmission and Redox Balance.

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