小鼠胼胝体内的少突胶质细胞通过输送葡萄糖来维持轴突功能。

Oligodendrocytes in the Mouse Corpus Callosum Maintain Axonal Function by Delivery of Glucose.

机构信息

Cellular Neurosciences, Max Delbrueck Center for Molecular Medicine in the Helmholtz Association, Robert Roessle Str. 10, 13125 Berlin, Germany.

Cellular Neurosciences, Max Delbrueck Center for Molecular Medicine in the Helmholtz Association, Robert Roessle Str. 10, 13125 Berlin, Germany; Inspire Medical Systems, Inc., 9700 63rd Ave N, Suite 200, Maple Grove, MN 55369, USA.

出版信息

Cell Rep. 2018 Feb 27;22(9):2383-2394. doi: 10.1016/j.celrep.2018.02.022.

DOI:10.1016/j.celrep.2018.02.022

PMID:29490274

Abstract

In the optic nerve, oligodendrocytes maintain axonal function by supplying lactate as an energy substrate. Here, we report that, in acute brain slices of the mouse corpus callosum, exogenous glucose deprivation (EGD) abolished compound action potentials (CAPs), which neither lactate nor pyruvate could prevent. Loading an oligodendrocyte with 20 mM glucose using a patch pipette prevented EGD-mediated CAP reduction in about 70% of experiments. Loading oligodendrocytes with lactate rescued CAPs less efficiently than glucose. In mice lacking connexin 47, oligodendrocyte filling with glucose did not prevent CAP loss, emphasizing the importance of glial networks for axonal energy supply. Compared with the optic nerve, the astrocyte network in the corpus callosum was less dense, and loading astrocytes with glucose did not prevent CAP loss during EGD. We suggest that callosal oligodendrocyte networks provide energy to sustain axonal function predominantly by glucose delivery, and mechanisms of metabolic support vary across different white matter regions.

摘要

在视神经中，少突胶质细胞通过提供作为能量底物的乳酸盐来维持轴突功能。在这里，我们报告在小鼠胼胝体的急性脑切片中，外源性葡萄糖剥夺 (EGD) 消除了复合动作电位 (CAP)，乳酸盐和丙酮酸均不能预防这一现象。使用贴壁电极将 20 mM 葡萄糖加载到少突胶质细胞中，可在约 70%的实验中防止 EGD 介导的 CAP 减少。用乳酸盐加载少突胶质细胞的效率不如葡萄糖那样有效地挽救 CAP。在缺乏连接蛋白 47 的小鼠中，用葡萄糖填充少突胶质细胞并不能防止 CAP 丢失，这强调了神经胶质网络对轴突能量供应的重要性。与视神经相比，胼胝体中的星形胶质细胞网络密度较低，并且在 EGD 期间用葡萄糖加载星形胶质细胞并不能防止 CAP 丢失。我们认为，胼胝体少突胶质细胞网络主要通过葡萄糖输送来提供能量以维持轴突功能，并且代谢支持的机制在不同的白质区域有所不同。

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小鼠胼胝体内的少突胶质细胞通过输送葡萄糖来维持轴突功能。

Oligodendrocytes in the Mouse Corpus Callosum Maintain Axonal Function by Delivery of Glucose.

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