神经病理学中的神经元-胶质细胞单元:它是一把双刃剑吗?

Michael Aschner, Yael Aschner, Ursula Sonnewald
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摘要

几十年来,星形胶质细胞主要被认为是中枢神经系统的结构成分。直到最近,我们才开始了解它们在中枢神经系统平衡中的其他功能。星形胶质细胞以前被认为是被动细胞,这主要是因为它们似乎不会对电刺激或突触活动做出反应,而且膜电位仅有轻微变化。现在人们认识到,星形胶质细胞实际上可以对神经活动做出去极化反应 [Haydon, 2001]。此外,星形胶质细胞在向神经元分配能量基质方面发挥着重要作用 [Dienel and Hertz 2001],星形胶质细胞与星形胶质细胞以及星形胶质细胞与神经元之间的交叉对话已被记录在案 [Haydon, 2001]。星形胶质细胞的其他功能还包括产生营养因子、调节神经递质和离子浓度,以及清除细胞外环境中的碎片[Aschner 等人,2002]。因此,星形胶质细胞在中枢神经系统中发挥着多种重要作用。当功能达到最佳状态时,它们扮演着迷人的星形胶质细胞的角色。然而,星形胶质细胞也会产生反应性中间产物,或在受伤后阻碍大脑重塑和再生,从而使其处于 "恶棍 "星形胶质细胞的对立地位。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Neuron-Glia Unit in Neuropathology: Is it a Double-Edged Sword?

For decades, astrocytes were primarily recognized as structural components of the CNS. Only recently have we begun to understand their other functions within the context of CNS homeostasis. Astrocytes were previously thought of as passive cells, due primarily to the fact that they did not appear to respond to electrical stimulation or synaptic activity and showed only slight changes in membrane potential. It is now appreciated that astrocytes can, in fact, depolarize in response to neural activity [Haydon, 2001]. Additionally, astrocytes play an important role in distributing energy substrates to neurons [Dienel and Hertz 2001], Astrocyte-astrocyte, as well as astrocyte - neuron cross talk have been documented [Haydon, 2001). Other astrocytic functions include the production of trophic factors, the regulation of neurotransmitters and ion concentration, and the removal of debris from the extracellular environment [Aschner et al" 2002]. Thus, astrocytes play a number of essential roles in the CNS. When functioning optimally, they act the part of the charming astrocyte. However, astrocytes also play a role in generating reactive intermediates or impede brain remodeling and regeneration upon injury shifting them into the contrasting position of the "villain" astrocyte.

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