[Synaptic plasticity and synaptic reorganization regulated by microglia].

Yoshinori Hayashi, Hiroshi Nakanishi
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Abstract

Microglia are generally believed to be brain macrophages, which become phagocytic cells after cellular activation in response to inflammation or injury in the brain. However, accumulating evidence suggests that microglia modulate neurotransmission and synaptic plasticity by secretion of several soluble factors. Importantly, microglia secret glycine to enhance NMDA receptor-mediated responses and hippocampal long-term potentiation, a cellular basis of learning and memory. Although the expression of NMDA receptors was also observed in microglia, NMDA receptor-mediated responses were not induced in microglia. This suggests that NMDA receptors expressed in microglia are not functional. Besides the modulation of synaptic transmission, microglia also play an important role in synaptic remodeling by the pruning of unnecessary synapses and axon terminals during the postnatal developmental stage and adaptation to novel environments even in the healthy brain. Furthermore, we have recently found that clock genes in microglia drive P2Y12R and cathepsin S to regulate diurnal change in the synaptic activity. Therefore, defects in these microglial functions may eventually result in several brain diseases including neuropsychiatric disorders.

[小胶质细胞调控的突触可塑性和突触重组]。
小胶质细胞通常被认为是脑巨噬细胞,在大脑炎症或损伤的反应中,细胞激活后成为吞噬细胞。然而,越来越多的证据表明,小胶质细胞通过分泌多种可溶性因子来调节神经传递和突触可塑性。重要的是,小胶质细胞分泌甘氨酸来增强NMDA受体介导的反应和海马长期增强,这是学习和记忆的细胞基础。虽然在小胶质细胞中也观察到NMDA受体的表达,但在小胶质细胞中未诱导NMDA受体介导的反应。这表明在小胶质细胞中表达的NMDA受体没有功能。除了突触传递的调节外,小胶质细胞还在出生后发育阶段和健康大脑适应新环境的过程中,通过修剪不必要的突触和轴突末端,在突触重塑中发挥重要作用。此外,我们最近发现小胶质细胞中的时钟基因驱动P2Y12R和组织蛋白酶S调节突触活动的昼夜变化。因此,这些小胶质细胞功能的缺陷可能最终导致包括神经精神疾病在内的几种脑部疾病。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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