Microglia in development: linking brain wiring to brain environment.

Rosa C Paolicelli, Cornelius T Gross
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引用次数: 109

Abstract

Microglia are enigmatic non-neuronal cells that infiltrate and take up residence in the brain during development and are thought to perform a surveillance function. An established literature has documented how microglia are activated by pathogenic stimuli and how they contribute to and resolve injuries to the brain. However, much less work has been aimed at understanding their function in the uninjured brain. A series of recent in vivo imaging studies shows that microglia in their resting state are highly motile and actively survey their neuronal surroundings. Furthermore, new data suggest that microglia in their resting state are able to phagocytose unwanted synapses and in this way contribute to synaptic pruning and maturation during development. Coupled with their exquisite sensitivity to pathogenic stimuli, these data suggest that microglia form a link that couples changes in brain environment to changes in brain wiring. Here we discuss this hypothesis and propose a model for the role of microglia during development in sculpting brain connectivity.

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发育中的小胶质细胞:连接大脑线路和大脑环境。
小胶质细胞是一种神秘的非神经元细胞,在发育过程中浸润并居住在大脑中,被认为具有监视功能。已有文献记载了小胶质细胞是如何被致病性刺激激活的,以及它们是如何促成和解决大脑损伤的。然而,研究它们在未受伤的大脑中的功能的工作却少得多。最近的一系列体内成像研究表明,静息状态下的小胶质细胞具有高度的运动性,并积极地观察周围的神经元。此外,新的数据表明,静息状态下的小胶质细胞能够吞噬不需要的突触,从而在发育过程中促进突触修剪和成熟。再加上它们对致病刺激的敏感,这些数据表明,小胶质细胞形成了一种联系,将大脑环境的变化与大脑线路的变化联系在一起。在这里,我们讨论了这一假设,并提出了小胶质细胞在发育过程中塑造大脑连接的作用模型。
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Neuron glia biology
Neuron glia biology 医学-神经科学
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