脊椎动物中枢神经系统中的 Wnt 信号传导:从轴突导向到突触功能。
Wnt signaling in the vertebrate central nervous system: from axon guidance to synaptic function.
机构信息
Department of Cell and Developmental Biology, University College London, London, United Kingdom.
出版信息
Cold Spring Harb Perspect Biol. 2012 Feb 1;4(2):a008003. doi: 10.1101/cshperspect.a008003.
Abstract
Regulation of cell signaling by Wnt proteins is critical for the formation of neuronal circuits. Wnts modulate axon pathfinding, dendritic development, and synaptic assembly. Through different receptors, Wnts activate diverse signaling pathways that lead to local changes on the cytoskeleton or global cellular changes involving nuclear function. Recently, a link between neuronal activity, essential for the formation and refinement of neuronal connections, and Wnt signaling has been uncovered. Indeed, neuronal activity regulates the release of Wnt and the localization of their receptors. Wnts mediate synaptic structural changes induced by neuronal activity or experience. New emerging evidence suggests that dysfunction in Wnt signaling contributes to neurological disorders. In this article, the attention is focused on the function of Wnt signaling in the formation of neuronal circuits in the vertebrate central nervous system.
摘要
Wnt 蛋白对细胞信号的调节对神经元回路的形成至关重要。Wnts 调节轴突导向、树突发育和突触组装。通过不同的受体,Wnts 激活不同的信号通路,导致细胞骨架上的局部变化或涉及核功能的全局细胞变化。最近,发现了神经元活动与 Wnt 信号之间的联系,神经元活动对于神经元连接的形成和细化至关重要。事实上,神经元活动调节 Wnt 的释放及其受体的定位。Wnts 介导由神经元活动或经验引起的突触结构变化。新出现的证据表明,Wnt 信号传导功能障碍与神经紊乱有关。本文重点介绍了 Wnt 信号在脊椎动物中枢神经系统中神经元回路形成中的作用。
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