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发育中的大脑皮层中Reelin信号对神经元迁移和聚集的调控

Control of Neuronal Migration and Aggregation by Reelin Signaling in the Developing Cerebral Cortex.

作者信息

Hirota Yuki, Nakajima Kazunori

机构信息

Department of Anatomy, Keio University School of MedicineTokyo, Japan.

出版信息

Front Cell Dev Biol. 2017 Apr 26;5:40. doi: 10.3389/fcell.2017.00040. eCollection 2017.

DOI:10.3389/fcell.2017.00040
PMID:28507985
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5410752/
Abstract

The mammalian cerebral neocortex has a well-organized laminar structure, achieved by the highly coordinated control of neuronal migration. During cortical development, excitatory neurons born near the lateral ventricle migrate radially to reach their final positions to form the cortical plate. During this process, dynamic changes are observed in the morphologies and migration modes, including multipolar migration, locomotion, and terminal translocation, of the newborn neurons. Disruption of these migration processes can result in neuronal disorders such as lissencephaly and periventricular heterotopia. The extracellular protein, Reelin, mainly secreted by the Cajal-Retzius neurons in the marginal zone during development, plays a crucial role in the neuronal migration and neocortical lamination. Reelin signaling, which exerts essential roles in the formation of the layered neocortex, is triggered by the binding of Reelin to its receptors, ApoER2 and VLDLR, followed by phosphorylation of the Dab1 adaptor protein. Accumulating evidence suggests that Reelin signaling controls multiple steps of neuronal migration, including the transition from multipolar to bipolar neurons, terminal translocation, and termination of migration beneath the marginal zone. In addition, it has been shown that ectopically expressed Reelin can cause neuronal aggregation via an N-cadherin-mediated manner. This review attempts to summarize our knowledge of the roles played by Reelin in neuronal migration and the underlying mechanisms.

摘要

哺乳动物的大脑新皮层具有组织良好的分层结构,这是通过对神经元迁移的高度协调控制实现的。在皮层发育过程中,侧脑室附近产生的兴奋性神经元沿径向迁移,到达其最终位置,形成皮层板。在此过程中,新生神经元的形态和迁移模式会发生动态变化,包括多极迁移、移动和终末移位。这些迁移过程的破坏可导致神经元疾病,如无脑回畸形和脑室周围异位症。细胞外蛋白Reelin在发育过程中主要由边缘区的 Cajal-Retzius 神经元分泌,在神经元迁移和新皮层分层中起关键作用。Reelin信号传导在分层新皮层的形成中发挥重要作用,它由Reelin与其受体ApoER2和VLDLR结合触发,随后衔接蛋白Dab1发生磷酸化。越来越多的证据表明,Reelin信号传导控制神经元迁移的多个步骤,包括从多极神经元到双极神经元的转变、终末移位以及在边缘区下方迁移的终止。此外,研究表明,异位表达的Reelin可通过N-钙黏蛋白介导的方式导致神经元聚集。本综述试图总结我们对Reelin在神经元迁移中的作用及其潜在机制的认识。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5b4c/5410752/e32a72081be3/fcell-05-00040-g0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5b4c/5410752/2b762adc9712/fcell-05-00040-g0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5b4c/5410752/e32a72081be3/fcell-05-00040-g0002.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5b4c/5410752/2b762adc9712/fcell-05-00040-g0001.jpg
https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5b4c/5410752/e32a72081be3/fcell-05-00040-g0002.jpg

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