起步艰难：解读大脑皮层中神经元迁移停滞现象

Trouble making the first move: interpreting arrested neuronal migration in the cerebral cortex.

作者信息

Sarkisian Matthew R, Bartley Christopher M, Rakic Pasko

机构信息

Department of Neurobiology and Kavli Institute of Neuroscience, Yale University School of Medicine, New Haven, CT 06520, USA.

出版信息

Trends Neurosci. 2008 Feb;31(2):54-61. doi: 10.1016/j.tins.2007.11.009. Epub 2008 Jan 16.

DOI:10.1016/j.tins.2007.11.009

PMID:18201775

Abstract

Postmitotic cortical neurons that fail to initiate migration can remain near their site of origin and form persistent periventricular nodular heterotopia (PH). In human telencephalon, this malformation is most commonly associated with Filamin-A (FLNa) mutations. The lack of genetic animal models that reliably produce PH has delayed our understanding of the underlying molecular mechanisms. This review examines PH pathogenesis using a new mouse model. Although PH have not been observed in Flna-deficient mice generated thus far, the loss of MEKK4, a regulator of Flna, produces striking PH in mice and offers insight into the mechanisms involved in neuronal migration initiation. Elucidating the basic functions of FLNa and associated molecules is crucial for understanding the causes of PH and for developing prevention for at-risk patients.

摘要

未能启动迁移的有丝分裂后皮质神经元可停留在其起源部位附近，并形成持续性脑室周围结节性异位（PH）。在人类端脑中，这种畸形最常与细丝蛋白A（FLNa）突变相关。缺乏能可靠产生PH的基因动物模型，延缓了我们对潜在分子机制的理解。本综述使用一种新的小鼠模型来研究PH的发病机制。尽管迄今为止在生成的Flna基因缺陷小鼠中未观察到PH，但Flna的调节因子MEKK4的缺失在小鼠中产生了明显的PH，并为深入了解神经元迁移启动所涉及的机制提供了线索。阐明FLNa及相关分子的基本功能对于理解PH的病因以及为高危患者制定预防措施至关重要。

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起步艰难：解读大脑皮层中神经元迁移停滞现象

Trouble making the first move: interpreting arrested neuronal migration in the cerebral cortex.

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