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极性激酶MARK2/Par-1的精确平衡是皮质神经元正常迁移所必需的。

Accurate balance of the polarity kinase MARK2/Par-1 is required for proper cortical neuronal migration.

作者信息

Sapir Tamar, Sapoznik Sivan, Levy Talia, Finkelshtein Danit, Shmueli Anat, Timm Thomas, Mandelkow Eva-Maria, Reiner Orly

机构信息

Department of Molecular Genetics, The Weizmann Institute of Science, Rehovot 76100, Israel.

出版信息

J Neurosci. 2008 May 28;28(22):5710-20. doi: 10.1523/JNEUROSCI.0911-08.2008.

DOI:10.1523/JNEUROSCI.0911-08.2008
PMID:18509032
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6670809/
Abstract

Radial neuronal migration is key in structuring the layered cortex. Here we studied the role of MARK2/Par-1 in this process. The dual name stands for the MAP/microtubule affinity-regulating kinase 2 (MARK2) and the known polarity kinase 1 (Par-1). Reduced MARK2 levels using in utero electroporation resulted in multipolar neurons stalled at the intermediate zone border. Reintroduction of the wild-type kinase postmitotically improved neuronal migration. Our results indicated that reduction in MARK2 affected centrosomal dynamics in migrating neurons of the cerebral cortex. Increased MARK2 has been shown to destabilize microtubules, and here we show for the first time that reduced MARK2 stabilized microtubules in primary cultured neurons. Kinase-independent activity permitted multipolar-to-bipolar transition but did not restore proper migration. Increased MARK2 levels resulted in a different phenotype, which is loss of neuronal polarity. MARK2 kinase activity reduction hindered migration in the developing brain, which was rescued by increasing kinase activity. Our results stress the necessity of maintaining dynamic microtubules for proper neuronal migration. Furthermore, the exact requirements for MARK2 and its kinase activity vary during the course of neuronal migration. Collectively, our results stress the requirements for the different roles of MARK2 during neuronal migration.

摘要

放射状神经元迁移是构建分层皮质的关键。在此,我们研究了MARK2/Par-1在此过程中的作用。这个双重名称代表微管相关蛋白/微管亲和力调节激酶2(MARK2)和已知的极性激酶1(Par-1)。通过子宫内电穿孔降低MARK2水平会导致多极神经元停滞在中间带边界。有丝分裂后重新引入野生型激酶可改善神经元迁移。我们的结果表明,MARK2水平降低会影响大脑皮质迁移神经元的中心体动力学。已有研究表明,增加MARK2会使微管不稳定,而在此我们首次表明,降低MARK2会使原代培养神经元中的微管稳定。不依赖激酶的活性允许多极向双极转变,但无法恢复正常迁移。MARK2水平升高会导致不同的表型,即神经元极性丧失。降低MARK2激酶活性会阻碍发育中大脑的迁移,而增加激酶活性可挽救这种情况。我们的结果强调了维持动态微管对正常神经元迁移的必要性。此外,在神经元迁移过程中,对MARK2及其激酶活性的确切要求会有所不同。总的来说,我们的结果强调了MARK2在神经元迁移过程中不同作用的要求。

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Dual subcellular roles for LIS1 and dynein in radial neuronal migration in live brain tissue.LIS1和动力蛋白在活脑组织中神经元径向迁移中的双重亚细胞作用。
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Cdk5 is required for multipolar-to-bipolar transition during radial neuronal migration and proper dendrite development of pyramidal neurons in the cerebral cortex.在大脑皮层中,径向神经元迁移过程中的多极到双极转变以及锥体神经元的正常树突发育需要Cdk5。
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