果蝇 Hem/Kette/Nap1 蛋白通过调节 Inscuteable 和 Numb 的定位来调节神经前体细胞的不对称分裂。

The Drosophila Hem/Kette/Nap1 protein regulates asymmetric division of neural precursor cells by regulating localization of Inscuteable and Numb.

机构信息

Department of Neuroscience and Cell Biology, University of Texas Medical Branch School of Medicine, Galveston, TX 77598, United States.

出版信息

Mech Dev. 2011 Sep-Dec;128(7-10):483-95. doi: 10.1016/j.mod.2011.09.004. Epub 2011 Oct 2.

DOI:10.1016/j.mod.2011.09.004

PMID:21996673

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3263386/

Abstract

The Hem/Kette/Nap1 protein is involved in many biological processes. We have recently reported that Hem is required for the normal migration of neurons in the Drosophila embryo. In this paper, we report that Hem regulates the asymmetric division of neural precursor cells. We find that a well-studied Hem/Kette mutant allele produces at least two main, but possibly more, phenotypic classes of mutant embryos, and these phenotypes correlate with variable levels of maternal wild type Hem protein in the developing embryo. While the weaker class exhibits weak axon guidance defect and the mis-migration of neurons, the stronger class causes severe axon guidance defects, mis-migration of neurons and symmetric division of ganglion mother cells (GMC) of the RP2/sib lineage. We also show that the basis for the loss of asymmetric division is due to non-localization of Inscuteable and Numb in GMC-1. A non-asymmetric Numb segregates to both daughter cells of GMC-1, which then prevents Notch signaling from specifying a sib fate. This causes both cells to adopt an RP2 fate. Furthermore, loss of function for Abelson tyrosine kinase also causes loss of asymmetric localization of Inscuteable and Numb and symmetric division of GMC-1, the loss of function for WAVE has a very weakly penetrant loss of asymmetry defect. These results define another role for Hem/Kette/Nap1 in a neural precursor cell during neurogenesis.

摘要

Hem/Kette/Nap1 蛋白参与许多生物过程。我们最近报道过，Hem 对于果蝇胚胎中神经元的正常迁移是必需的。在本文中，我们报告称 Hem 调节神经前体细胞的不对称分裂。我们发现，一个经过充分研究的 Hem/Kette 突变等位基因至少产生两种主要的，但可能更多的，突变胚胎表型类别，这些表型与发育胚胎中母体野生型 Hem 蛋白的可变水平相关。较弱的表型类表现出微弱的轴突导向缺陷和神经元的迁移错误，而较强的表型类则导致严重的轴突导向缺陷、神经元的迁移错误和 RP2/sib 谱系的神经母细胞（GMC）的对称分裂。我们还表明，不对称分裂的丧失是由于 Inscuteable 和 Numb 在 GMC-1 中的非定位。非不对称的 Numb 分配到 GMC-1 的两个子细胞中，这阻止了 Notch 信号指定 sib 命运。这导致两个细胞都采用 RP2 命运。此外，Abelson 酪氨酸激酶的功能丧失也会导致 Inscuteable 和 Numb 的不对称定位丧失和 GMC-1 的对称分裂，WAVE 的功能丧失会导致非常微弱的不对称缺陷。这些结果定义了 Hem/Kette/Nap1 在神经发生过程中神经前体细胞中的另一个作用。

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