一对RNA结合蛋白控制着有助于神经细胞类型特化的剪接事件网络。

A pair of RNA-binding proteins controls networks of splicing events contributing to specialization of neural cell types.

作者信息

Norris Adam D, Gao Shangbang, Norris Megan L, Ray Debashish, Ramani Arun K, Fraser Andrew G, Morris Quaid, Hughes Timothy R, Zhen Mei, Calarco John A

机构信息

FAS Center for Systems Biology, Harvard University, 52 Oxford Street, Cambridge, MA 02138, USA.

Lunenfeld-Tanenbaum Research Institute, 600 University Avenue, Toronto, ON M5G 1X5, Canada.

出版信息

Mol Cell. 2014 Jun 19;54(6):946-959. doi: 10.1016/j.molcel.2014.05.004. Epub 2014 Jun 5.

DOI:10.1016/j.molcel.2014.05.004

PMID:24910101

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4096705/

Abstract

Alternative splicing is important for the development and function of the nervous system, but little is known about the differences in alternative splicing between distinct types of neurons. Furthermore, the factors that control cell-type-specific splicing and the physiological roles of these alternative isoforms are unclear. By monitoring alternative splicing at single-cell resolution in Caenorhabditis elegans, we demonstrate that splicing patterns in different neurons are often distinct and highly regulated. We identify two conserved RNA-binding proteins, UNC-75/CELF and EXC-7/Hu/ELAV, which regulate overlapping networks of splicing events in GABAergic and cholinergic neurons. We use the UNC-75 exon network to discover regulators of synaptic transmission and to identify unique roles for isoforms of UNC-64/Syntaxin, a protein required for synaptic vesicle fusion. Our results indicate that combinatorial regulation of alternative splicing in distinct neurons provides a mechanism to specialize metazoan nervous systems.

摘要

可变剪接对神经系统的发育和功能很重要，但对于不同类型神经元之间可变剪接的差异却知之甚少。此外，控制细胞类型特异性剪接的因素以及这些可变异构体的生理作用尚不清楚。通过在秀丽隐杆线虫中以单细胞分辨率监测可变剪接，我们证明不同神经元中的剪接模式通常是不同的且受到高度调控。我们鉴定出两种保守的RNA结合蛋白，UNC-75/CELF和EXC-7/Hu/ELAV，它们调节GABA能和胆碱能神经元中重叠的剪接事件网络。我们利用UNC-75外显子网络发现突触传递的调节因子，并确定UNC-64/突触融合蛋白异构体的独特作用，UNC-64/突触融合蛋白是突触小泡融合所需的一种蛋白质。我们的结果表明，不同神经元中可变剪接的组合调控为后生动物神经系统的特化提供了一种机制。

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