RGS2通过刺激微管聚合促进神经突的形成。

RGS2 promotes formation of neurites by stimulating microtubule polymerization.

作者信息

Heo Kyun, Ha Sang Hoon, Chae Young Chan, Lee Sukmook, Oh Yong-Seok, Kim Yun-Hee, Kim Sun-Hee, Kim Jung Hwan, Mizoguchi Akira, Itoh Tomohiko J, Kwon H Moo, Ryu Sung Ho, Suh Pann-Ghill

机构信息

Division of Molecular and Life Science, Pohang University of Science and Technology, Pohang, Kyungbuk 790-784, South Korea.

出版信息

Cell Signal. 2006 Dec;18(12):2182-92. doi: 10.1016/j.cellsig.2006.05.006. Epub 2006 May 23.

DOI:10.1016/j.cellsig.2006.05.006

PMID:16820281

Abstract

Regulator of G-protein signaling (RGS) proteins interact with alpha subunits of heterotrimeric G-proteins via the RGS domain and attenuate their activity by accelerating GTPase activity. RGS2, a member of the RGS family, regulates synaptic development via hereto unknown mechanism. In this study, we found that RGS2 directly interacted with tubulin via a short region at the N-terminus: amino acids 41-60. RGS2 enhanced microtubule polymerization in vitro, and the tubulin binding region was necessary and sufficient for this activity. In Vero cells, polymerization of microtubule was stimulated when peptides containing the tubulin binding region were microinjected. Immunocytochemical analysis showed that endogenous RGS2 was localized at the termini of neurites in differentiated PC12 cells. Over-expression of RGS2 enhanced the nerve growth factor-induced neurite outgrowth in PC12 cells, while specific knock-down of endogenous RGS2 suppressed the neurite outgrowth. These findings demonstrate that RGS2 contributes to the neuronal cell differentiation via regulation of microtubule dynamics.

摘要

G蛋白信号调节因子（RGS）蛋白通过RGS结构域与异源三聚体G蛋白的α亚基相互作用，并通过加速GTP酶活性来减弱其活性。RGS家族成员RGS2通过未知机制调节突触发育。在本研究中，我们发现RGS2通过N端的一个短区域（氨基酸41-60）直接与微管蛋白相互作用。RGS2在体外增强微管聚合，并且微管蛋白结合区域对于该活性是必需且足够的。在Vero细胞中，当显微注射含有微管蛋白结合区域的肽时，微管的聚合受到刺激。免疫细胞化学分析表明，内源性RGS2定位于分化的PC12细胞的神经突末端。RGS2的过表达增强了神经生长因子诱导的PC12细胞中的神经突生长，而内源性RGS2的特异性敲低则抑制了神经突生长。这些发现表明，RGS2通过调节微管动力学促进神经元细胞分化。

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RGS2通过刺激微管聚合促进神经突的形成。

RGS2 promotes formation of neurites by stimulating microtubule polymerization.

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