聚蛋白是 GTP 酶激活蛋白，可激活 Rap，并且通过诱导二聚化而被激活。

Plexins are GTPase-activating proteins for Rap and are activated by induced dimerization.

机构信息

Department of Pharmacology, University of Texas Southwestern Medical Center, Dallas, TX 75063, USA.

出版信息

Sci Signal. 2012 Jan 17;5(207):ra6. doi: 10.1126/scisignal.2002636.

DOI:10.1126/scisignal.2002636

PMID:22253263

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3413289/

Abstract

Plexins are cell surface receptors that bind to semaphorins and transduce signals that regulate neuronal development, immune responses, and other processes. Signaling through plexins has been proposed to rely on specific guanosine triphosphatase (GTPase)-activating protein (GAP) activity for R-Ras and M-Ras. Activation of this GAP activity of plexins appears to require simultaneous binding of semaphorin to the plexin extracellular domain and of the Rho GTPases Rac1 or Rnd1 to the cytoplasmic region. However, GAP activity of plexins has eluded detection in several recent studies. We show that the purified cytoplasmic region of plexin uses a noncanonical catalytic mechanism to act as a GAP for Rap, but not for R-Ras or M-Ras. The RapGAP activity of plexins was autoinhibited and was activated by induced dimerization. Biochemical and crystallographic analyses demonstrated that binding of Rho GTPases did not directly contribute to activation of plexin RapGAP activity. Semaphorin stimulated the RapGAP activity of full-length plexin in cells, which was required for plexin-mediated neuronal growth cone collapse. Together, these findings define a pathway for plexin signaling and provide insights into the mechanism for semaphorin-induced activation of plexins.

摘要

衔接蛋白是细胞表面受体，可与神经导向蛋白结合并传递信号，从而调节神经元发育、免疫反应和其他过程。有研究提出，衔接蛋白通过特定的鸟嘌呤核苷酸三磷酸酶（GTPase）激活蛋白（GAP）活性来调节 R-Ras 和 M-Ras。这种衔接蛋白 GAP 活性的激活似乎需要神经导向蛋白同时与衔接蛋白的细胞外结构域结合，以及 Rac1 或 Rnd1 等 Rho GTPases 与细胞质区域结合。然而，在最近的几项研究中，衔接蛋白的 GAP 活性一直难以检测到。我们发现，纯化的衔接蛋白胞质区采用非典型的催化机制，充当 Rap 的 GAP，但不能充当 R-Ras 或 M-Ras 的 GAP。衔接蛋白的 RapGAP 活性受到自身抑制，通过诱导二聚化而被激活。生化和晶体学分析表明，Rho GTPases 的结合并不能直接促进衔接蛋白 RapGAP 活性的激活。在细胞中，神经导向蛋白刺激全长衔接蛋白的 RapGAP 活性，这是衔接蛋白介导的神经生长锥塌陷所必需的。综上所述，这些发现定义了衔接蛋白信号通路，并为神经导向蛋白诱导的衔接蛋白激活机制提供了新的见解。

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