酪氨酸激酶受体对 SRC 同源 3 结构域的直接磷酸化作用使配体诱导的信号转导网络解组装。

Direct Phosphorylation of SRC Homology 3 Domains by Tyrosine Kinase Receptors Disassembles Ligand-Induced Signaling Networks.

机构信息

Centre de Recherche du Centre Hospitalier Universitaire (CHU) de Québec-Université Laval, Axe Oncologie, Québec, QC, Canada; Centre de Recherche sur le Cancer de l'Université Laval, Québec, QC, Canada; PROTEO-Quebec Network for Research on Protein Function, Engineering, and Applications, Québec, QC, Canada.

PROTEO-Quebec Network for Research on Protein Function, Engineering, and Applications, Québec, QC, Canada; INRS-Institut Armand-Frappier, Université du Québec, Laval, QC, Canada.

出版信息

Mol Cell. 2018 Jun 21;70(6):995-1007.e11. doi: 10.1016/j.molcel.2018.05.013. Epub 2018 Jun 18.

DOI:10.1016/j.molcel.2018.05.013

PMID:29910111

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6014926/

Abstract

Phosphotyrosine (pTyr) signaling has evolved into a key cell-to-cell communication system. Activated receptor tyrosine kinases (RTKs) initiate several pTyr-dependent signaling networks by creating the docking sites required for the assembly of protein complexes. However, the mechanisms leading to network disassembly and its consequence on signal transduction remain essentially unknown. We show that activated RTKs terminate downstream signaling via the direct phosphorylation of an evolutionarily conserved Tyr present in most SRC homology (SH) 3 domains, which are often part of key hub proteins for RTK-dependent signaling. We demonstrate that the direct EPHA4 RTK phosphorylation of adaptor protein NCK SH3s at these sites results in the collapse of signaling networks and abrogates their function. We also reveal that this negative regulation mechanism is shared by other RTKs. Our findings uncover a conserved mechanism through which RTKs rapidly and reversibly terminate downstream signaling while remaining in a catalytically active state on the plasma membrane.

摘要

磷酸化酪氨酸（pTyr）信号转导已进化成为一种关键的细胞间通讯系统。激活的受体酪氨酸激酶（RTKs）通过创建蛋白复合物组装所需的停靠位点，启动几个依赖于 pTyr 的信号转导网络。然而，导致网络解体的机制及其对信号转导的影响在很大程度上仍然未知。我们表明，激活的 RTKs 通过直接磷酸化大多数 SRC 同源（SH）3 结构域中存在的保守 Tyr 来终止下游信号转导，而这些结构域通常是 RTK 依赖性信号转导的关键枢纽蛋白的一部分。我们证明，EPH 受体酪氨酸激酶 EPHA4 在这些位点直接磷酸化衔接蛋白 NCK SH3，导致信号网络的崩溃，并使其丧失功能。我们还揭示了这种负调控机制被其他 RTKs 共享。我们的研究结果揭示了一种保守的机制，通过这种机制，RTKs 在保持膜上催化活性状态的同时，能够快速和可逆地终止下游信号转导。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/119c/6014926/f4ab26c7f7b8/nihms974598f1.jpg

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酪氨酸激酶受体对 SRC 同源 3 结构域的直接磷酸化作用使配体诱导的信号转导网络解组装。

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