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保守的模块化结构域协同作用使活性蛋白激酶Cα保持开放状态。

Conserved modular domains team up to latch-open active protein kinase Cα.

作者信息

Swanson Carter J, Ritt Michael, Wang William, Lang Michael J, Narayan Arvind, Tesmer John J, Westfall Margaret, Sivaramakrishnan Sivaraj

机构信息

From the Biophysics Program.

Department of Cell and Developmental Biology.

出版信息

J Biol Chem. 2014 Jun 20;289(25):17812-29. doi: 10.1074/jbc.M113.534750. Epub 2014 Apr 30.

DOI:10.1074/jbc.M113.534750
PMID:24790081
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4067214/
Abstract

Signaling proteins comprised of modular domains have evolved along with multicellularity as a method to facilitate increasing intracellular bandwidth. The effects of intramolecular interactions between modular domains within the context of native proteins have been largely unexplored. Here we examine intra- and intermolecular interactions in the multidomain signaling protein, protein kinase Cα (PKCα). We identify three interactions between two activated PKC molecules that synergistically stabilize a nanomolar affinity homodimer. Disruption of the homodimer results in a loss of PKC-mediated ERK1/2 phosphorylation, whereas disruption of the auto-inhibited state promotes the homodimer and prolongs PKC membrane localization. These observations support a novel regulatory mechanism wherein homodimerization dictates the equilibrium between the auto-inhibited and active states of PKC by sequestering auto-inhibitory interactions. Our findings underscore the physiological importance of context-dependent modular domain interactions in cell signaling.

摘要

由模块化结构域组成的信号蛋白随着多细胞生物的进化而出现,作为一种增加细胞内信息传输带宽的方式。在天然蛋白质环境中,模块化结构域之间分子内相互作用的影响在很大程度上尚未得到探索。在这里,我们研究了多结构域信号蛋白蛋白激酶Cα(PKCα)的分子内和分子间相互作用。我们确定了两个活化的PKC分子之间的三种相互作用,它们协同稳定了具有纳摩尔亲和力的同型二聚体。同型二聚体的破坏导致PKC介导的ERK1/2磷酸化丧失,而自抑制状态的破坏则促进同型二聚体形成并延长PKC膜定位。这些观察结果支持了一种新的调节机制,即同型二聚化通过隔离自抑制相互作用来决定PKC自抑制状态和活性状态之间的平衡。我们的研究结果强调了细胞信号传导中依赖于上下文的模块化结构域相互作用的生理重要性。

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