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Tbc1d1 和 AS160/Tbc1d4 在 GLUT4 运输活动中的协同作用。

Cooperative actions of Tbc1d1 and AS160/Tbc1d4 in GLUT4-trafficking activities.

机构信息

Frontier Research Institute for Interdisciplinary Sciences, Sendai 980-8579, Japan; Graduate School of Biomedical Engineering, Sendai 980-8579, Japan.

Department of Information and Intelligent Systems, Tohoku University, Sendai 980-8579, Japan.

出版信息

J Biol Chem. 2019 Jan 25;294(4):1161-1172. doi: 10.1074/jbc.RA118.004614. Epub 2018 Nov 27.

DOI:10.1074/jbc.RA118.004614
PMID:30482843
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6349102/
Abstract

AS160 and Tbc1d1 are key Rab GTPase-activating proteins (RabGAPs) that mediate release of static GLUT4 in response to insulin or exercise-mimetic stimuli, respectively, but their cooperative regulation and its underlying mechanisms remain unclear. By employing GLUT4 nanometry with cell-based reconstitution models, we herein analyzed the functional cooperative activities of the RabGAPs. When both RabGAPs are present, Tbc1d1 functionally dominates AS160, and stimuli-inducible GLUT4 release relies on Tbc1d1-evoking proximal stimuli, such as AICAR and intracellular Ca Detailed functional assessments with varying expression ratios revealed that AS160 modulates sensitivity to external stimuli in Tbc1d1-mediated GLUT4 release. For example, Tbc1d1-governed GLUT4 release triggered by Ca plus insulin occurred more efficiently than that in cells with little or no AS160. Series of mutational analyses revealed that these synergizing actions rely on the phosphotyrosine-binding 1 (PTB1) and calmodulin-binding domains of Tbc1d1 as well as key phosphorylation sites of both AS160 (Thr) and Tbc1d1 (Ser and Thr). Thus, the emerging cooperative governance relying on the multiple regulatory nodes of both Tbc1d1 and AS160, functioning together, plays a key role in properly deciphering biochemical signals into a physical GLUT4 release process in response to insulin, exercise, and the two in combination.

摘要

AS160 和 Tbc1d1 是关键的 Rab GTPase 激活蛋白(RabGAPs),分别介导静态 GLUT4 的释放以响应胰岛素或运动模拟刺激,但它们的协同调节及其潜在机制仍不清楚。通过采用基于细胞的重组模型进行 GLUT4 纳米测量,我们在此分析了 RabGAPs 的功能协同活性。当两种 RabGAPs 都存在时,Tbc1d1 在功能上支配 AS160,并且刺激诱导的 GLUT4 释放依赖于 Tbc1d1 引发的近端刺激,如 AICAR 和细胞内 Ca2+。通过改变表达比率进行详细的功能评估表明,AS160 调节 Tbc1d1 介导的 GLUT4 释放中对外部刺激的敏感性。例如,在 Ca2+加胰岛素触发的 Tbc1d1 控制的 GLUT4 释放中,比细胞中几乎没有或没有 AS160 时更有效。一系列突变分析表明,这些协同作用依赖于 Tbc1d1 的磷酸酪氨酸结合 1(PTB1)和钙调蛋白结合结构域以及 AS160(Thr)和 Tbc1d1(Ser 和 Thr)的关键磷酸化位点。因此,新兴的协同治理依赖于 Tbc1d1 和 AS160 的多个调节节点,共同发挥作用,在适当解码生化信号到物理 GLUT4 释放过程中起着关键作用,以响应胰岛素、运动以及两者的组合。

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