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TRB3的缺失改变了MLK3-JNK信号传导的动力学,并抑制细胞因子激活的胰腺β细胞死亡。

Loss of TRB3 alters dynamics of MLK3-JNK signaling and inhibits cytokine-activated pancreatic beta cell death.

作者信息

Humphrey Rohan K, Ray Anamika, Gonuguntla Sumati, Hao Ergeng, Jhala Ulupi S

机构信息

From the Pediatric Diabetes Research Center, University of California, San Diego School of Medicine, La Jolla, California 92037.

From the Pediatric Diabetes Research Center, University of California, San Diego School of Medicine, La Jolla, California 92037

出版信息

J Biol Chem. 2014 Oct 24;289(43):29994-30004. doi: 10.1074/jbc.M114.575613. Epub 2014 Sep 9.

DOI:10.1074/jbc.M114.575613
PMID:25204656
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4208007/
Abstract

Disabling cellular defense mechanisms is essential for induction of apoptosis. We have previously shown that cytokine-mediated activation of the MAP3K MLK3 stabilizes TRB3 protein levels to inhibit AKT and compromise beta cell survival. Here, we show that genetic deletion of TRB3 results in basal activation of AKT, preserves mitochondrial integrity, and confers resistance against cytokine-induced pancreatic beta cell death. Mechanistically, we find that TRB3 stabilizes MLK3, most likely by suppressing AKT-directed phosphorylation, ubiquitination, and proteasomal degradation of MLK3. Accordingly, TRB3(-/-) islets show a decrease in both the amplitude and duration of cytokine-stimulated MLK3 induction and JNK activation. It is well known that JNK signaling is facilitated by a feed forward loop of sequential kinase phosphorylation and is reinforced by a mutual stabilization of the module components. The failure of TRB3(-/-) islets to mount an optimal JNK activation response, coupled with the ability of TRB3 to engage and maintain steady state levels of MLK3, recasts TRB3 as an integral functional component of the JNK module in pancreatic beta cells.

摘要

破坏细胞防御机制对于诱导细胞凋亡至关重要。我们之前已经表明,细胞因子介导的丝裂原活化蛋白激酶激酶激酶3(MAP3K MLK3)激活可稳定TRB3蛋白水平,从而抑制AKT并损害β细胞存活。在此,我们表明TRB3基因缺失导致AKT的基础激活,维持线粒体完整性,并赋予对细胞因子诱导的胰腺β细胞死亡的抗性。从机制上讲,我们发现TRB3稳定MLK3,最有可能是通过抑制AKT介导的MLK3磷酸化、泛素化和蛋白酶体降解。因此,TRB3基因敲除的胰岛在细胞因子刺激的MLK3诱导和JNK激活的幅度和持续时间上均表现出降低。众所周知,JNK信号传导通过顺序激酶磷酸化的前馈环促进,并通过模块组件的相互稳定得到加强。TRB3基因敲除的胰岛未能产生最佳的JNK激活反应,再加上TRB3能够结合并维持MLK3的稳态水平,这将TRB3重塑为胰腺β细胞中JNK模块的一个不可或缺的功能组件。

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