硫氧还蛋白 1 作为分子开关调节 MST1 氧化应激诱导的激活。

Thioredoxin-1 functions as a molecular switch regulating the oxidative stress-induced activation of MST1.

机构信息

Laboratory of Cell Death and Human Diseases, School of Life Sciences, South Korea.

Department of Biological Sciences, Biomedical Research Center, Korea Advanced Institute of Science and Technology, Daejeon 305-701, South Korea.

出版信息

Free Radic Biol Med. 2012 Dec 15;53(12):2335-43. doi: 10.1016/j.freeradbiomed.2012.10.527. Epub 2012 Oct 17.

DOI:10.1016/j.freeradbiomed.2012.10.527

PMID:23085515

Abstract

The mammalian STE20-like kinase-1 (MST1), a multifunctional serine-threonine kinase in mammalian cells, has been recently implicated in the mediation of oxidative stress-induced signaling processes that lead to cell death. However, the molecular mechanism by which oxidative stress induces the stimulation of MST1 remains unclear. In this study, we found that thioredoxin-1 was physically associated with MST1 in intact cells and that this interaction was abolished by H2O2. Thioredoxin-1, by binding to the SARAH domain of MST1, inhibited the homodimerization and autophosphorylation of MST1, thereby preventing its activation. Furthermore, TNF-α prevented the physical interaction between thioredoxin-1 and MST1 and promoted the homodimerization and activation of MST1. The effect of TNF-α on MST1 activation was reversed by the reducing agent N-acetyl-l-cysteine. Taken together, our results suggest that thioredoxin-1 functions as a molecular switch to turn off the oxidative stress-induced activation of MST1.

摘要

哺乳动物 STE20 样激酶-1（MST1）是哺乳动物细胞中的一种多功能丝氨酸/苏氨酸激酶，最近被牵连到介导氧化应激诱导的信号通路，导致细胞死亡。然而，氧化应激诱导 MST1 刺激的分子机制仍不清楚。在这项研究中，我们发现还原型谷胱甘肽（Trx-1）在完整细胞中与 MST1 发生物理性结合，而这种相互作用会被 H2O2 所消除。Trx-1 通过与 MST1 的 SARAH 结构域结合，抑制 MST1 的同源二聚化和自磷酸化，从而阻止其激活。此外，TNF-α 可阻止 Trx-1 与 MST1 之间的物理相互作用，并促进 MST1 的同源二聚化和激活。还原剂 N-乙酰-L-半胱氨酸（NAC）可逆转 TNF-α 对 MST1 激活的影响。综上所述，我们的结果表明，Trx-1 作为一种分子开关，可关闭氧化应激诱导的 MST1 激活。

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硫氧还蛋白 1 作为分子开关调节 MST1 氧化应激诱导的激活。

Thioredoxin-1 functions as a molecular switch regulating the oxidative stress-induced activation of MST1.

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