Thioredoxin Promotes ASK1 Ubiquitination and Degradation to Inhibit ASK1-Mediated Apoptosis in a Redox Activity-Independent Manner

Ying-mei Liu, W. Min
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引用次数: 349

Abstract

It has been shown that thioredoxin (Trx) in a reduced form binds to and inhibits apoptosis signal-regulating kinase 1 (ASK1). Apoptotic stimuli such as tumor necrosis factor (TNF) and reactive oxygen species (ROS) activate ASK1 in part by oxidizing Trx (forming intramolecular disulfide between C32 and C35) to release Trx from ASK1. In the present study, we examined if Trx affects ASK1 protein stability and whether the redox activity of Trx is critical in regulating ASK1 activity. First, we showed that overexpression of the wild-type Trx (Trx-WT) in endothelial cells induced ASK1 ubiquitination and degradation. Trx-induced ASK1 ubiquitination/degradation could be blocked by ASK1 activators TNF and TRAF2. We then tested the single-mutation of Trx at the catalytic site C32 or C35 (Trx-C32S or Trx-C35S) and the double-mutation (Trx-CS). The results showed that the single mutants (but not Trx-CS) retained the binding activity for ASK1 and the ability to induce ASK1 ubiquitination/degradation. Unlike Trx-WT, Trx-C32S and Trx-C35S mutants constitutively bind to ASK1 even in the presence of hydrogen peroxide in vitro and TNF in vivo. Finally, we showed that the single mutants (not Trx-WT) significantly (n=4 and P <0.05) inhibited ASK1-induced JNK activation, caspase 3 activity, and apoptosis in TNF/ROS-resistant manner. Our data suggest that association of Trx with ASK1 through a single Cysteine (C32 or C35) is necessary and sufficient for Trx activity in inducing ASK1 ubiquitination/degradation leading to inhibition of ASK1-induced apoptosis.
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硫氧还蛋白促进ASK1泛素化和降解,以不依赖氧化还原活性的方式抑制ASK1介导的凋亡
研究表明,还原形式的硫氧还蛋白(Trx)结合并抑制凋亡信号调节激酶1 (ASK1)。凋亡刺激如肿瘤坏死因子(TNF)和活性氧(ROS)部分通过氧化Trx(在C32和C35之间形成分子内二硫化物)从ASK1释放Trx来激活ASK1。在本研究中,我们研究了Trx是否影响ASK1蛋白的稳定性,以及Trx的氧化还原活性是否在调节ASK1活性中起关键作用。首先,我们发现内皮细胞中野生型Trx (Trx- wt)的过表达诱导ASK1泛素化和降解。trx诱导的ASK1泛素化/降解可被ASK1激活因子TNF和TRAF2阻断。然后我们测试了Trx在催化位点C32或C35的单突变(Trx- c32s或Trx- c35s)和双突变(Trx- cs)。结果表明,单突变体(而非Trx-CS)保留了ASK1的结合活性和诱导ASK1泛素化/降解的能力。与Trx-WT不同,即使在体外过氧化氢和体内TNF存在的情况下,Trx-C32S和Trx-C35S突变体也能组成性地与ASK1结合。最后,我们发现单突变体(不是Trx-WT)显著(n=4, P <0.05)抑制ask1诱导的JNK激活、caspase 3活性和TNF/ ros耐药方式的凋亡。我们的数据表明,Trx通过单个半胱氨酸(C32或C35)与ASK1的关联是Trx活性诱导ASK1泛素化/降解从而抑制ASK1诱导的细胞凋亡的必要和充分条件。
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