一氧化氮依赖性抑制硫氧还蛋白相互作用蛋白的表达可增强硫氧还蛋白的活性。

Nitric oxide-dependent suppression of thioredoxin-interacting protein expression enhances thioredoxin activity.

作者信息

Schulze P Christian, Liu Heling, Choe Elizabeth, Yoshioka Jun, Shalev Anath, Bloch Kenneth D, Lee Richard T

机构信息

Cardiovascular Division, Department of Medicine, Brigham and Women's Hospital, Harvard Medical School, Boston, Mass, USA.

出版信息

Arterioscler Thromb Vasc Biol. 2006 Dec;26(12):2666-72. doi: 10.1161/01.ATV.0000248914.21018.f1. Epub 2006 Oct 5.

DOI:10.1161/01.ATV.0000248914.21018.f1

PMID:17023680

Abstract

OBJECTIVE

Cellular redox balance is regulated by enzymatic and nonenzymatic systems and freely diffusible nitric oxide (NO) promotes antioxidative mechanisms. We show the NO-dependent transcriptional regulation of the antioxidative thioredoxin system.

METHODS AND RESULTS

Incubation of rat pulmonary artery smooth muscle cells (RPaSMC) with the NO donor compound S-nitroso-glutathione (GSNO, 100 micromol/L) suppressed thioredoxin-interacting protein (Txnip), an inhibitor of thioredoxin function, by 71+/-18% and enhanced thioredoxin reductase 2.7+/-0.2 fold (n=6; both P<0.001 versus control). GSNO increased thioredoxin activity (1.9+/-0.5-fold after 4 hours; P<0.05 versus control). Promoter deletion analysis revealed that NO suppression of Txnip transcription is mediated by cis-regulatory elements between -1777 and -1127 bp upstream of the start codon. Hyperglycemia induced Txnip promoter activity (3.9+/-0.2-fold; P<0.001) and abolished NO effects (-37.4+/-1.0% at 5.6 mmol/L glucose versus 12.4+/-2.1% at 22.4 mmol/L glucose; P<0.05). Immunoprecipitation experiments demonstrated that GSNO stimulation and mutation of thioredoxin at Cys69, a site of nitrosylation, had no effect on the Txnip/thioredoxin interaction.

CONCLUSIONS

NO can regulate cellular redox state by changing expression of Txnip and thioredoxin reductase. This represents a novel antioxidative mechanism of NO independent of posttranslational protein S-nitrosylation of thioredoxin.

摘要

目的

细胞氧化还原平衡由酶促和非酶促系统调节，而自由扩散的一氧化氮（NO）可促进抗氧化机制。我们展示了抗氧化硫氧还蛋白系统的NO依赖性转录调控。

方法与结果

用NO供体化合物S-亚硝基谷胱甘肽（GSNO，100 μmol/L）孵育大鼠肺动脉平滑肌细胞（RPaSMC），可使硫氧还蛋白功能抑制剂硫氧还蛋白相互作用蛋白（Txnip）表达降低71±18%，硫氧还蛋白还原酶增加2.7±0.2倍（n = 6；与对照组相比，P均<0.001）。GSNO可增加硫氧还蛋白活性（4小时后增加1.9±0.5倍；与对照组相比，P<0.05）。启动子缺失分析显示，NO对Txnip转录的抑制作用由起始密码子上游-1777至-1127 bp之间的顺式调控元件介导。高血糖可诱导Txnip启动子活性（3.9±0.2倍；P<0.001），并消除NO的作用（5.6 mmol/L葡萄糖时为-37.4±1.0%，22.4 mmol/L葡萄糖时为12.4±2.1%；P<0.05）。免疫沉淀实验表明，GSNO刺激以及硫氧还蛋白69位半胱氨酸（亚硝基化位点）突变对Txnip/硫氧还蛋白相互作用无影响。

结论

NO可通过改变Txnip和硫氧还蛋白还原酶的表达来调节细胞氧化还原状态。这代表了一种新的NO抗氧化机制，独立于硫氧还蛋白的翻译后蛋白S-亚硝基化。

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一氧化氮依赖性抑制硫氧还蛋白相互作用蛋白的表达可增强硫氧还蛋白的活性。

Nitric oxide-dependent suppression of thioredoxin-interacting protein expression enhances thioredoxin activity.

作者信息

机构信息

出版信息

OBJECTIVE

METHODS AND RESULTS

CONCLUSIONS

目的

方法与结果

结论

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