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本文引用的文献

1
The redox mechanism for vascular barrier dysfunction associated with metabolic disorders: Glutathionylation of Rac1 in endothelial cells.与代谢紊乱相关的血管屏障功能障碍的氧化还原机制:内皮细胞中Rac1的谷胱甘肽化作用。
Redox Biol. 2016 Oct;9:306-319. doi: 10.1016/j.redox.2016.09.003. Epub 2016 Sep 11.
2
Glutathione adducts induced by ischemia and deletion of glutaredoxin-1 stabilize HIF-1α and improve limb revascularization.缺血诱导的谷胱甘肽加合物与谷氧还蛋白-1缺失可稳定缺氧诱导因子-1α并改善肢体血管再生。
Proc Natl Acad Sci U S A. 2016 May 24;113(21):6011-6. doi: 10.1073/pnas.1524198113. Epub 2016 May 9.
3
Reversible glutathionylation of Sir2 by monothiol glutaredoxins Grx3/4 regulates stress resistance.单硫醇谷氧还蛋白Grx3/4对Sir2进行的可逆谷胱甘肽化修饰调节应激抗性。
Free Radic Biol Med. 2016 Jul;96:45-56. doi: 10.1016/j.freeradbiomed.2016.04.008. Epub 2016 Apr 13.
4
Protective effect and mechanism of glutaredoxin 1 on coronary arteries endothelial cells damage induced by high glucose.谷氧还蛋白1对高糖诱导的冠状动脉内皮细胞损伤的保护作用及机制
Biomed Mater Eng. 2014;24(6):3897-903. doi: 10.3233/BME-141221.
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Aging-dependent changes in rat heart mitochondrial glutaredoxins--Implications for redox regulation.大鼠心脏线粒体谷氧还蛋白随衰老的变化——对氧化还原调节的意义
Redox Biol. 2013 Nov 12;1(1):586-98. doi: 10.1016/j.redox.2013.10.010. eCollection 2013.
6
Glutaredoxin-1 up-regulation induces soluble vascular endothelial growth factor receptor 1, attenuating post-ischemia limb revascularization.谷氧还蛋白-1 的上调诱导可溶性血管内皮生长因子受体 1,从而减轻缺血后肢体再血管化。
J Biol Chem. 2014 Mar 21;289(12):8633-44. doi: 10.1074/jbc.M113.517219. Epub 2014 Jan 30.
7
A redox-resistant sirtuin-1 mutant protects against hepatic metabolic and oxidant stress.一种抗氧化的 SIRT1 突变体能抵抗肝脏的代谢和氧化应激。
J Biol Chem. 2014 Mar 14;289(11):7293-306. doi: 10.1074/jbc.M113.520403. Epub 2014 Jan 22.
8
Glutaredoxin-1 attenuates S-glutathionylation of the death receptor fas and decreases resolution of Pseudomonas aeruginosa pneumonia.谷氧还蛋白-1减轻死亡受体Fas的S-谷胱甘肽化并降低铜绿假单胞菌肺炎的消退。
Am J Respir Crit Care Med. 2014 Feb 15;189(4):463-74. doi: 10.1164/rccm.201310-1905OC.
9
Glutaredoxin regulates vascular development by reversible glutathionylation of sirtuin 1.谷氧还蛋白通过对沉默调节蛋白 1 的可逆谷胱甘肽化来调节血管发育。
Proc Natl Acad Sci U S A. 2013 Dec 10;110(50):20057-62. doi: 10.1073/pnas.1313753110. Epub 2013 Nov 25.
10
Transcriptional control of hepatic lipid metabolism by SREBP and ChREBP.SREBP 和 ChREBP 对肝脂代谢的转录控制。
Semin Liver Dis. 2013 Nov;33(4):301-11. doi: 10.1055/s-0033-1358523. Epub 2013 Nov 12.

谷氧还蛋白-1缺乏通过抑制沉默调节蛋白-1导致脂肪肝和血脂异常。

Glutaredoxin-1 Deficiency Causes Fatty Liver and Dyslipidemia by Inhibiting Sirtuin-1.

作者信息

Shao Di, Han Jingyan, Hou Xiuyun, Fry Jessica, Behring Jessica B, Seta Francesca, Long Michelle T, Roy Hemant K, Cohen Richard A, Matsui Reiko, Bachschmid Markus M

机构信息

1 Vascular Biology Section, Whitaker Cardiovascular Institute, Boston University School of Medicine , Boston, Massachusetts.

3 Division of Gastroenterology, Boston Medical Center , Boston, Massachusetts.

出版信息

Antioxid Redox Signal. 2017 Aug 20;27(6):313-327. doi: 10.1089/ars.2016.6716. Epub 2017 Feb 16.

DOI:10.1089/ars.2016.6716
PMID:27958883
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5563925/
Abstract

AIMS

Nonalcoholic fatty liver (NAFL) is a common liver disease associated with metabolic syndrome, obesity, and diabetes that is rising in prevalence worldwide. Various molecular perturbations of key regulators and enzymes in hepatic lipid metabolism cause NAFL. However, redox regulation through glutathione (GSH) adducts in NAFL remains largely elusive. Glutaredoxin-1 (Glrx) is a small thioltransferase that removes protein GSH adducts without having direct antioxidant properties. The liver contains abundant Glrx but its metabolic function is unknown.

RESULTS

Here we report that normal diet-fed Glrx-deficient mice (Glrx) spontaneously develop obesity, hyperlipidemia, and hepatic steatosis by 8 months of age. Adenoviral Glrx repletion in the liver of Glrx mice corrected lipid metabolism. Glrx mice exhibited decreased sirtuin-1 (SirT1) activity that leads to hyperacetylation and activation of SREBP-1 and upregulation of key hepatic enzymes involved in lipid synthesis. We found that GSH adducts inhibited SirT1 activity in Glrx mice. Hepatic expression of nonoxidizable cysteine mutant SirT1 corrected hepatic lipids in Glrx mice. Wild-type mice fed high-fat diet develop metabolic syndrome, diabetes, and NAFL within several months. Glrx deficiency accelerated high-fat-induced NAFL and progression to steatohepatitis, manifested by hepatic damage and inflammation.

INNOVATION

These data suggest an essential role of hepatic Glrx in regulating SirT1, which controls protein glutathione adducts in the pathogenesis of hepatic steatosis.

CONCLUSION

We provide a novel redox-dependent mechanism for regulation of hepatic lipid metabolism, and propose that upregulation of hepatic Glrx may be a beneficial strategy for NAFL. Antioxid. Redox Signal. 27, 313-327.

摘要

目的

非酒精性脂肪肝(NAFL)是一种与代谢综合征、肥胖症和糖尿病相关的常见肝脏疾病,在全球范围内患病率呈上升趋势。肝脏脂质代谢中关键调节因子和酶的各种分子扰动会导致NAFL。然而,NAFL中通过谷胱甘肽(GSH)加合物进行的氧化还原调节在很大程度上仍不清楚。谷氧还蛋白-1(Glrx)是一种小型硫醇转移酶,可去除蛋白质GSH加合物,而不具有直接的抗氧化特性。肝脏中含有丰富的Glrx,但其代谢功能尚不清楚。

结果

在此我们报告,正常饮食喂养的Glrx缺陷小鼠(Glrx -/-)在8个月大时会自发出现肥胖、高脂血症和肝脂肪变性。在Glrx -/-小鼠肝脏中通过腺病毒补充Glrx可纠正脂质代谢。Glrx -/-小鼠表现出沉默调节蛋白-1(SirT1)活性降低,这导致SREBP-1的高乙酰化和激活以及参与脂质合成的关键肝脏酶的上调。我们发现GSH加合物在Glrx -/-小鼠中抑制SirT1活性。不可氧化半胱氨酸突变体SirT1的肝脏表达纠正了Glrx -/-小鼠的肝脏脂质。喂食高脂饮食的野生型小鼠在几个月内会发展为代谢综合征、糖尿病和NAFL。Glrx缺陷加速了高脂诱导的NAFL并进展为脂肪性肝炎,表现为肝脏损伤和炎症。

创新点

这些数据表明肝脏Glrx在调节SirT1中起重要作用,SirT1在肝脂肪变性的发病机制中控制蛋白质谷胱甘肽加合物。

结论

我们提供了一种新的氧化还原依赖性肝脏脂质代谢调节机制,并提出上调肝脏Glrx可能是NAFL的一种有益策略。《抗氧化与氧化还原信号》27卷,313 - 327页。