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胱硫醚γ-裂解酶/硫化氢通路在心血管疾病中的作用:一种新的治疗策略?

Role of cystathionine γ-lyase/hydrogen sulfide pathway in cardiovascular disease: a novel therapeutic strategy?

机构信息

Department of Pharmacology, School of Pharmacy, Fudan University, Shanghai, China.

出版信息

Antioxid Redox Signal. 2012 Jul 1;17(1):106-18. doi: 10.1089/ars.2011.4349. Epub 2012 Jan 25.

DOI:10.1089/ars.2011.4349
PMID:22017202
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3342562/
Abstract

SIGNIFICANCE

Hydrogen sulfide (H(2)S) has traditionally been considered a toxic environmental pollutant. In the late 1990s, the presumed solely harmful role of H(2)S has been challenged because H(2)S may also be involved in the maintenance and preservation of cardiovascular homeostasis.

RECENT ADVANCES

The production of endogenous H(2)S has been attributed to three key enzymes, cystathionine γ-lyase (CSE), cystathionine β-synthase, and 3-mercaptopyruvate sulfurtransferase. The recognition of H(2)S as the third gaseous signaling molecule has stimulated research on a multitude of pathophysiologic events in the cardiovascular system. In particular, important roles in cardiovascular disorder processes are ascribed to the CSE/H(2)S pathway, such as atherosclerosis, myocardial infarction, hypertension, and shock.

CRITICAL ISSUES

Many biological activities and molecular mechanisms of H(2)S in the cardiovascular system have been demonstrated in studies using different tools, such as the genetic overexpression of CSE, the direct administration of H(2)S donors, or the use of H(2)S-releasing pro-drugs. Unfortunately, the role of the CSE/H(2)S pathway in cardiovascular disease remains controversial in numerous areas, and many questions regarding the gaseous molecule still remain unanswered.

FUTURE DIRECTIONS

Advances in basic research indicate that the CSE/H(2)S pathway may provide potential therapeutic targets for treating cardiovascular disorders. But the molecular targets of H(2)S still need to be identified.

摘要

意义

硫化氢 (H(2)S) 传统上被认为是一种有毒的环境污染物。在 20 世纪 90 年代末,由于 H(2)S 可能也参与了心血管稳态的维持和保护,H(2)S 的假定的唯一有害作用受到了挑战。

最新进展

内源性 H(2)S 的产生归因于三种关键酶,胱硫醚 γ-裂解酶 (CSE)、胱硫醚 β-合酶和 3-巯基丙酮酸硫转移酶。H(2)S 被认为是第三种气体信号分子,这激发了对心血管系统中多种病理生理事件的研究。特别是,CSE/H(2)S 途径在心血管紊乱过程中起着重要作用,如动脉粥样硬化、心肌梗死、高血压和休克。

关键问题

在使用不同工具(如 CSE 的遗传过表达、H(2)S 供体的直接给药或使用 H(2)S 释放前药)的研究中,已经证明了 H(2)S 在心血管系统中的许多生物学活性和分子机制。不幸的是,CSE/H(2)S 途径在心血管疾病中的作用在许多领域仍然存在争议,并且关于这种气体分子仍有许多问题尚未得到解答。

未来方向

基础研究的进展表明,CSE/H(2)S 途径可能为治疗心血管疾病提供潜在的治疗靶点。但是 H(2)S 的分子靶点仍有待确定。

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本文引用的文献

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Hydrogen sulphide: novel opportunity for drug discovery.硫化氢:药物研发的新机遇。
Med Res Rev. 2012 Nov;32(6):1093-130. doi: 10.1002/med.20234. Epub 2010 Dec 7.
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Hydrogen sulfide replacement therapy protects the vascular endothelium in hyperglycemia by preserving mitochondrial function.硫化氢替代疗法通过维持线粒体功能来保护高血糖中的血管内皮。
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Hydrogen sulfide attenuated tumor necrosis factor-α-induced inflammatory signaling and dysfunction in vascular endothelial cells.硫化氢减轻肿瘤坏死因子-α诱导的血管内皮细胞炎症信号和功能障碍。
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Intermittent hypoxia in rats increases myogenic tone through loss of hydrogen sulfide activation of large-conductance Ca(2+)-activated potassium channels.大鼠间歇性缺氧通过减少硫化氢对大电导钙激活钾通道的激活作用增加肌源性张力。
Circ Res. 2011 Jun 10;108(12):1439-47. doi: 10.1161/CIRCRESAHA.110.228999. Epub 2011 Apr 21.
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Effects of onion extract on endogenous vascular H2S and adrenomedulin in rat atherosclerosis.洋葱提取物对大鼠动脉粥样硬化中内源性血管 H2S 和肾上腺髓质素的影响。
Curr Pharm Biotechnol. 2011 Sep;12(9):1427-39. doi: 10.2174/138920111798281135.
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A new hope for neurodegeneration: possible role of hydrogen sulfide.神经退行性疾病的新希望:硫化氢的可能作用。
J Alzheimers Dis. 2011;24 Suppl 2:173-82. doi: 10.3233/JAD-2011-110128.
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The protective role of hydrogen sulfide in myocardial ischemia-reperfusion-induced injury in diabetic rats.硫化氢在糖尿病大鼠心肌缺血再灌注损伤中的保护作用。
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S-Propargyl-cysteine (SPRC) attenuated lipopolysaccharide-induced inflammatory response in H9c2 cells involved in a hydrogen sulfide-dependent mechanism.S-丙炔基半胱氨酸(SPRC)通过硫化氢依赖机制减轻脂多糖诱导的 H9c2 细胞炎症反应。
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Regulatory effects of sulfur dioxide on the development of atherosclerotic lesions and vascular hydrogen sulfide in atherosclerotic rats.二氧化硫对动脉粥样硬化大鼠粥样硬化病变和血管硫化氢发展的调节作用。
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