胱硫醚γ-裂解酶通过一氧化氮依赖的单核细胞募集来调节动脉生成。

Cystathionine γ-lyase regulates arteriogenesis through NO-dependent monocyte recruitment.

作者信息

Kolluru Gopi K, Bir Shyamal C, Yuan Shuai, Shen Xinggui, Pardue Sibile, Wang Rui, Kevil Christopher G

机构信息

Department of Pathology, LSU Health Sciences Center Shreveport Center for Cardiovascular Diseases and Sciences, LSU Health Sciences Center Shreveport, 1501 Kings Hwy, Shreveport, LA 71130, USA.

Department of Pathology, LSU Health Sciences Center Shreveport.

出版信息

Cardiovasc Res. 2015 Sep 1;107(4):590-600. doi: 10.1093/cvr/cvv198. Epub 2015 Jul 20.

DOI:10.1093/cvr/cvv198

PMID:26194202

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4540149/

Abstract

AIMS

Hydrogen sulfide (H2S) is a vasoactive gasotransmitter that is endogenously produced in the vasculature by the enzyme cystathionine γ-lyase (CSE). However, the importance of CSE activity and local H2S generation for ischaemic vascular remodelling remains completely unknown. In this study, we examine the hypothesis that CSE critically regulates ischaemic vascular remodelling involving H2S-dependent mononuclear cell regulation of arteriogenesis.

METHODS AND RESULTS

Arteriogenesis including mature vessel density, collateral formation, blood flow, and SPY angiographic blush rate were determined in wild-type (WT) and CSE knockout (KO) mice at different time points following femoral artery ligation (FAL). The role of endogenous H2S in regulation of IL-16 expression and subsequent recruitment of monocytes, and expression of VEGF and bFGF in ischaemic tissues, were determined along with endothelial progenitor cell (CD34/Flk1) formation and function. FAL of WT mice significantly increased CSE activity, expression and endogenous H2S generation in ischaemic tissues, and monocyte infiltration, which was absent in CSE-deficient mice. Treatment of CSE KO mice with the polysulfide donor diallyl trisulfide restored ischaemic vascular remodelling, monocyte infiltration, and cytokine expression. Importantly, exogenous H2S therapy restored nitric oxide (NO) bioavailability in CSE KO mice that was responsible for monocyte recruitment and arteriogenesis.

CONCLUSION

Endogenous CSE/H2S regulates ischaemic vascular remodelling mediated during hind limb ischaemia through NO-dependent monocyte recruitment and cytokine induction revealing a previously unknown mechanism of arteriogenesis.

摘要

目的

硫化氢（H2S）是一种血管活性气体递质，由胱硫醚γ-裂解酶（CSE）在血管系统内源性产生。然而，CSE活性和局部H2S生成对缺血性血管重塑的重要性仍完全未知。在本研究中，我们检验了以下假设：CSE对涉及H2S依赖性单核细胞调节动脉生成的缺血性血管重塑起关键调节作用。

方法与结果

在股动脉结扎（FAL）后的不同时间点，测定野生型（WT）和CSE基因敲除（KO）小鼠的动脉生成情况，包括成熟血管密度、侧支形成、血流量和SPY血管造影造影剂充盈率。同时测定内源性H2S在调节IL-16表达及随后单核细胞募集、缺血组织中VEGF和bFGF表达中的作用，以及内皮祖细胞（CD34/Flk1）的形成和功能。WT小鼠的FAL显著增加了缺血组织中的CSE活性、表达和内源性H2S生成，以及单核细胞浸润，而CSE缺陷小鼠中则不存在这种情况。用多硫化物供体二烯丙基三硫化物治疗CSE KO小鼠可恢复缺血性血管重塑、单核细胞浸润和细胞因子表达。重要的是，外源性H2S治疗恢复了CSE KO小鼠中的一氧化氮（NO）生物利用度，这与单核细胞募集和动脉生成有关。

结论

内源性CSE/H2S通过NO依赖性单核细胞募集和细胞因子诱导来调节后肢缺血期间介导的缺血性血管重塑，揭示了一种先前未知的动脉生成机制。

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