人可溶性环氧化物水解酶在血管内皮细胞中的过表达（Tie2-sEH Tr）减轻小鼠冠状动脉反应性充血：氧化脂质和ω-羟化酶的作用

Vascular Endothelial Over-Expression of Human Soluble Epoxide Hydrolase (Tie2-sEH Tr) Attenuates Coronary Reactive Hyperemia in Mice: Role of Oxylipins and ω-Hydroxylases.

作者信息

Hanif Ahmad, Edin Matthew L, Zeldin Darryl C, Morisseau Christophe, Falck John R, Nayeem Mohammed A

机构信息

Basic Pharmaceutical Sciences, School of Pharmacy, Center for Basic and Translational Stroke Research. West Virginia University, Morgantown, West Virginia, United States of America.

Division of Intramural Research, NIEHS/NIH, Research Triangle Park, North Carolina, United States of America.

出版信息

PLoS One. 2017 Jan 5;12(1):e0169584. doi: 10.1371/journal.pone.0169584. eCollection 2017.

DOI:10.1371/journal.pone.0169584

PMID:28056085

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5215949/

Abstract

Cytochromes P450 metabolize arachidonic acid (AA) into two vasoactive oxylipins with opposing biologic effects: epoxyeicosatrienoic acids (EETs) and omega-(ω)-terminal hydroxyeicosatetraenoic acids (HETEs). EETs have numerous beneficial physiological effects, including vasodilation and protection against ischemia/reperfusion injury, whereas ω-terminal HETEs induce vasoconstriction and vascular dysfunction. We evaluated the effect of these oxylipins on post-ischemic vasodilation known as coronary reactive hyperemia (CRH). CRH prevents the potential harm associated with transient ischemia. The beneficial effects of EETs are reduced after their hydrolysis to dihydroxyeicosatrienoic acids (DHETs) by soluble epoxide hydrolase (sEH). ω-terminal HETEs are formed by ω-hydroxylase family members. The relationship among endothelial over-expression of sEH (Tie2-sEH Tr), the changes in oxylipins it may produce, the pharmacologic inhibition of ω-hydroxylases, activation of PPARγ, and CRH response to a brief ischemia is not known. We hypothesized that CRH is attenuated in isolated mouse hearts with endothelial sEH over-expression through modulation of oxylipin profiles, whereas both inhibition of ω-hydroxylases and activation of PPARγ enhance CRH. Compared to WT mice, Tie2-sEH Tr mice had decreased CRH, including repayment volume, repayment duration, and repayment/debt ratio (P < 0.05), whereas inhibition of ω-hydroxylases increased these same CRH parameters in Tie2-sEH Tr mice. Inhibition of sEH with t-AUCB reversed the decreased CRH in Tie2-sEH Tr mice. Endothelial over-expression of sEH significantly changed oxylipin profiles, including decreases in DHETs, mid-chain HETEs, and prostaglandins (P < 0.05). Treatment with rosiglitazone, PPARγ-agonist, enhanced CRH (P < 0.05) in both Tie2-sEH Tr and wild type (WT) mice. These data demonstrate that endothelial over-expression of sEH (through changing the oxylipin profiles) attenuates CRH, whereas inhibition of ω-hydroxylases and activation of PPARγ enhance it.

摘要

细胞色素P450将花生四烯酸（AA）代谢为两种具有相反生物学效应的血管活性氧化脂质：环氧二十碳三烯酸（EETs）和ω-末端羟基二十碳四烯酸（HETEs）。EETs具有许多有益的生理作用，包括血管舒张和对缺血/再灌注损伤的保护作用，而ω-末端HETEs则诱导血管收缩和血管功能障碍。我们评估了这些氧化脂质对缺血后血管舒张（称为冠状动脉反应性充血，CRH）的影响。CRH可预防与短暂性缺血相关的潜在危害。EETs在被可溶性环氧化物水解酶（sEH）水解为二羟基二十碳三烯酸（DHETs）后，其有益作用会减弱。ω-末端HETEs由ω-羟化酶家族成员形成。内皮细胞sEH（Tie2-sEH Tr）的过表达、其可能产生的氧化脂质变化、ω-羟化酶的药理抑制、PPARγ的激活以及CRH对短暂缺血的反应之间的关系尚不清楚。我们假设，在分离的小鼠心脏中，内皮细胞sEH过表达会通过调节氧化脂质谱减弱CRH，而抑制ω-羟化酶和激活PPARγ则会增强CRH。与野生型小鼠相比，Tie2-sEH Tr小鼠的CRH降低，包括再灌注量、再灌注持续时间和再灌注/缺血比值（P < 0.05），而抑制ω-羟化酶可增加Tie2-sEH Tr小鼠的这些CRH参数。用t-AUCB抑制sEH可逆转Tie2-sEH Tr小鼠CRH的降低。内皮细胞sEH的过表达显著改变了氧化脂质谱，包括DHETs、中链HETEs和前列腺素的减少（P < 0.05）。用罗格列酮（PPARγ激动剂）治疗可增强Tie2-sEH Tr和野生型（WT）小鼠的CRH（P < 0.05）。这些数据表明，内皮细胞sEH的过表达（通过改变氧化脂质谱）会减弱CRH，而抑制ω-羟化酶和激活PPARγ则会增强CRH。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/0935/5215949/b3f86d1fbc73/pone.0169584.g001.jpg

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Vascular Endothelial Over-Expression of Human Soluble Epoxide Hydrolase (Tie2-sEH Tr) Attenuates Coronary Reactive Hyperemia in Mice: Role of Oxylipins and ω-Hydroxylases.人可溶性环氧化物水解酶在血管内皮细胞中的过表达（Tie2-sEH Tr）减轻小鼠冠状动脉反应性充血：氧化脂质和ω-羟化酶的作用

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人可溶性环氧化物水解酶在血管内皮细胞中的过表达（Tie2-sEH Tr）减轻小鼠冠状动脉反应性充血：氧化脂质和ω-羟化酶的作用

Vascular Endothelial Over-Expression of Human Soluble Epoxide Hydrolase (Tie2-sEH Tr) Attenuates Coronary Reactive Hyperemia in Mice: Role of Oxylipins and ω-Hydroxylases.

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