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心脏疾病改变心肌组织中环氧化物水解酶三烯酸和参与其生物合成和降解的关键蛋白的水平。

Cardiac Disease Alters Myocardial Tissue Levels of Epoxyeicosatrienoic Acids and Key Proteins Involved in Their Biosynthesis and Degradation.

机构信息

Department of Medicinal Chemistry, University of Washington, Seattle, WA 98195, USA.

Certara/SimCYP Ltd., Sheffield S1 2BJ, UK.

出版信息

Int J Mol Sci. 2022 Oct 17;23(20):12433. doi: 10.3390/ijms232012433.

DOI:10.3390/ijms232012433
PMID:36293289
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC9604309/
Abstract

CYP2J2 is the main epoxygenase in the heart that is responsible for oxidizing arachidonic acid to -epoxyeicosatrienoic acids (EETs). Once formed, EETs can then be hydrolyzed by soluble epoxide hydrolase (sEH, encoded by ) or re-esterified back to the membrane. EETs have several cardioprotective properties and higher levels are usually associated with better cardiac outcomes/prognosis. This study investigates how cardiovascular disease (CVD) can influence total EET levels by altering protein expression and activity of enzymes involved in their biosynthesis and degradation. Diseased ventricular cardiac tissues were collected from patients receiving Left Ventricular Assist Device (LVAD) or heart transplants and compared to ventricular tissue from controls free of CVD. EETs, and enzymes involved in EETs biosynthesis and degradation, were measured using mass spectrometric assays. Terfenadine hydroxylation was used to probe CYP2J2 activity. Significantly higher - and -EET levels were observed in control cardiac tissue ( = 17) relative to diseased tissue ( = 24). Control cardiac tissue had higher CYP2J2 protein levels, which resulted in higher rate of terfenadine hydroxylation, compared to diseased cardiac tissues. In addition, levels of both NADPH-Cytochrome P450 oxidoreductase (POR) and sEH proteins were significantly higher in control versus diseased cardiac tissue. Overall, alterations in protein and activity of enzymes involved in the biosynthesis and degradation of EETs provide a mechanistic understanding for decreased EET levels in diseased tissues.

摘要

CYP2J2 是心脏中的主要环氧合酶,负责将花生四烯酸氧化为 -环氧二十碳三烯酸(EETs)。一旦形成,EETs 可以被可溶性环氧化物水解酶(sEH,由 编码)水解,或者重新酯化回到膜上。EETs 具有多种心脏保护特性,较高的水平通常与更好的心脏结局/预后相关。本研究通过改变其生物合成和降解过程中涉及的酶的蛋白表达和活性,研究了心血管疾病(CVD)如何通过改变蛋白表达和活性来影响总 EET 水平。从接受左心室辅助装置(LVAD)或心脏移植的患者的病变心室心脏组织中收集 EETs 和参与 EETs 生物合成和降解的酶,并与无 CVD 的对照心室组织进行比较。使用质谱分析测定 EETs 和参与 EETs 生物合成和降解的酶。使用特非那定羟化来探测 CYP2J2 活性。与病变组织(=24)相比,对照心脏组织(=17)中观察到 -和 -EET 水平显著升高。与病变心脏组织相比,对照心脏组织中的 CYP2J2 蛋白水平更高,导致特非那定羟化率更高。此外,NADPH-细胞色素 P450 氧化还原酶(POR)和 sEH 蛋白水平在对照与病变心脏组织之间均显著升高。总之,EETs 生物合成和降解过程中涉及的酶的蛋白和活性的改变为病变组织中 EETs 水平降低提供了机制上的理解。

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