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小鼠中脉压依赖性脑血管内皮型一氧化氮合酶的调节

Pulse pressure-dependent cerebrovascular eNOS regulation in mice.

作者信息

Raignault Adeline, Bolduc Virginie, Lesage Frédéric, Thorin Eric

机构信息

1 Faculty of Medicine, Department of Pharmacology, Université de Montréal, Montreal, Quebec, Canada.

2 Montreal Heart Institute Research Center, Montreal, Quebec, Canada.

出版信息

J Cereb Blood Flow Metab. 2017 Feb;37(2):413-424. doi: 10.1177/0271678X16629155. Epub 2016 Jul 21.

DOI:10.1177/0271678X16629155
PMID:26823473
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5381440/
Abstract

Arterial blood pressure is oscillatory; whether pulse pressure (PP) regulates cerebral artery myogenic tone (MT) and endothelial function is currently unknown. To test the impact of PP on MT and dilation to flow (FMD) or to acetylcholine (Ach), isolated pressurized mouse posterior cerebral arteries were subjected to either static pressure (SP) or a physiological PP (amplitude: 30 mm Hg; frequency: 550 bpm). Under PP, MT was significantly higher than in SP conditions ( p < 0.05) and was not affected by eNOS inhibition. In contrast, under SP, eNOS inhibition increased ( p < 0.05) MT to levels observed under PP, suggesting that PP may inhibit eNOS. At a shear stress of 20 dyn/cm, FMD was lower ( p < 0.05) under SP than PP. Under SP, eNOS-dependent [Formula: see text] production contributed to FMD, while under PP, eNOS-dependent NO was responsible for FMD, indicating that PP favours eNOS coupling. Differences in FMD between pressure conditions were abolished after NOX2 inhibition. In contrast to FMD, Ach-induced dilations were higher ( p < 0.05) under SP than PP. Reactive oxygen species scavenging reduced ( p < 0.05) Ach-dependent dilations under SP, but increased ( p < 0.05) them under PP; hence, under PP, Ach promotes ROS production and limits eNOS-derived NO activity. In conclusion, PP finely regulates eNOS, controlling cerebral artery reactivity.

摘要

动脉血压是振荡性的;目前尚不清楚脉压(PP)是否调节脑动脉肌源性张力(MT)和内皮功能。为了测试PP对MT以及对血流介导的血管舒张功能(FMD)或对乙酰胆碱(Ach)介导的血管舒张功能的影响,将分离的加压小鼠大脑后动脉分别置于静态压力(SP)或生理性PP(幅度:30 mmHg;频率:550次/分钟)下。在PP条件下,MT显著高于SP条件(p < 0.05),且不受内皮型一氧化氮合酶(eNOS)抑制的影响。相反,在SP条件下,eNOS抑制使MT升高(p < 0.05)至PP条件下观察到的水平,这表明PP可能抑制eNOS。在20 dyn/cm的剪切应力下,SP条件下的FMD低于PP条件下的FMD(p < 0.05)。在SP条件下,eNOS依赖的[公式:见原文]生成对FMD有贡献,而在PP条件下,eNOS依赖的一氧化氮(NO)是FMD的原因,这表明PP有利于eNOS偶联。在抑制NOX2后,压力条件之间FMD的差异消失。与FMD相反,SP条件下Ach诱导的血管舒张高于PP条件下的(p < 0.05)。活性氧清除在SP条件下降低了(p < 0.05)Ach依赖的血管舒张,但在PP条件下增加了(p < 0.05)Ach依赖的血管舒张;因此,在PP条件下,Ach促进活性氧生成并限制eNOS衍生的NO活性。总之,PP精细调节eNOS,控制脑动脉反应性。

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