内皮中一氧化氮和血管紧张素II的相互作用:在动脉粥样硬化和高血压中的作用。

Ivonne Hernandez Schulman, Ming-Sheng Zhou, Leopoldo Raij
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引用次数: 86

摘要

背景:虽然有大量证据表明高血压促进动脉粥样硬化,但血管活性因子和血流动力学因子的相对作用和/或相互作用仍不明确。内皮功能障碍是高血压的并发症,也是动脉粥样硬化的前兆。其特点是血管扩张剂(特别是一氧化氮)的生物利用度降低,血管收缩剂(包括血管紧张素(Ang) II和活性氧(ROS))的活性增加。一氧化氮拮抗Ang II的血管收缩和促动脉粥样硬化作用,而Ang II通过促进氧化应激降低一氧化氮的生物利用度。目的:本文将重点讨论内皮细胞中一氧化氮、一氧化氮和活性氧之间的相互作用,并探讨它们在血管张力和动脉粥样硬化中的作用。在此背景下,我们将回顾我们实验室的研究,证明盐敏感性高血压是一种血管素质,其特征是在一氧化氮不足的情况下,Ang II和NAD(P)H氧化酶衍生的ROS的局部激活。在高血压达尔盐敏感大鼠(人类盐敏感高血压的一种模式)中,抑制Ang II型1受体或NAD(P)H氧化酶衍生的ROS可阻止内皮功能障碍的发展、促动脉粥样硬化分子的上调和血管ROS的生成,而不依赖于血压。结论:盐敏感性是心血管发病率和死亡率增加的独立危险因素,影响了大约50%的高血压患者。我们的研究表明,在盐敏感性高血压中,动脉粥样硬化与氧化应激的关系比与高血压的血流动力学应激的关系更密切。为了预防或阻止动脉粥样硬化,降压治疗应着眼于恢复血管壁血管活性因子之间的稳态平衡。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Interaction between nitric oxide and angiotensin II in the endothelium: role in atherosclerosis and hypertension.

Background: Although there is overwhelming evidence that hypertension promotes atherosclerosis, the relative contribution and/or interaction of vasoactive and hemodynamic factors remain undefined. Endothelial dysfunction complicates hypertension and is a precursor of atherosclerosis. It is characterized by a reduction in the bioavailability of vasodilators, particularly nitric oxide, and an increase in the activity of vasoconstrictors, including angiotensin (Ang) II and reactive oxygen species (ROS). Nitric oxide antagonizes the vasoconstrictive and pro-atherosclerotic effects of Ang II, whereas Ang II decreases nitric oxide bioavailability by promoting oxidative stress.

Objectives: The present review will focus on the interaction among nitric oxide, Ang II, and ROS in the endothelium and will examine their role in vascular tone and atherogenesis. In this context, studies from our laboratory will be reviewed demonstrating that salt-sensitive hypertension is a vascular diathesis characterized by a local activation of Ang II and NAD(P)H oxidase-derived ROS in the setting of insufficient nitric oxide. In hypertensive Dahl salt-sensitive rats, a paradigm of human salt-sensitive hypertension, inhibition of Ang II type 1 receptor or NAD(P)H oxidase-derived ROS prevented the development of endothelial dysfunction, upregulation of pro-atherogenic molecules, and vascular ROS generation, independently of blood pressure.

Conclusions: Salt sensitivity, an independent risk factor for increased cardiovascular morbidity and mortality, affects approximately 50% of hypertensives. Our studies suggest that, in salt-sensitive hypertension, atherogenesis is more closely linked to oxidative stress than to the hemodynamic stress of hypertension. To prevent or arrest atherosclerosis, antihypertensive therapy should aim at restoring the homeostatic balance between vasoactive factors in the vascular wall.

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