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短期血管紧张素II治疗对小鼠大动脉生物力学和功能有影响,而小动脉无改变。

Short-Term Angiotensin II Treatment Affects Large Artery Biomechanics and Function in the Absence of Small Artery Alterations in Mice.

作者信息

Leloup Arthur J A, De Moudt Sofie, Van Hove Cor E, Dugaucquier Lindsey, Vermeulen Zarha, Segers Vincent F M, De Keulenaer Gilles W, Fransen Paul

机构信息

Laboratory of Physiopharmacology, Department of Pharmaceutical Sciences, University of Antwerp, Antwerp, Belgium.

Laboratory of Pharmacology, Faculty of Medicine and Health Sciences, University of Antwerp, Antwerp, Belgium.

出版信息

Front Physiol. 2018 May 16;9:582. doi: 10.3389/fphys.2018.00582. eCollection 2018.

DOI:10.3389/fphys.2018.00582
PMID:29867592
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC5964213/
Abstract

Induction of hypertension by angiotensin II (AngII) is a widely used experimental stimulus to study vascular aging in mice. It is associated with large artery stiffness, a hallmark of arterial aging and a root cause of increased cardiovascular risk. We reported earlier that long term (4 week) AngII treatment in mice altered the active, contractile properties of the arteries in a vascular bed-specific manner and that, in healthy mice aorta, active contractile properties of the aortic wall determine isobaric aortic stiffness. Given the huge physiological relevance of large artery stiffening, we aimed to characterize the early (1 week) changes in the active properties of the aorta of AngII-treated mice. We were not able to detect a significant effect of AngII treatment on anesthetized blood pressure or abdominal aorta pulse wave velocity. biomechanical and functional studies of the aorta revealed increased arterial stiffness and altered vascular smooth muscle cell (VSMC) and endothelial cell reactivity. Interestingly, the AngII-associated changes in the aorta could be largely attributed to alterations in basal VSMC tone and basal nitric oxide efficacy, indicating that, besides structural remodeling of the arterial wall, dysfunctional active components of the aorta play a crucial role in the pathophysiological mechanisms by which AngII treatment induces arterial stiffness.

摘要

通过血管紧张素 II(AngII)诱导高血压是一种广泛用于研究小鼠血管衰老的实验刺激方法。它与大动脉僵硬度相关,大动脉僵硬度是动脉衰老的一个标志,也是心血管风险增加的根本原因。我们之前报道过,在小鼠中进行长期(4 周)的 AngII 治疗会以血管床特异性方式改变动脉的主动收缩特性,并且在健康小鼠的主动脉中,主动脉壁的主动收缩特性决定了等压主动脉僵硬度。鉴于大动脉僵硬度具有巨大的生理相关性,我们旨在表征 AngII 处理小鼠主动脉主动特性的早期(1 周)变化。我们未能检测到 AngII 处理对麻醉血压或腹主动脉脉搏波速度有显著影响。对主动脉的生物力学和功能研究表明,动脉僵硬度增加,血管平滑肌细胞(VSMC)和内皮细胞反应性改变。有趣的是,主动脉中与 AngII 相关的变化很大程度上可归因于基础 VSMC 张力和基础一氧化氮功效的改变,这表明,除了动脉壁的结构重塑外,主动脉功能失调的主动成分在 AngII 治疗诱导动脉僵硬度的病理生理机制中起关键作用。

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