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机械敏感的AT1B受体在肌源性血管收缩中的新作用。

Novel role of mechanosensitive AT1B receptors in myogenic vasoconstriction.

作者信息

Blodow Stephanie, Schneider Holger, Storch Ursula, Wizemann Richard, Forst Anna-Lena, Gudermann Thomas, Mederos y Schnitzler Michael

机构信息

Walther-Straub-Institute of Pharmacology and Toxicology, Ludwig Maximilians University of Munich, Goethestr. 33, 80336, Munich, Germany.

出版信息

Pflugers Arch. 2014 Jul;466(7):1343-53. doi: 10.1007/s00424-013-1372-3. Epub 2013 Oct 8.

DOI:10.1007/s00424-013-1372-3
PMID:24101294
Abstract

Myogenic vasoconstriction is an inherent property of vascular smooth muscle cells (VSMCs) of resistance arteries harboring ill-defined mechanosensing and mechanotransducing elements. G protein-coupled receptors (GPCRs) are discussed as mechanosensors in VSMCs. In this study, we sought to identify and characterize the role and impact of GPCRs on myogenic vasoconstriction. Thus, we analyzed mRNA expression levels of GPCRs in resistance versus preceding conduit arteries revealing a significant enrichment of several GPCRs in resistance vessels. Selective pharmacological blockade of the highly expressed GPCRs in isolated murine mesenteric arteries ex vivo decreased myogenic vasoconstriction. In particular, candesartan and losartan most prominently suppressed myogenic tone, suggesting that AT1 receptors play a central role in myogenic vasoconstriction. Analyzing angiotensinogen(-/-) mice, a relevant contribution of locally produced angiotensin II to myogenic tone could be excluded. Investigation of AT1A (-/-) and AT1B (-/-) murine mesenteric arteries revealed that AT1B, but not AT1A, receptors are key components of myogenic regulation. This notion was supported by examining fura-2-loaded isolated AT1A (-/-) and AT1B (-/-) VSMCs. Our results indicate that in VSMCs, AT1B receptors are more mechanosensitive than AT1A receptors even at comparable receptor expression levels. Furthermore, we demonstrate that the mechanosensitivity of GPCRs is agonist-independent and positively correlates with receptor expression levels.

摘要

肌源性血管收缩是阻力动脉血管平滑肌细胞(VSMC)的一种固有特性,这些细胞含有定义不明确的机械传感和机械转导元件。G蛋白偶联受体(GPCR)被认为是VSMC中的机械传感器。在本研究中,我们试图确定并表征GPCR对肌源性血管收缩的作用和影响。因此,我们分析了阻力动脉与之前的传导动脉中GPCR的mRNA表达水平,发现阻力血管中几种GPCR显著富集。对离体分离的小鼠肠系膜动脉中高表达的GPCR进行选择性药理阻断,可降低肌源性血管收缩。特别是,坎地沙坦和氯沙坦最显著地抑制了肌源性张力,表明AT1受体在肌源性血管收缩中起核心作用。通过分析血管紧张素原(-/-)小鼠,可排除局部产生的血管紧张素II对肌源性张力的相关作用。对AT1A(-/-)和AT1B(-/-)小鼠肠系膜动脉的研究表明,AT1B受体而非AT1A受体是肌源性调节的关键组成部分。这一观点通过检测负载fura-2的离体AT1A(-/-)和AT1B(-/-)VSMC得到支持。我们的结果表明,在VSMC中,即使在受体表达水平相当的情况下,AT1B受体比AT1A受体对机械刺激更敏感。此外,我们证明GPCR的机械敏感性与激动剂无关,且与受体表达水平呈正相关。

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