Sanjana Kumariya, Arturo Grano de Oro, Islam Osman
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引用次数: 0
Abstract
Introduction: Hypertension is a major risk factor for occlusive vascular diseases, myocardial infarction, heart failure, stroke, and chronic kidney disease. In the U.S., ~30% of adults suffer from hypertension. Merely half of the individuals with hypertension have their blood pressure under control, despite the wide range of antihypertensive medications available, indicating an urgent need for a better understanding of the underlying causes of hypertension to identify novel therapeutic strategies for its treatment and prevention. Recent genome-wide association study (GWAS) has identified an unexpected association between a loss-of-function SNP in the YAP1 gene locus and decreased blood pressure (BP). Moreover, de novo analysis of publicly available RNAseq data revealed that the vascular tissues of hypertensive mice treated with Ang-II exhibit increased YAP1 expression. Suggesting a novel role of YAP1 in blood pressure regulation. However, whether Vascular smooth muscle cell (VSMC) expressed YAP1 has a specific role in VSMC contraction and BP regulation remains completely unknown. Therefore, we hypothesized that YAP1 could play a key role in regulating blood pressure. Methodology: We have generated a novel inducible SM-specific- Yap1 Knockout ( YAP1 iKO) mouse model and employed a pharmacological inhibitor of YAP1, Verteporfin, to delineate the functional role of VSMC-expressed YAP1 in hypertension in regulating vascular tone and BP. Vascular reactivity experiments were performed using wire myography. BP was measured in ambulant mice via radiotelemetry. In vitro gain- and loss-of-function studies utilizing human coronary artery SMCs were conducted to examine the impact of YAP1 on contractility signaling components using western blotting. Results: Consistent with GWAS and RNAseq data, we found that YAP1 is upregulated in vascular tissues of spontaneously hypertensive rats (SHRs). Using aortic rings from WT mice, we discovered that Verteporfin significantly reduced vasoconstrictive responses to Phenylephrine or Serotonin but did not alter endothelium-dependent vasorelaxant responses to Acetylcholine, suggesting a specific role of YAP1 in VSMCs. Consistently, YAP1 iKO exhibited attenuated responses to vasoconstrictors in isolated conduit and resistance vessels. Importantly, radiotelemetry studies demonstrated for the first time that YAP1 iKO mice exhibit a hypotensive phenotype. Mechanistically, YAP1 gain- and loss-of-function studies in human VSMCs showed that YAP1 activates multiple signaling pathways that play a key role in VSMC contractility including RhoA/ROCK1/actin polymerization and PKC/ERK signaling pathways. Summary/Conclusion: This is the first study to demonstrate that inhibition of SM-specific-Yap1 expression regulates BP and vascular tone, likely via the regulation of contractile machinery components. Together, our data suggest that YAP1 is a promising novel therapeutic target for ameliorating hypertension. This work is supported by a grant from National Heart, Lung, and Blood Institute (R00HL153896). This is the full abstract presented at the American Physiology Summit 2024 meeting and is only available in HTML format. There are no additional versions or additional content available for this abstract. Physiology was not involved in the peer review process.
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