Author:
Michell Danielle L.,Shihata Waled A.,Andrews Karen L.,Abidin Nurul Aisha Zainal,Jefferis Ann-Maree,Sampson Amanda K.,Lumsden Natalie G.,Huet Olivier,Parat Marie-Odile,Jennings Garry L.,Parton Robert G.,Woollard Kevin J.,Kaye David M.,Chin-Dusting Jaye P. F.,Murphy Andrew J.
Abstract
AbstractThe aetiology and progression of hypertension involves various endogenous systems, such as the renin angiotensin system, the sympathetic nervous system, and endothelial dysfunction. Recent data suggest that vascular inflammation may also play a key role in the pathogenesis of hypertension. This study sought to determine whether high intraluminal pressure results in vascular inflammation. Leukocyte adhesion was assessed in rat carotid arteries exposed to 1 h of high intraluminal pressure. The effect of intraluminal pressure on signaling mechanisms including reactive oxygen species production (ROS), arginase expression, and NFĸB translocation was monitored. 1 h exposure to high intraluminal pressure (120 mmHg) resulted in increased leukocyte adhesion and inflammatory gene expression in rat carotid arteries. High intraluminal pressure also resulted in a downstream signaling cascade of ROS production, arginase expression, and NFĸB translocation. This process was found to be angiotensin II-independent and mediated by the mechanosensor caveolae, as caveolin-1 (Cav1)-deficient endothelial cells and mice were protected from pressure-induced vascular inflammatory signaling and leukocyte adhesion. Cav1 deficiency also resulted in a reduction in pressure-induced glomerular macrophage infiltration in vivo. These findings demonstrate Cav1 is an important mechanosensor in pressure-induced vascular and renal inflammation.
Funder
National Health and Medical Research Council
Publisher
Springer Science and Business Media LLC
Cited by
6 articles.
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