Abstract P293: Endothelial Sodium Channel Activation Promotes Vascular Stiffness in Obese Female Mice

Abstract

Obesity-associated arterial stiffening is an independent predictor of cardiovascular disease (CVD) events. Although premenopausal non-obese women are protected against CVD, aortic stiffening in obese women is more common than in men. This disproportionate increase in vascular stiffness in obese females may partly explain their loss of sex-related CVD protection. Recent studies have suggested a role for endothelial sodium channel (ENaC) activation in promotion of endothelial stiffness and suppression of flow-(nitric oxide) mediated vasodilation. Increased mineralocorticoid receptor (MR) activation mediated endothelial stiffness is promoted, in part, by ENaC activation. In this regard, we have recently reported increased aortic stiffness, MR and ENaC expression and endothelial dysfunction in female mice fed a high fat and high fructose diet (western diet [WD]). This increase in aortic stiffness was prevented by very low dose MR antagonism. Accordingly, we hypothesized that inhibition of MR-mediated ENaC activation by using a very low dose of the ENaC inhibitor, amiloride, would prevent arterial stiffening and vascular dysfunction in WD-fed female mice. Four week old C57BL6/J mice were fed a WD containing high fat (46%), sucrose (17.5%), and high fructose corn syrup (17.5%) with or without a very low dose of amiloride (1mg/kg/day) for 16 weeks. Amiloride significantly attenuated WD-induced increases in aortic stiffness in vivo as measured by pulse wave velocity as well as in vitro endothelial stiffness as measured by atomic force microscopy. Moreover, incubation of aortic explants with very low dose of amiloride (1 μM) inhibited WD-induced aortic stiffness in aorta explants from WD-fed female mice. Amiloride also prevented WD-induced impairment in acetylcholine-induced aortic vasodilatation and flow-mediated dilation in mesenteric arteries. Taken together, these observations support a role for ENaC activation in diet-induced vascular stiffening in obese females.