Abstract P068: Endothelial Mineralocorticoid Receptor Activation Promotes Endothelial And Vascular Stiffening In Western Diet Fed Female Mice Through Sgk1 Mediated Activation Of The Endothelial Sodium Channel

Abstract

Over-nutrition/obesity predisposes persons, particularly women, to endothelial dysfunction and vascular stiffening. We have employed a clinically relevant model using female mice fed a high fat and high fructose diet (western diet, WD). These mice display high plasma aldosterone levels, endothelial stiffness and dysfunction and increased mineralocorticoid receptor (MR) expression in the vasculature. One potential mechanism by which MR activation may promote endothelial stiffness is through increased expression and activation of epithelial sodium channel (EnNaC) in endothelial cells (ECs) through mTOR2 mediated activation of serum and glucocorticoid regulated kinase 1(SGK1). In this investigation we observed that WD feeding in female mice for 16 wks caused endothelial (atomic force microscopy (AFM)), and aortic stiffening (PW analysis) in concert with increased expression of EnNaC and SGK1 in the endothelium and EnNaC activation in ECs. Further, amelioration of WD induced EC and vascular stiffness was accomplished by EnNaC inhibition with low dose amiloride (1mg/kg/day in drinking water) over the 16 wks of WD. We then explored the idea that inhibition of SGK1 as well as specific deletion of ECMR and EnNaC decreases vascular EC stiffness accompanied by decreased sodium current in isolated lung ECs. Accordingly, female wild type and ECMR and EnNaC KO mice were fed a WD or control diet (CD) for 16 wks. Aortic and coronary artery EC stiffness, measured ex vivo by AFM, was increased in WD fed mice and this was prevented in ECMR and EnNaC KO models. Both ECMR and EnNaC KO mice fed a WD showed decreased amiloride sensitive sodium current in isolated ECs. Further, in cultured ECs , inhibition of SGK1 by a chemical inhibitor attenuated aldosterone mediated sodium currents. Collectively, these findings support the notion that a WD promotes ECMR mediated increases in SGK1 and associated EnNaC activity in ECs together with increased endothelial and vascular stiffness in females.