Abstract P108: Caveolin-1 is Required for Vascular Remodeling Induced by Angiotensin Ii

Abstract

We have recently reported that caveolin-1 (Cav1) enriched membrane microdomains in vascular smooth muscle cells (VSMC) mediates a metalloprotease ADAM17-dependent EGF receptor (EGFR) transactivation, which is linked to vascular remodeling induced by AngII. We have tested our hypothesis that Cav1, a major structural protein of caveolae, plays a critical role in AngII-mediated vascular remodeling via regulation of ADAM17 and EGFR. 8 week old male Cav1-/- and control Cav+/+ wild-type mice (WT) were infused with AngII (1 μg/kg/min) for 2 weeks to induce vascular remodeling and hypertension. Upon AngII infusion, histological assessments demonstrated medial hypertrophy and perivascular fibrosis of coronary and renal arteries in WT mice compared to sham-operated mice. The AngII-infused WT mice also showed a phenotype of cardiac hypertrophy with increased HW/BW ratio (mg/g: 8.0±0.6 vs 5.7±0.7 p<0.01) compared with sham-operated WT control. In contrast, vascular remodeling but not cardiac hypertrophy were attenuated in Cav1-/- mice with AngII infusion; HW/BW ratio (8.6±0.5 vs 6.4±0.2 p<0.05) compared to sham-operated mice. However, AngII induced similar levels of hypertension in both WT and Cav1-/- mice as assessed by telemetry (MAP mmHg: 142±9 vs 154±20). AngII infusion in WT mice enhanced ADAM17 and phospho-Tyr EGFR staining in heart and kidney vasculature, whereas AngII-infused Cav1-/- mice showed diminished ADAM17 and phospho-Tyr EGFR staining within the vasculature. In addition, IHC analyses revealed reduced vascular ER stress in heart and kidney samples of AngII-infused Cav1-/- mice compared to WT mice. Expression of Cav1 was predominantly observed within the endothelium and was enhanced upon AngII infusion in WT mice. These data suggest that Cav1, and presumably endothelial caveolae microdomains, plays a critical role in vascular remodeling via vascular induction of ADAM17 and activation of EGFR independent of blood pressure or cardiac hypertrophy regulation.