Epicardial Perivascular Adipose-Derived Leptin Exacerbates Coronary Endothelial Dysfunction in Metabolic Syndrome via a Protein Kinase C-β Pathway

Abstract

Factors released by perivascular adipose tissue (PVAT) disrupt coronary endothelial function via phosphorylation of endothelial NO synthase by protein kinase C (PKC)-beta. However, our understanding of how PVAT potentially contributes to coronary disease as a complication of obesity/metabolic syndrome (MetS) remains limited. The current study investigated whether PVAT-derived leptin impairs coronary vascular function via PKC-beta in MetS. Coronary arteries with and without PVAT were collected from lean or MetS Ossabaw miniature swine for isometric tension studies. Endothelial-dependent vasodilation to bradykinin was significantly reduced in MetS. PVAT did not affect bradykinin-mediated dilation in arteries from lean swine but significantly exacerbated endothelial dysfunction in arteries from MetS swine. PVAT-induced impairment was reversed by inhibition of either PKC-beta with ruboxistaurin (Eli Lilly and Company, Indianapolis, Ind) or leptin receptor signaling with a recombinant, pegylated leptin antagonist. Western blot and immunohistochemical analyses demonstrated increased PVAT-derived leptin and coronary leptin receptor density with MetS. Coronary PKC-beta activity was increased in both MetS arteries exposed to PVAT and lean arteries exposed to leptin. Finally, leptin-induced endothelial dysfunction was reversed by ruboxistaurin. Increases in epicardial PVAT leptin exacerbate coronary endothelial dysfunction in MetS via a PKC-beta-dependent pathway. These findings implicate PVAT-derived leptin as a potential contributor to coronary atherogenesis in MetS.