Abstract P388: Extra-cardiac BCAA Catabolism Lowers Blood Pressure And Protects From Heart Failure

Abstract

Pharmacologic activation of branched chain amino acid (BCAA) catabolism is protective in numerous models of heart failure (HF). How this protection occurs has remained unclear, although a causative block in cardiac BCAA oxidation has been proposed. We use here in vivo heavy isotope infusion studies to show that cardiac preference for BCAA oxidation increases, rather than decreases, in multiple models of HF. We use various genetic models to show that cardiac-specific activation of BCAA oxidation does not protect from HF, even though systemic activation of BCAA oxidation does. Lowering plasma and cardiac BCAAs by genetic means is also not sufficient to confer protection comparable to that conferred by pharmacologic activation of BCAA oxidation, suggesting alternative mechanisms of protection. Surprisingly, telemetry and invasive hemodynamic studies showed that pharmacological activation of BCAA catabolism lowers blood pressure, a well-established cardioprotective mechanism. The effects on blood pressure occurred independently of nitric oxide (NO), and reflected a vascular resistance to adrenergic constriction. Finally, mendelian randomization studies revealed that elevations in plasma BCAAs portend higher blood pressure in large human cohorts. Together, these data indicate that activation of BCAA oxidation lowers blood pressure and protects from heart failure independently of any direct effects on the heart itself.