Sarcomeric SRX:DRX Equilibrium in Alport and LDLR/P407 Mouse Models of HFpEF

Abstract

AbstractCardiac myosin energetic states that regulate heart contractility define interactions of myosin cross-bridges with actin-containing thin filaments have been functionally linked with the pathology of hypertrophic cardiomyopathy (HCM). In particular, the balance between the disordered relaxed (DRX) and super relaxed (SRX) states that correlate respectively with enhanced force and energy conservation significantly determine myocardial performance and energy utilization. Compelling evidence suggests that a balanced SRX and DRX states proportion is a prerequisite for long-term cardiac health. Whereas roles for altered SRX: DRX proportions in HCM have been studied in depth, the mechanics of sarcomeric dysfunction and SRX: DRX proportions have not been reported in models of acquired heart failure (HF) including HF with preserved ejection fraction (HFpEF). Here, we quantified SRX andDRX myosin populations in two mouse models of HFpEF, including Alport and LDLR/P407 mice that represent cardiorenal/hypertensive and cardiometabolic/hyperlipidemic mouse models of HFpEF, respectively. We report significant changes in the SRX:DRX in both HFpEF mouse models, with an increased DRX state associated with Alport mice and a stabilized SRX state associated with LDLR/P407 mice. These findings correlate respectively with the hypercontractility and metabolic dysregulation with bradycardia phenotypes.