Abstract 15591: Acute Dantrolene Treatment Reverses Arrhythmogenic Substrate and Reduces Triggers Induced by Ryanodine Receptor 2 Hyperactivity in Human Hearts

Abstract

Introduction: Ryanodine receptor 2 (RyR2) hyperactivity is commonly observed in structural heart diseases that are a result of ischemia or heart failure. It results in abnormal calcium handling and calcium leak that can trigger arrhythmias. Dantrolene, a RyR inhibitor, is used to prevent calcium leak from RyR1 in skeletal muscles. Hypothesis: Suppressing RyR2 hyperactivity with acute dantrolene treatment can reduce arrhythmia burden in human hearts. Methods: Human donor hearts that were not used in transplantation were obtained and 1 cm 3 cubes were isolated from the left ventricle. Slices at 400 μm thickness were generated from these cubes, pinned and perfused with Tyrode’s solution in a recording tissue chamber. Pseudo-ECGs were recorded with ECG electrodes and the slices were optically mapped to measure conduction velocity (CV), action potential duration (APD) and calcium transient duration (CaTD). After an initial 30 min equilibration period, baseline optical recordings were obtained. Slices were then treated with 1) Isoproterenol (Iso, 250 nM) to stimulate β-adrenergic receptors, 2) Caffeine (200 μM) for RyR2 receptor activation and 3) Dantrolene (10 μM), sequentially. Dual optical recordings, Vm and Ca, were obtained after each treatment. Results: Substrate: Iso reduced APD (425±36 vs 394±43, p=0.03), as expected, and addition of Caffeine restored APD to baseline. More importantly, addition of Dantrolene prolonged APD even further (460±90, p=0.04). CaTD was also similarly reduced by Iso (445±48 vs 387±25, p=0.04) and restored to baseline by Caffeine+Iso. No significant changes in CV were measured under any condition. Trigger: In slices where PVCs were inducible, Caffeine+Iso increased occurrence of PVCs (20 vs 53 PVCs/min) while addition of Dantrolene reduced PVC incidence (18 PVCs/min). Conclusions: Dantrolene treatment, acutely reversed proarrhythmogenic substrate and reduced triggers and could therefore be a suitable approach for anti-arrhythmic therapy in patients with structural heart disease. Additionally, human LV slice preparation is useful in antiarrhythmic drug studies.