Introduction: Hypertrophic cardiomyopathy (HCM) is a cause of sudden arrhythmic death, but the understanding of its pro-arrhythmic mechanisms and an effective pharmacological treatment are lacking. HCM electrophysiological remodelling includes both increased inward and reduced outward currents, but their role in promoting repolarisation abnormalities remains unknown. The goal of this study is to identify key ionic mechanisms driving repolarisation abnormalities in human HCM, and to evaluate anti-arrhythmic effects of single and multichannel inward current blocks. Methods: Experimental ionic current, action potential (AP) and Ca2+-transient (CaT) recordings were used to construct populations of human non-diseased and HCM AP models (n = 9118), accounting for inter-subject variability. Simulations were conducted for several degrees of selective and combined inward current block. Results: Simulated HCM cardiomyocytes exhibited prolonged AP and CaT, diastolic Ca2+ overload and decreased CaT amplitude, in agreement with experiments. Repolarisation abnormalities in HCM models were consistently driven by L-type Ca2+ current (ICaL) re-activation, and ICaL block was the most effective intervention to normalise repolarisation and diastolic Ca2+, but compromised CaT amplitude. Late Na+ current (INaL) block partially abolished repolarisation abnormalities, with small impact on CaT. Na+/Ca2+ exchanger (INCX) block effectively restored repolarisation and CaT amplitude, but increased Ca2+ overload. Multichannel block increased efficacy in normalising repolarisation, AP biomarkers and CaT amplitude compared to selective block. Conclusions: Experimentally-calibrated populations of human AP models identify ICaL re-activation as the key mechanism for repolarisation abnormalities in HCM, and combined INCX, INaL and ICaL block as effective anti-arrhythmic therapies also able to partially reverse the HCM electrophysiological phenotype.
Mechanisms of pro-arrhythmic abnormalities in ventricular repolarisation and anti-arrhythmic therapies in human hypertrophic cardiomyopathy / Passini, Elisa; Mincholé, Ana; Coppini, Raffaele; Cerbai, Elisabetta; Rodriguez, Blanca; Severi, Stefano; Bueno-Orovio, Alfonso. - In: JOURNAL OF MOLECULAR AND CELLULAR CARDIOLOGY. - ISSN 0022-2828. - STAMPA. - 96:(2016), pp. 72-81. [10.1016/j.yjmcc.2015.09.003]
Mechanisms of pro-arrhythmic abnormalities in ventricular repolarisation and anti-arrhythmic therapies in human hypertrophic cardiomyopathy
PASSINI, ELISA;SEVERI, STEFANO;
2016
Abstract
Introduction: Hypertrophic cardiomyopathy (HCM) is a cause of sudden arrhythmic death, but the understanding of its pro-arrhythmic mechanisms and an effective pharmacological treatment are lacking. HCM electrophysiological remodelling includes both increased inward and reduced outward currents, but their role in promoting repolarisation abnormalities remains unknown. The goal of this study is to identify key ionic mechanisms driving repolarisation abnormalities in human HCM, and to evaluate anti-arrhythmic effects of single and multichannel inward current blocks. Methods: Experimental ionic current, action potential (AP) and Ca2+-transient (CaT) recordings were used to construct populations of human non-diseased and HCM AP models (n = 9118), accounting for inter-subject variability. Simulations were conducted for several degrees of selective and combined inward current block. Results: Simulated HCM cardiomyocytes exhibited prolonged AP and CaT, diastolic Ca2+ overload and decreased CaT amplitude, in agreement with experiments. Repolarisation abnormalities in HCM models were consistently driven by L-type Ca2+ current (ICaL) re-activation, and ICaL block was the most effective intervention to normalise repolarisation and diastolic Ca2+, but compromised CaT amplitude. Late Na+ current (INaL) block partially abolished repolarisation abnormalities, with small impact on CaT. Na+/Ca2+ exchanger (INCX) block effectively restored repolarisation and CaT amplitude, but increased Ca2+ overload. Multichannel block increased efficacy in normalising repolarisation, AP biomarkers and CaT amplitude compared to selective block. Conclusions: Experimentally-calibrated populations of human AP models identify ICaL re-activation as the key mechanism for repolarisation abnormalities in HCM, and combined INCX, INaL and ICaL block as effective anti-arrhythmic therapies also able to partially reverse the HCM electrophysiological phenotype.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
