Effects of Zacopride, a Moderate I Channel Agonist, on Triggered Arrhythmia and Contractility in Human Ventricular Myocardium

Overview

Journal Pharmacol Res

Publisher Elsevier

Specialty Pharmacology

Date 2016 Dec 5

PMID 27914945

Citations 16

Authors

Mohammad T Elnakish

Benjamin D Canan

Ahmet Kilic

Peter J Mohler

Paul M L Janssen

Affiliations

Soon will be listed here.

Abstract

Ventricular tachycardia is the leading cause of sudden arrhythmic death in the U.S. Recently, the moderate I channel activator, zacopride, was shown to suppress triggered ventricular tachycardia in rats. Nonetheless, concerns were raised about the possibility of pro-arrhythmic activity after I channel stimulation based on the promising anti-arrhythmic strategy of I blockade in other animal models. Therefore, the goal of the current study was to investigate the ex-vivo effects of zacopride on triggered arrhythmia and contractility in ventricular human myocardium in order to validate data that was solely obtained from animal models. Application of 100nmol/L isoproterenol and 0.5mmol/L caffeine led to triggered arrhythmia in isolated cardiac muscles from non-failing and end-stage failing hearts. However, the occurrence of arrhythmia in muscles of non-failing hearts was markedly higher than those of end-stage failing hearts. Interestingly, zacopride eliminated the ex-vivo triggered arrhythmia in these muscles of non-failing and failing hearts in a concentration-dependent manner, with an effective IC in the range of 28-40μmol/L. Conversely, in the absence of isoproterenol/caffeine, zacopride led to a negative inotropic effect in a concentration-dependent manner. Reduced cardiac contraction was clearly observed at high zacopride concentration of 200μmol/L, along with the occurrence of contractile alternans in muscles of non-failing and failing hearts. Zacopride shows promising antiarrhythmic effects against triggered arrhythmia in human ventricular myocardium. However, in the absence of Ca overload/arrhythmia, zacopride, albeit at high concentrations, decreases the force of contraction and increases the likelihood of occurrence of contractile alternans, which may predispose the heart to contractile dysfunction and/or arrhythmia. Overall, our results represent a key step in translating this drug from the benchtop to the bedside in the research area.

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