Abstract

Introduction: Inhibition of Na + /K + -ATPase (NKA) is arrhythmogenic, but the specific effect of alpha 3 NKA isoform (ATP1A3) inhibition is unknown. Variants in human ATP1A3 can lead to ventricular arrhythmias, yet the mechanism remains unknown. Hypothesis: Loss of NKA function results in shortening of QT interval and increased arrhythmia susceptibility due to intracellular Na+ and Ca2+ overload. Pharmacological inhibition of sodium-calcium exchanger (NCX) can rescue ECG parameter changes and arrhythmic phenotypes by reducing Ca2+ overload in the cell. Methods: Whole-cell patch clamp action potential recordings were conducted on induced pluripotent stem cell cardiomyocytes (iPSC-CMs) from an ostensibly healthy individual to measure action potential duration (APD) and presence of delayed after depolarizations (DADs). Cells were exposed to 10 -7 M ouabain and 10 -5 M ORM-10103 (a selective inhibitor of NCX). ECGs and in vivo intracardiac electrophysiology studies were performed in mice at 12-14 weeks of age after intraperitoneal drug administration of 5 μg/g ouabain and 10 μg/g ORM-10103. Results: APD recordings of iPSC-CMs demonstrated both shortening and lengthening of APD with ouabain exposure. In both models, DADs were found in 6 of 18 cells with ouabain treatment. These findings were rescued with pretreatment using ORM-10103, as 0 of 8 cells developed DADs. On mouse ECG recordings, ouabain led to QRS and QT prolongation. During programmed electrical stimulation, no arrhythmia was noted with vehicle-treated mice. Following ouabain administration, 2 in 12 mice developed induced monomorphic ventricular tachycardia. Pretreatment of ORM-10103 in mice did not rescue QRS and QT prolongation with ouabain administration. Conclusions: Pharmacologic inhibition of ATP1A3 variably altered cardiac repolarization time in a species-specific manner, yet was associated with a substrate for triggered arrhythmias. The arrhythmogenic phenotype was rescued with inhibition of NCX in human cardiac myocytes, suggesting that NCX plays a role in the arrhythmogenic mechanism of ATP1A3. However, these effects were not seen in murine cardiac myocytes. Exploration of specifies-specific differences in NKA isoform expression and cardiac repolarization is needed.

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