Overlap Syndrome of Cardiac Sodium Channel Disease in Mice Carrying the Equivalent Mutation of Human <i>SCN5A</i> -1795insD

Background— Patients carrying the cardiac sodium channel ( SCN5A ) mutation 1795insD show sudden nocturnal death and signs of multiple arrhythmia syndromes including bradycardia, conduction delay, QT prolongation, and right precordial ST-elevation. We investigated the electrophysiological characteristics of a transgenic model of the murine equivalent mutation 1798insD. Methods and Results— On 24-hour continuous telemetry and surface ECG recordings, Scn5a 1798insD/+ heterozygous mice showed significantly lower heart rates, more bradycardic episodes (pauses ≥500 ms), and increased PQ interval, QRS duration, and QTc interval compared with wild-type mice. The sodium channel blocker flecainide induced marked sinus bradycardia and/or sinus arrest in the majority of Scn5a 1798insD/+ mice, but not in wild-type mice. Epicardial mapping using a multielectrode grid on excised, Langendorff-perfused hearts showed preferential conduction slowing in the right ventricle of Scn5a 1798insD/+ hearts. On whole-cell patch-clamp analysis, ventricular myocytes isolated from Scn5a 1798insD/+ hearts displayed action potential prolongation, a 39% reduction in peak sodium current density and a similar reduction in action potential upstroke velocity. Scn5a 1798insD/+ myocytes displayed a slower time course of sodium current decay without significant differences in voltage-dependence of activation and steady-state inactivation, slow inactivation, or recovery from inactivation. Furthermore, Scn5a 1798insD/+ myocytes showed a larger tetrodotoxin-sensitive persistent inward current compared with wild-type myocytes. Conclusions— Mice carrying the murine equivalent of the SCN5A -1795insD mutation display bradycardia, right ventricular conduction slowing, and QT prolongation, similar to the human phenotype. These results demonstrate that the presence of a single SCN5A mutation is indeed sufficient to cause an overlap syndrome of cardiac sodium channel disease.