期刊
CIRCULATION-ARRHYTHMIA AND ELECTROPHYSIOLOGY
卷 13, 期 8, 页码 -出版社
LIPPINCOTT WILLIAMS & WILKINS
DOI: 10.1161/CIRCEP.118.006875
关键词
electrophysiology; long QT syndrome; potassium channels; sodium channels; ventricular fibrillation
资金
- Gilead Science
- National Heart, Lung, and Blood Institute at the National Institutes of Health [R01HL110791]
Background: Long QT syndrome has been associated with sudden cardiac death likely caused by early afterdepolarizations (EADs) and polymorphic ventricular tachycardias (PVTs). Suppressing the late sodium current (I-NaL) may counterbalance the reduced repolarization reserve in long QT syndrome and prevent EADs and PVTs. Methods: We tested the effects of the selective I(NaL)blocker GS967 on PVT induction in a transgenic rabbit model of long QT syndrome type 2 using intact heart optical mapping, cellular electrophysiology and confocal Ca(2+)imaging, and computer modeling. Results: GS967 reduced ventricular fibrillation induction under a rapid pacing protocol (n=7/14 hearts in control versus 1/14 hearts at 100 nmol/L) without altering action potential duration or restitution and dispersion. GS967 suppressed PVT incidences by reducing Ca2+-mediated EADs and focal activity during isoproterenol perfusion (at 30 nmol/L, n=7/12 and 100 nmol/L n=8/12 hearts without EADs and PVTs). Confocal Ca(2+)imaging of long QT syndrome type 2 myocytes revealed that GS967 shortened Ca(2+)transient duration via accelerating Na+/Ca(2+)exchanger (I-NCX)-mediated Ca(2+)efflux from cytosol, thereby reducing EADs. Computer modeling revealed that I(NaL)potentiates EADs in the long QT syndrome type 2 setting through (1) providing additional depolarizing currents during action potential plateau phase, (2) increasing intracellular Na+(Na-i) that decreases the depolarizing I(NCX)thereby suppressing the action potential plateau and delaying the activation of slowly activating delayed rectifier K(+)channels (I-Ks), suggesting important roles of I(NaL)in regulating Na-i. Conclusions: Selective I(NaL)blockade by GS967 prevents EADs and abolishes PVT in long QT syndrome type 2 rabbits by counterbalancing the reduced repolarization reserve and normalizing Na-i.
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