Kirstine Calloe1, Anders K Broendberg2, Alex H Christensen3, Lisbeth N Pedersen4, Morten S Olesen5, Maria de Los Angeles Tejada1, Soren Friis6, Morten B Thomsen7, Henning Bundgaard3, Henrik K Jensen8. 1. Department of Veterinary and Animal Sciences, University of Copenhagen, Copenhagen, Denmark. 2. Department of Cardiology, Aarhus University Hospital, Aarhus, Denmark; Department of Clinical Medicine, Health, Aarhus University, Aarhus, Denmark. 3. Unit for Inherited Cardiovascular Diseases, The Heart Centre, National University Hospital, University of Copenhagen, Copenhagen, Denmark. 4. Department of Molecular Medicine, Aarhus University Hospital, Aarhus, Denmark. 5. Department of Biomedical Sciences, University of Copenhagen, Copenhagen, Denmark; Laboratory for Molecular Cardiology, The Heart Centre, National University Hospital, University of Copenhagen, Copenhagen, Denmark. 6. Department of Veterinary and Animal Sciences, University of Copenhagen, Copenhagen, Denmark; Nanion Technologies GmbH, Munich, Germany. 7. Department of Biomedical Sciences, University of Copenhagen, Copenhagen, Denmark. 8. Department of Cardiology, Aarhus University Hospital, Aarhus, Denmark; Department of Clinical Medicine, Health, Aarhus University, Aarhus, Denmark. Electronic address: hkjensen@clin.au.dk.
Abstract
BACKGROUND: SCN5A mutations can lead to different cardiac diseases. Recently, SCN5A mutations have been linked to the clinical entity multifocal ectopic Purkinje-related premature contractions (MEPPC) characterized by ventricular ectopy and dilated cardiomyopathy. METHODS & RESULTS: A family with a uniform MEPPC-like phenotype, associated with complex atrial and ventricular arrhythmias and dilated cardiomyopathy caused by a high frequency of ventricular ectopy was clinically assessed. Screening of the SCN5A gene revealed a missense mutation in the linker between segments 3 and 4 in domain 1 of the Nav1.5 protein, resulting in a glycine to aspartate substitution at position 213 (G213D). The phenotype co-segregated with the missense mutation. Electrophysiological studies of wild type (WT) hNav1.5 and hNav1.5_G213D expressed in CHO-K cells showed that the voltage of half-maximal activation (V½) was significantly more negative for hNav1.5_G213D compared to WT (V½=-38.7±0.5mV for WT and V½=-42.4±0.5mV for G213D; P<0.001). This suggests activation of Nav1.5_G231D at more negative potentials. The V½ of steady-state inactivation was significantly shifted towards more positive values for Nav1.5_G213D (V½=-86.7±0.2mV for WT and -82.2±0.3mV for G213D; P<0.001), also contributing to a gain-of-function phenotype. Flecainide and amiodarone markedly reduced premature atrial and ventricular contractions in four patients. CONCLUSION: The Nav1.5_G213D mutation is associated with a gain-of-function phenotype, multifocal atrial and ventricular ectopy and dilated cardiomyopathy. Since patients with a MEPPC-like phenotype may specifically benefit from Class-1 antiarrhythmic drugs or amiodarone, clinical identification of this disease entity is important.
BACKGROUND:SCN5A mutations can lead to different cardiac diseases. Recently, SCN5A mutations have been linked to the clinical entity multifocal ectopic Purkinje-related premature contractions (MEPPC) characterized by ventricular ectopy and dilated cardiomyopathy. METHODS & RESULTS: A family with a uniform MEPPC-like phenotype, associated with complex atrial and ventricular arrhythmias and dilated cardiomyopathy caused by a high frequency of ventricular ectopy was clinically assessed. Screening of the SCN5A gene revealed a missense mutation in the linker between segments 3 and 4 in domain 1 of the Nav1.5 protein, resulting in a glycine to aspartate substitution at position 213 (G213D). The phenotype co-segregated with the missense mutation. Electrophysiological studies of wild type (WT) hNav1.5 and hNav1.5_G213D expressed in CHO-K cells showed that the voltage of half-maximal activation (V½) was significantly more negative for hNav1.5_G213D compared to WT (V½=-38.7±0.5mV for WT and V½=-42.4±0.5mV for G213D; P<0.001). This suggests activation of Nav1.5_G231D at more negative potentials. The V½ of steady-state inactivation was significantly shifted towards more positive values for Nav1.5_G213D (V½=-86.7±0.2mV for WT and -82.2±0.3mV for G213D; P<0.001), also contributing to a gain-of-function phenotype. Flecainide and amiodarone markedly reduced premature atrial and ventricular contractions in four patients. CONCLUSION: The Nav1.5_G213D mutation is associated with a gain-of-function phenotype, multifocal atrial and ventricular ectopy and dilated cardiomyopathy. Since patients with a MEPPC-like phenotype may specifically benefit from Class-1 antiarrhythmic drugs or amiodarone, clinical identification of this disease entity is important.
Authors: Balázs Horváth; Norbert Szentandrássy; János Almássy; Csaba Dienes; Zsigmond Máté Kovács; Péter P Nánási; Tamas Banyasz Journal: Pharmaceuticals (Basel) Date: 2022-02-15
Authors: Joanna Zakrzewska-Koperska; Zofia T Bilińska; Grażyna T Truszkowska; Maria Franaszczyk; Waldemar Elikowski; Grzegorz Warmiński; Katarzyna Kalin; Piotr Urbanek; Robert Bodalski; Michał Orczykowski; Łukasz Szumowski; Rafał Płoski; Maria Bilińska Journal: ESC Heart Fail Date: 2020-10-20