BACKGROUND: The development of selective atrial antiarrhythmic agents is a current strategy for suppression of atrial fibrillation (AF). METHODS AND RESULTS: Whole-cell patch clamp techniques were used to evaluate inactivation of peak sodium channel current (I(Na)) in myocytes isolated from canine atria and ventricles. The electrophysiological effects of therapeutic concentrations of ranolazine (1 to 10 micromol/L) and lidocaine (2.1 to 21 micromol/L) were evaluated in canine isolated coronary-perfused atrial and ventricular preparations. Half-inactivation voltage of I(Na) was approximately 15 mV more negative in atrial versus ventricular cells under control conditions; this difference increased after exposure to ranolazine. Ranolazine produced a marked use-dependent depression of sodium channel parameters, including the maximum rate of rise of the action potential upstroke, conduction velocity, and diastolic threshold of excitation, and induced postrepolarization refractoriness in atria but not in ventricles. Lidocaine also preferentially suppressed these parameters in atria versus ventricles, but to a much lesser extent than ranolazine. Ranolazine produced a prolongation of action potential duration (APD90) in atria, no effect on APD90 in ventricular myocardium, and an abbreviation of APD90 in Purkinje fibers. Lidocaine abbreviated both atrial and ventricular APD90. Ranolazine was more effective than lidocaine in terminating persistent AF and in preventing the induction of AF. CONCLUSIONS: Our study demonstrates important differences in the inactivation characteristics of atrial versus ventricular sodium channels and a striking atrial selectivity for the action of ranolazine to produce use-dependent block of sodium channels, leading to suppression of AF. Our results point to atrium-selective sodium channel block as a novel strategy for the management of AF.
BACKGROUND: The development of selective atrial antiarrhythmic agents is a current strategy for suppression of atrial fibrillation (AF). METHODS AND RESULTS: Whole-cell patch clamp techniques were used to evaluate inactivation of peak sodium channel current (I(Na)) in myocytes isolated from canine atria and ventricles. The electrophysiological effects of therapeutic concentrations of ranolazine (1 to 10 micromol/L) and lidocaine (2.1 to 21 micromol/L) were evaluated in canine isolated coronary-perfused atrial and ventricular preparations. Half-inactivation voltage of I(Na) was approximately 15 mV more negative in atrial versus ventricular cells under control conditions; this difference increased after exposure to ranolazine. Ranolazine produced a marked use-dependent depression of sodium channel parameters, including the maximum rate of rise of the action potential upstroke, conduction velocity, and diastolic threshold of excitation, and induced postrepolarization refractoriness in atria but not in ventricles. Lidocaine also preferentially suppressed these parameters in atria versus ventricles, but to a much lesser extent than ranolazine. Ranolazine produced a prolongation of action potential duration (APD90) in atria, no effect on APD90 in ventricular myocardium, and an abbreviation of APD90 in Purkinje fibers. Lidocaine abbreviated both atrial and ventricular APD90. Ranolazine was more effective than lidocaine in terminating persistent AF and in preventing the induction of AF. CONCLUSIONS: Our study demonstrates important differences in the inactivation characteristics of atrial versus ventricular sodium channels and a striking atrial selectivity for the action of ranolazine to produce use-dependent block of sodium channels, leading to suppression of AF. Our results point to atrium-selective sodium channel block as a novel strategy for the management of AF.
Authors: Charles Antzelevitch; Luiz Belardinelli; Lin Wu; Heather Fraser; Andrew C Zygmunt; Alexander Burashnikov; José M Di Diego; Jeffrey M Fish; Jonathan M Cordeiro; Robert J Goodrow; Fabiana Scornik; Guillermo Perez Journal: J Cardiovasc Pharmacol Ther Date: 2004-09 Impact factor: 2.457
Authors: Charles Antzelevitch; Luiz Belardinelli; Andrew C Zygmunt; Alexander Burashnikov; José M Di Diego; Jeffrey M Fish; Jonathan M Cordeiro; George Thomas Journal: Circulation Date: 2004-08-09 Impact factor: 29.690
Authors: T Furukawa; S Koumi; Y Sakakibara; D H Singer; H Jia; C E Arentzen; C L Backer; J A Wasserstrom Journal: J Mol Cell Cardiol Date: 1995-02 Impact factor: 5.000
Authors: Sandeep V Pandit; Sharon Zlochiver; David Filgueiras-Rama; Sergey Mironov; Masatoshi Yamazaki; Steven R Ennis; Sami F Noujaim; Antony J Workman; Omer Berenfeld; Jerome Kalifa; José Jalife Journal: Cardiovasc Res Date: 2010-11-13 Impact factor: 10.787