β-Adrenergic Augmentation of Flecainide-Induced Conduction Slowing in Canine Purkinje Fibers

Abstract

Background This study was undertaken to test the hypothesis that β-adrenergic stimulation in the setting of membrane depolarization will potentiate flecainide-induced conduction slowing. Methods and Results To elucidate the potential mechanism for the flecainide proarrhythmia observed in CAST, the voltage dependence of β-adrenergic modulation of impulse propagation in eight flecainide-superfused canine Purkinje fibers was examined with a dual-microelectrode technique. At physiological membrane potentials (V _m ) ([K ⁺ ] _o =5.4 μmol), 1 μmol flecainide decreased V̇ _max from 698±55 to 610±72 V/s ( P =.003) and squared conduction velocity (θ ² ) from 2.11±1.1 to 1.72±0.9 (m/s) ² ( P =.001). With K ⁺ depolarization to V _m =−70 mV, flecainide further reduced V̇ _max from 306±101 to 245±65 V/s and θ ² from 1.12±0.4 to 0.99±0.6 (m/s) ² , producing a 2.0-mV hyperpolarizing shift of apparent Na ⁺ channel availability curves derived from θ ² . The addition of 1 μmol isoproterenol to flecainide-superfused fibers at physiological V _m increased θ ² by 8% to 1.84±0.6 (m/s) ² ( P <.01) without altering V̇ _max . At −70 mV, the addition of isoproterenol magnified the flecainide-induced reduction of V̇ _max an additional 24% to 185±52 V/s ( P <.01) and θ ² by 17% to 0.82±0.5 (m/s) ² ( P =.04), producing an additional 1.8-mV ( P =.002) and 1.9-mV ( P =.002) hyperpolarizing shift in the apparent Na ⁺ channel inactivation curves generated from V̇ _max and θ ² , respectively. At physiological V _m , the action potential duration (APD ₉₅ ) was reduced from 307±35 to 269±27 ms ( P <.001) by flecainide and subsequently to 217±4 ms ( P <.001) with isoproterenol addition. With 12 mmol/L K ⁺ , APD ₉₅ decreased from 198±23 to 182±17 ms ( P =.005) with flecainide and to 164±10 ms ( P =.004) with isoproterenol. Conclusions At depolarized V _m , isoproterenol amplified the flecainide-induced reduction of V̇ _max and θ ² , suggesting a further adrenergic-mediated reduction of Na ⁺ current. Consequently, the synergy between catecholamines and flecainide at depolarized V _m and the shortened APD ₉₅ could facilitate arrhythmogenesis in the presence of underlying ischemia.