Antiarrhythmic effects and potential mechanism of WenXin KeLi in cardiac Purkinje cells

Abstract

Previous studies have demonstrated that WenXin KeLi (WXKL), a traditional Chinese medicine, can exert antiarrhythmic properties through complex multichannel inhibition, but its pharmacologic effect remains to be elucidated, especially in the cardiac conductive system. To explore the antiarrhythmic property of WXKL in cardiac Purkinje cells (PCs). PCs were isolated from rabbit hearts and action potentials (APs) and ion currents were recorded by whole-cell patch clamp technique. Anemonia toxin II (ATX-II) and isoproterenol (ISO) were used to induce early or delayed afterdepolarizations (EADs, DADs) or triggered activities (TAs). WXKL (1 g/L and 5 g/L) significantly abbreviated the action potential duration (APD) of PCs in a dose- and rate-dependent manner. Treatment of PCs with ATX-II (2 nM) prolonged APD and induced EADs, which were significantly suppressed by WXKL. WXKL (1, 5 g/L) also inhibited ISO-induced EADs, DADs, and TAs. To reveal the ionic mechanisms, we studied the effects of WXKL on late sodium current (I(NaL)), peak sodium current (I(NaP)), and L-type calcium currents (ICaL) in PCs. WXKL-attenuated ATX-II (5 nM) induced I(NaL) augmentation and blocked I(NaL) with an IC50 of 4.3 ± 0.5 g/L, which is 3- to 4-fold more selective than that of I(NaP) (13.3 ± 0.9 g/L) and ICaL (17.6 ± 1.4 g/L). Moreover, WXKL exerted significantly less use-dependent block of I(NaP) than that of flecainide, indicating its lower proarrhythmic effect. WXKL exhibits antiarrhythmic properties in cardiac PCs via selective inhibition of I(NaL).