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  • Title: Determinants of antiarrhythmic drug action. Electrostatic and hydrophobic components of block of the human cardiac hKv1.5 channel.
    Author: Snyders DJ, Yeola SW.
    Journal: Circ Res; 1995 Sep; 77(3):575-83. PubMed ID: 7641327.
    Abstract:
    The molecular basis of antiarrhythmic drug action is still poorly understood. We recently reported that block of the human cardiac hKv1.5 channel by quinidine displayed similarity with internal quaternary ammonium block of squid and Shaker potassium channels. To gain further insight into the molecular determinants of the affinity and the stereoselectivity of antiarrhythmic drug action, we studied the effects of quinine (a diastereomer of quinidine), clofilium (a quaternary ammonium class III agent), and tetrapentylammonium (TPeA, a biophysical reference probe for the internal quaternary ammonium binding site). For all compounds, block was voltage dependent, with a steep increase over the voltage range of channel opening and a superimposed weaker voltage dependence at more positive potentials. The latter electrostatic component was similar for all drugs, consistent with a binding reaction sensing approximately 20% of the transmembrane electrical field. Clofilium and TPeA displayed a higher apparent affinity (0.15 and 0.28 mumol/L, respectively), and quinine displayed a lower one (21 mumol/L) compared with quinidine (6.2 mumol/L). Block development upon depolarization was time dependent for clofilium and TPeA but slow compared with quinidine. A time-dependent component was difficult to resolve for quinine, but the time course of deactivating tail currents was slower than in the control condition. The resulting crossover phenomenon was also observed for the quaternary drugs. Compared with TPeA alone, the combined application of quinine and TPeA resulted in a reduced current that decayed slower, consistent with competition.(ABSTRACT TRUNCATED AT 250 WORDS)
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