Characterization of potassium currents modulated by BRL 38227 in rat portal vein.

Abstract

1. Smooth muscle cells of the rat portal vein were dispersed by enzymatic treatment and recordings of whole-cell membrane potassium currents were made by the voltage-clamp technique. In isolated cells by use of combined voltage- and current-clamp the effect of BRL 38227 on membrane potential and ionic currents was also studied. 2. BRL 38227 (0.1 to 10 microM) induced a non-inactivating potassium current (IKCO) which developed slowly (900 s to 300 s, respectively) to its full size. These effects of BRL 38227 were reversible. 3. In addition to its K-channel opening properties, BRL 38227 (1 to 10 microM) inhibited the amplitude and changed the activation and inactivation characteristics of a slowly-inactivating, calcium influx-independent, outward potassium current (I(TO)). 4. Application of stationary fluctuation analysis to IKCO, showed a mean single channel current of 0.65 pA at -10 mV under a quasi-physiological potassium gradient. 5. In a combined voltage-clamp/current-clamp configuration, BRL 38227 (1 microM) induced a mean hyperpolarization of 22 mV. 6. The induction of IKCO by BRL 38227 and the associated hyperpolarization were suppressed by glibenclamide (1 to 10 microM) in a concentration-dependent manner. Glibenclamide (1 microM) had no effect on the inhibition of I(TO) by BRL 38227 (1 microM).