Properties of the cromakalim‐induced potassium conductance in smooth muscle cells isolated from the rabbit portal vein

Abstract

Single smooth muscle cells were isolated freshly from the rabbit portal vein and membrane currents were recorded by the whole‐cell or excised patch configurations of the patch‐clamp technique at room temperature. Cromakalim (Ckm, 10 μm) induced a potassium current (I_Ckm) that showed no pronounced voltage‐dependence and had low current noise. This current, I_Ckm, was inhibited by (in order of potency): phencyclidine > quinidine > 4‐aminopyridine > tetraethylammonium ions (TEA). These drugs inhibited the delayed rectifier current, I_dK, which is activated by depolarization of the cell, with the same order of potency. Large conductance calcium‐activated potassium channels (L_KCa) in isolated membrane patches were blocked by (in order of potency) quinidine > TEA ≅ phencyclidine. 4‐Aminopyridine was ineffective. A similar order of potency was found for block of spontaneous transient outward currents thought to represent bursts of openings of L_KCa channels. The low current noise of I_Ckm at positive potentials, and its susceptibility to inhibitors indicated that it was not carried by L_KCa channels, and that it may be carried by channels which underlie I_dK. It was observed that when I_Ckm was activated, I_dK was reduced. However, in two experiments, I_Ckm was much more susceptible to glibenclamide than I_dK; possible reasons for this are discussed.