Different inhibitions of the voltage-dependent K+ current by Ca2+ antagonists in the smooth muscle cell membrane of rabbit small intestine

Abstract

Actions of Ca²⁺ antagonists (verapamil, nicardipine and diltiazem) on the voltage-dependent K⁺ current, obtained from the fragmented smooth muscle cell membrane (smooth muscle ball; SMB) of the rabbit small intestine, were investigated using voltage clamp techniques. To eliminate the influence of the Ca²⁺-dependent K⁺ current, the voltage-dependent K⁺ current was recorded in 2.5 mM Mn²⁺ (Ca²⁺ omitted) solution. These three Ca²⁺ antagonists inhibited the peak amplitude of the K⁺ current, in a dose-dependent manner. During application of a long command pulse (duration, 3 s), the amplitude of the voltage-dependent K⁺ current decreased slowly with time. Diltiazem inhibited the K⁺ current with a slight prolongation of the 20% decay time, while TEA (tetraethyl-ammonium), a K⁺ channel blocker, inhibited the current, without affecting the decay. By contrast, verapamil and nicardipine accelerated inactivation. In the control, the voltage-dependent inactivation was also seen in the K⁺ current. This inactivation curve below 0 mV was not modified by 10 μM diltiazem, 5 μM verapamil nor 3 μM nicardipine. These results indicate that inhibition of the voltage-dependent K⁺ current by verapamil or nicardipine differed from that by diltiazem.