Effects of halothane and diltiazem on L-type calcium currents in single smooth muscle cells from rabbit portal veins

Abstract

We have studied the effects of halothane and diltiazem on L-type voltage-dependent calcium currents (ICa) in single smooth muscle cells from rabbit portal veins using a whole cell voltage clamp technique. The threshold of ICa was -30mV and the peak current was reached at 0mV. Halothane (0.25, 0.5, 1.0, 1.5 and 2.0%) decreased ICa in a concentration-dependent manner and shifted the ICa activation threshold to the depolarizing side. Halothane 2.0% abolished ICa. Diltiazem 10(-8)-10(-6) mol litre-1, a calcium channel antagonist, also depressed ICa in a concentration-dependent manner. Administration of both 0.5% halothane and diltiazem 10(-7) mol litre-1 (concentrations lower than the clinical therapeutic range) abolished ICa; however, halothane did not exhibit use-dependent inhibition of ICa whereas diltiazem showed partial use-dependency. We conclude that the decrease in ICa produced by halothane is associated with a direct vasodilator effect of this anaesthetic, but is not explained by block of Ca2+ channels similar to the action of diltiazem. Furthermore, administration of low concentrations of both halothane and diltiazem decreased ICa and may reduce the contractility of the vascular smooth muscle cells.