The effect of racemic ketamine on the large conductance Ca +2-activated potassium (BK) channels in GH 3 cells

Abstract

Recently, inhalation anesthetics have been reported to block BK channels in adrenal chromaffin cells. To determine if BK block was characteristic only of inhalation anesthetics or was also a property of other general anesthetics we examined the effects of ketamine, an intravenous general anesthetic which is structurally different than inhalation anesthetics. Cell-attached and excised patch single channel and standard whole cell recording techniques were used to examine the effect of racemic ketamine on the BK channel activity in GH 3 cells. When solutions containing 150 mM KCl are used in both the pipette and bath, the BK channels are characterized as a voltage-dependent channel with a unit conductance of 150–300 pS. Racemic ketamine (at clinically relevant concentrations; 2–500 μM) selectively blocked BK channels in a dose-dependent, reversible manner as evidenced by decreases in NP o (number of channels × open probability). This decrease was due to both a decrease in mean open time and an increase in the mean closed time but without a decrease in single-channel current amplitude. Ketamine shifts the P o vs voltage curve to higher potentials without a change in the slope of the voltage dependence. Ketamine also shifts the P o vs [Ca +2] relationship to higher Ca +2 concentrations. The IC 50 for the single-channel block by ketamine is 20.3 ± 15.9 μM. In an effort to confirm that the effect of ketamine was predominantly due to a block of the BK channels, standard whole cell techniques were utilized. As with the single-channel experiments, ketamine (2–500 μM) produced a dose-dependent, voltage-independent and reversible decrease in outward current with an IC 50 of 23.7 ± 11.5 μM. Addition of 100 μM ketamine to cells pretreated with the BK channel blocker, charybdotoxin (ChTX), did not result in a further decrease in outward current. These results demonstrate a selective effect of ketamine at clinically relevant concentrations which is consistent with results reported for inhalation anesthetics.