Inhibitory effects of pimozide on cloned and native voltage-gated potassium channels

Abstract

The primary goal of this study was to use the cloned neuronal Kv channels to test if pimozide (PMZD), an antipsychotic drug, modulates the activity of Kv channels. In CHO cells, PMZD blocked Kv2.1, a major neuronal delayed rectifier, in a manner that depends upon time and concentration. The estimated IC 50 was 4.2 μM at +50 mV. Tail current analysis shows that PMZD reduced the amplitude of the currents, with no effect on the steady-state activation curve ( V 1/2 from 14.1 to 11.1 mV) or the slope (16.7 vs. 14.0 mV). From −120 to −20 mV, PMZD did not impact the deactivation kinetics of Kv2.1. PMZD also blocked Kv1.1, another neuronal delayed rectifier, with 16.1 μM of IC 50. When Kv1.1 was co-expressed with Kvβ1, approximately 50% of the Kv1.1 were converted into an inactivating A-type current and the Kv1.1/Kvβ1 A-type currents were insensitive to PMZD. PMZD (10 μM) had minimal effect on Kv1.4, and had no effect on the M-current candidates, KCNQ2 and KCNQ3 when co-expressed in Xenopus oocytes. In hippocampal neurons, PMZD inhibited the delayed rectifiers by approximately 60%, and A-type currents were insensitive to PMZD. The results suggest that PMZD inhibits certain neuronal Kv channels in heterologous expression systems and in hippocampal neurons. PMZD was less effective on A-type currents, presumably because its ability to block requires a prolonged opening of the K channels. It is thus conceivable that the time-dependent and/or subunit-specific inhibition of Kv channels may increase the release of neurotransmitters such as serotonin and glutamate.