CHOLECYSTOKININ ANTAGONISTS INHIBIT INVIVO VOLTAMMETRIC SIGNALS GENERATED BY KCL-INDUCED SLOW-WAVE DEPOLARIZATION IN RAT CAUDATE

The effect of sulfated cholecystokinin octapeptide (CCK-8S) on the generation of slow wave depolarisation in the rat caudate-putamen (CPu) was studied using in vivo voltammetry. Pressure-ejection of 50 muM CCK-8S into the CPu induced voltammetric signals recorded at widely spaced Nafion-coated carbon fiber microelectrodes. Based on the in vitro selectivity properties of the electrodes, the signals were predominantly due to increases in extracellular concentrations of dopamine (DA). The similar propagation rates of the signals induced by CCK-8S and 100 mM KCl suggests that the CCK-8S-induced signals represent a slow wave depolarization (SWD). Since the CPu was refractory to a second CCK-8S stimulus, the effects of CCK antagonists on DA signals associated with 100 mM KCl-induced SWD were evaluated. Proglumide (4-64 mg/kg) and lorglumide (20-640 mug/kg), administered intravenously, decreased KCl-induced DA signals in the CPu in a dose-dependent manner. The antagonistic effect of lorglumide on the KCl-induced signals was partly reversed 130 min after drug administration. The generation of a SWD by CCK-8S and the inhibitory effects of CCK-8S antagonists on KCl-induced signals suggest that the susceptibility of the CPu to KCl-induced SWD may be enhanced by CCK-8S.