The role of dopamine D3 compared with D2 receptors in the control of locomotor activity: a combined behavioural and neurochemical analysis with novel,selective antagonists in rats

Background The role of dopamine D₃/D₂ receptors in the control of locomotion is poorly understood.Objectives To examine the influence of selective antagonists at D₃ or D₂ receptors on locomotion in rats, alone and in interaction with the preferential D₃ versus D₂ receptor agonist, PD128,907.Methods Affinities of ligands at rat D₂ and cloned, human hD₃, hD_2S, hD_2L and hD₄ sites were determined by standard procedures. Locomotion was monitored automatically in rats pre-habituated for 30 min to an open-field environment. Extracellular levels of dopamine (DA) were determined by dialysis in the nucleus accumbens and striatum. Drugs were given acutely via the systemic route.Results PD128,907, which preferentially recognised D₃ versus D₂ sites, biphasically reduced and enhanced locomotion at low (0.01–0.63 mg/kg) and high (2.5–10 mg/kg) doses, respectively. L741,626 and S23199, which behaved as preferential D₂ versus D₃ receptor antagonists, enhanced the reduction in locomotion evoked by the low dose of PD128,907, blocked the increase provoked by the high dose and suppressed spontaneous locomotion alone. Analogous findings were obtained with haloperidol and raclopride which showed equilibrated affinity at D₂ and D₃ receptors. UH232 and AJ76, which showed a mild preference for D₃ versus D₂ sites, did not modify the effect of a low dose of PD128,907, slightly enhanced the hyperlocomotion elicited by the high dose and exerted little influence on locomotion alone. S14297 and U99194, which acted as preferential D₃ versus D₂ receptor antagonists, abolished the reduction in locomotion elicited by a low dose of PD128,907, potentiated the induction of locomotion by a high dose, and failed to influence locomotion alone. The actions of S14297 were stereoselective inasmuch as they were mimicked by the racemic form, S11566, but not by the inactive enantiomer, S17777. In contrast to S14297, S11566 and U99194, however, S33084, SB269,652, GR218,231 and N-[-4-[-(1-naphtyl)piperazine-1-yl]butyl] anthracene-2-carboxamide (NGB-1), highly selective D₃ versus D₂ receptor antagonists, were inactive under all conditions. PD128,907 (0.01–10.0 mg/kg) suppressed dialysate levels of DA in the nucleus accumbens and striatum, actions blocked by L741,626 and haloperidol, yet unaffected by S14297 and S33084.Conclusions The facilitatory influence of a high dose of PD128,907 upon locomotion is mediated by postsynaptic D₂ receptors and, possibly, countered by their D₃ counterparts. Correspondingly, selective blockade of D₂ but not of D₃ receptors alone suppresses motor function. The reduction in locomotion provoked by a low dose of PD128,907 may be mediated by D₂ autoreceptors, but a role of postsynaptic D₃ receptors cannot be excluded. Finally, mechanisms underlying the contrasting influence of chemically diverse D₃ receptor antagonists upon locomotion remain to be elucidated.