Selective D 2 and D 3 receptor antagonists oppositely modulate cocaine responses in mice via distinct postsynaptic mechanisms in nucleus accumbens

The dopamine D 3 receptor (D 3 R) has emerged as a promising pharmacotherapeutic target for the treatment of several diseases including schizophrenia, Parkinson’s disease, and substance use disorders. However, studies investigating the D 3 R’s precise role in dopamine neurotransmission or how it may be exploited to modulate responses to drugs of abuse have produced contrasting results, in part because most D 3 R-targeted compounds often also interact with D 2 receptors (D 2 R). To resolve this issue, we set out to systematically characterize and compare the consequences of selective D 2 R or D 3 R antagonists on the behavioral-stimulant properties of cocaine in mice, and to identify putative neurobiological mechanisms underlying their behavior-modifying effects. Pretreatment with the selective D 2 R antagonist L-741,626 attenuated, while pretreatment with the selective D 3 R antagonist PG01037 enhanced, the locomotor-activating effects of both acute cocaine administration as well as sensitization following repeated cocaine dosing. While both antagonists potentiated cocaine-induced increases in presynaptic dopamine release, we report for the first time that D 3 R blockade uniquely facilitated dopamine-mediated excitation of D 1 -expressing medium spiny neurons in the nucleus accumbens. Collectively, our results demonstrate that selective D 3 R antagonism potentiates the behavioral-stimulant effects of cocaine in mice, an effect that is in direct opposition to that produced by selective D 2 R antagonism or nonselective D 2 -like receptor antagonists, and is likely mediated by facilitating D 1 -mediated excitation in the nucleus accumbens. These findings provide novel insights into the neuropharmacological actions of D 3 R antagonists on mesolimbic dopamine neurotransmission and their potential utility as pharmacotherapeutics.