Abstract
Classic theories propose opponent functions for striatal dopamine (DA) and serotonin (5-hydroxytryptamine; 5HT), with DA promoting approach and 5HT promoting patience or avoidance. How these neuromodulators regulate downstream circuits to achieve such antagonistic effects remains mysterious. Here, we mapped striatal 5HT receptor expression in mice to reveal preferential enrichment of putatively excitatory, G(q)-coupled 5HT receptors on medium spiny neurons expressing inhibitory D2 DA receptors (D2-MSNs). Acute slice recordings from genetically identified striatal neurons showed that DA and 5HT inversely regulate D2-MSN firing and confirmed that 5HT's excitatory effect on these cells is blocked by 5HT2a and 5HT2c receptor antagonists. Pharmacologically upregulating striatal 5HT release preferentially induced cfos expression in D2-MSNs, validating that 5HT's excitatory effect on these cells also occurs in vivo. Finally, 5HT2c receptor loss-of-function in D2-MSNs, but not D1-MSNs, enhanced animals' sensitivity to the behavioral effects of cocaine - a potent releaser of DA and 5HT - showing that 5HTergic excitation of D2-MSNs counteracts the reinforcing effects of striatal DA release. Altogether these results demonstrate that DA and 5HT inversely modulate D2-MSN activity to regulate cocaine reward, identifying a key circuit mechanism underlying the opponent behavioral effects of these important neuromodulators.