| Popis: |
In the striatum, acetylcholine (ACh) neuron activity is modulated co-incident with dopamine (DA) release in response to unpredicted rewards and reward predicting cues and both neuromodulators are thought to regulate each other. While this co-regulation has been studied using stimulation studies, the existence of this mutual regulation in vivo during natural behavior is still largely unexplored. One long-standing controversy has been whether striatal DA is responsible for the induction of the cholinergic pause or whether D2R modulate a pause that is induced by other mechanisms. Here, we used genetically encoded sensors in combination with pharmacological and genetic inactivation of D2Rs from cholinergic interneurons (CINs) to simultaneously measure ACh and DA levels after CIN D2R inactivation. We found that CIN D2Rs are not necessary for the induction of cue induced dips in ACh levels but regulate dip lengths and rebound ACh levels. Importantly, D2R inactivation strongly decreased the temporal correlation between DA and Ach signals not only at cue presentation but also during the intertrial interval. This points to a general mechanism by which D2Rs coordinate both signals. At the behavioral level D2R antagonism increased the latency to lever press, which was not observed in CIN-selective D2R knock out mice. This latency correlated with the cue evoked dip length supporting a role of the ACh dip and it’s regulation by D2Rs in motivated behavior. Overall, our data indicate that striatal DA coordinate phasic ACh and DA signals via CIN D2Rs which is important for the regulation of motivated behavior. |
