Litcius/Paper detail

Dopamine D1 receptor activation in the striatum is sufficient to drive reinforcement of anteceding cortical patterns

Nuria Vendrell-Llopis, Jonathan Read, Samantha Boggiano, Belinda E. Hetzler, Zisis Peitsinis, Cherise Stanley, Meike Visel, Dirk Trauner, Prashant Donthamsetti, Jose M. Carmena, Stephan Lammel, Ehud Y. Isacoff

2025Neuron11 citationsDOIOpen Access PDF

Abstract

Timed dopamine signals underlie reinforcement learning, favoring neural activity patterns that drive behaviors with positive outcomes. In the striatum, dopamine activates five dopamine receptors (D1R-D5R), which are differentially expressed in striatal neurons. However, the role of specific dopamine receptors in reinforcement is poorly understood. Using our cell-specific D1R photo-agonist, we find that D1R activation in D1-expressing neurons in the dorsomedial striatum is sufficient to reinforce preceding neural firing patterns in defined ensembles of layer 5 cortico-striatal neurons of the mouse motor cortex. The reinforcement is cumulative and time dependent, with an optimal effect when D1R activation follows the selected neural pattern after a short interval. Our results show that D1R activation in striatal neurons can selectively reinforce cortical activity patterns, independent of a behavioral outcome or a reward, crucially contributing to the fundamental mechanisms that support cognitive functions like learning, memory, and decision-making.

Topics & Concepts

DopamineNeuroscienceStriatumPsychologyReinforcementReinforcement learningDopamine receptor D1AgonistBasal gangliaVentral striatumDopamine receptorReceptorBiologyCentral nervous systemComputer scienceArtificial intelligenceBiochemistrySocial psychologyReceptor Mechanisms and SignalingNeurotransmitter Receptor Influence on BehaviorNeural dynamics and brain function