Litcius/Paper detail

Local D2- to D1-neuron transmodulation updates goal-directed learning in the striatum

Miriam Matamales, Alice E. McGovern, Jia Mi, Stuart B. Mazzone, Bernard W. Balleine, Jesus Bertran‐Gonzalez

2020Science101 citationsDOI

Abstract

Extinction learning allows animals to withhold voluntary actions that are no longer related to reward and so provides a major source of behavioral control. Although such learning is thought to depend on dopamine signals in the striatum, the way the circuits that mediate goal-directed control are reorganized during new learning remains unknown. Here, by mapping a dopamine-dependent transcriptional activation marker in large ensembles of spiny projection neurons (SPNs) expressing dopamine receptor type 1 (D1-SPNs) or 2 (D2-SPNs) in mice, we demonstrate an extensive and dynamic D2- to D1-SPN transmodulation across the striatum that is necessary for updating previous goal-directed learning. Our findings suggest that D2-SPNs suppress the influence of outdated D1-SPN plasticity within functionally relevant striatal territories to reshape volitional action.

Topics & Concepts

StriatumNeuroscienceDopamineMedium spiny neuronExtinction (optical mineralogy)Direct pathway of movementPsychologyBasal gangliaControl (management)Dopamine receptor D1Action selectionAction (physics)BiologyDopamine receptor D2Cognitive psychologyComputer scienceArtificial intelligenceCentral nervous systemPhysicsQuantum mechanicsPaleontologyPerceptionNeurotransmitter Receptor Influence on BehaviorZebrafish Biomedical Research ApplicationsReceptor Mechanisms and Signaling