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Activation, but not inhibition, of the indirect pathway disrupts choice rejection in a freely moving, multiple-choice foraging task

Kristen Delevich, Benjamin Hoshal, Lexi Z. Zhou, Yuting Zhang, Satya Vedula, Wan Chen Lin, Juliana Chase, Anne Collins, Linda Wilbrecht

2022Cell Reports17 citationsDOIOpen Access PDF

Abstract

The dorsomedial striatum (DMS) plays a key role in action selection, but less is known about how direct and indirect pathway spiny projection neurons (dSPNs and iSPNs, respectively) contribute to choice rejection in freely moving animals. Here, we use pathway-specific chemogenetic manipulation during a serial choice foraging task to test the role of dSPNs and iSPNs in learned choice rejection. We find that chemogenetic activation, but not inhibition, of iSPNs disrupts rejection of nonrewarded choices, contrary to predictions of a simple "select/suppress" heuristic. Our findings suggest that iSPNs' role in stopping and freezing does not extend in a simple fashion to choice rejection in an ethological, freely moving context. These data may provide insights critical for the successful design of interventions for addiction or other conditions in which it is desirable to strengthen choice rejection.

Topics & Concepts

Action selectionDirect pathway of movementContext (archaeology)Task (project management)Intertemporal choiceMedium spiny neuronPsychologyNeuroscienceForagingSelection (genetic algorithm)Indirect pathway of movementCognitive psychologyBiologyStriatumComputer scienceArtificial intelligenceMicroeconomicsEconomicsEcologyPerceptionDopamineManagementPaleontologyNeurotransmitter Receptor Influence on BehaviorNeural dynamics and brain functionNeuroendocrine regulation and behavior