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Ventral hippocampal cholecystokinin interneurons gate contextual reward memory

Robin Nguyen, Sanghavy Sivakumaran, Evelyn K. Lambe, Jun Chul Kim

2024iScience10 citationsDOIOpen Access PDF

Abstract

Associating contexts with rewards depends on hippocampal circuits, with local inhibitory interneurons positioned to play an important role in shaping activity. Here, we demonstrate that the encoding of context-reward memory requires a ventral hippocampus (vHPC) to nucleus accumbens (NAc) circuit that is gated by cholecystokinin (CCK) interneurons. In a sucrose conditioned place preference (CPP) task, optogenetically inhibiting vHPC-NAc terminals impaired the acquisition of place preference. Transsynaptic rabies tracing revealed vHPC-NAc neurons were monosynaptically innervated by CCK interneurons. Using intersectional genetic targeting of CCK interneurons, ex vivo optogenetic activation of CCK interneurons increased GABAergic transmission onto vHPC-NAc neurons, while in vivo optogenetic inhibition of CCK interneurons increased cFos in these projection neurons. Notably, CCK interneuron inhibition during sucrose CPP learning increased time spent in the sucrose-associated location, suggesting enhanced place-reward memory. Our findings reveal a previously unknown hippocampal microcircuit crucial for modulating the strength of contextual reward learning.

Topics & Concepts

OptogeneticsNeuroscienceConditioned place preferenceHippocampal formationCholecystokininNucleus accumbensContext (archaeology)HippocampusVentral tegmental areaExcitatory postsynaptic potentialInhibitory postsynaptic potentialGABAergicBiologyDopamineDopaminergicPaleontologyReceptorBiochemistryNeuropeptides and Animal PhysiologyMemory and Neural MechanismsNeuroendocrine regulation and behavior