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An endogenous GLP-1 circuit engages VTA GABA neurons to regulate mesolimbic dopamine neurons and attenuate cocaine seeking

R. Merkel, Nicole S. Hernandez, Vanessa Weir, Yafang Zhang, Antonia Caffrey, Matthew T. Rich, Richard C. Crist, Benjamin C. Reiner, Heath D. Schmidt

2025Science Advances41 citationsDOIOpen Access PDF

Abstract

Recent studies show that systemic administration of a glucagon-like peptide-1 receptor (GLP-1R) agonist is sufficient to attenuate cocaine seeking. However, the neural mechanisms mediating these effects and the role of endogenous central GLP-1 signaling in cocaine seeking remain unknown. Here, we show that voluntary cocaine taking decreased plasma GLP-1 levels in rats and that chemogenetic activation of GLP-1-producing neurons in the nucleus tractus solitarius that project to the ventral tegmental area (VTA) decreased cocaine seeking. Single-nuclei transcriptomics and FISH studies revealed that GLP-1Rs are expressed primarily on GABA neurons in the VTA. Using in vivo fiber photometry, we found that the efficacy of a systemic GLP-1R agonist to attenuate cocaine seeking was associated with increased activity of VTA GABA neurons and decreased activity of VTA dopamine neurons. Together, these findings suggest that targeting central GLP-1 circuits may be an effective strategy toward reducing cocaine relapse and highlight a functional role of GABAergic GLP-1R-expressing midbrain neurons in drug seeking.

Topics & Concepts

Ventral tegmental areaGABAergicDopamineNucleus accumbensNeuroscienceAgonistAutoreceptorMidbrainPharmacologyEndogenyChemistryReceptorBiologyCentral nervous systemMedicineInternal medicineEndocrinologyDopaminergicInhibitory postsynaptic potentialReceptor Mechanisms and SignalingNeurotransmitter Receptor Influence on BehaviorNeuropeptides and Animal Physiology
An endogenous GLP-1 circuit engages VTA GABA neurons to regulate mesolimbic dopamine neurons and attenuate cocaine seeking | Litcius