2023
Operant Training for Highly Palatable Food Alters Translating Messenger RNA in Nucleus Accumbens D2 Neurons and Reveals a Modulatory Role of Ncdn
Montalban E, Giralt A, Taing L, Nakamura Y, Pelosi A, Brown M, de Pins B, Valjent E, Martin M, Nairn A, Greengard P, Flajolet M, Hervé D, Gambardella N, Roussarie J, Girault J. Operant Training for Highly Palatable Food Alters Translating Messenger RNA in Nucleus Accumbens D2 Neurons and Reveals a Modulatory Role of Ncdn. Biological Psychiatry 2023, 95: 926-937. PMID: 37579933, PMCID: PMC11059129, DOI: 10.1016/j.biopsych.2023.08.006.Peer-Reviewed Original ResearchStriatal projection neuronsNucleus accumbensPalatable foodProjection neuronsNAc neuronsD2-striatal projection neuronsWild-type miceMessenger RNAConditioning-induced changesSpine densityDopamine neuronsDopamine receptorsDownregulated genesD2 neuronsModulatory roleNAc dopamineDopamine DFood altersCompensatory mechanismsRegular foodNeuronsFeeding behaviorBehavioral responsesMRNA alterationsMice
2016
Chapter 29 Regulation of Striatal Signaling by Protein Phosphatases
Girault J, Greengard P, Nairn A. Chapter 29 Regulation of Striatal Signaling by Protein Phosphatases. Techniques In The Behavioral And Neural Sciences 2016, 24: 583-607. DOI: 10.1016/b978-0-12-802206-1.00029-5.Peer-Reviewed Original ResearchSerine/threonine proteinProtein phosphatase regulationRegulation of proteinsPhosphatase regulationProtein phosphataseARPP-16Regulatory phosphoproteinsIntracellular signalingIntercellular communicationMedium spiny projection neuronsKey roleDARPP-32Major classesGenesRegulationSignalingProteinStriatal medium spiny projection neuronsSpecific setStriatal signalingPhosphoproteinRoleModulatory rolePhosphataseNeurons