2020
GABA interneurons are the cellular trigger for ketamine’s rapid antidepressant actions
Gerhard DM, Pothula S, Liu RJ, Wu M, Li XY, Girgenti MJ, Taylor SR, Duman CH, Delpire E, Picciotto M, Wohleb ES, Duman RS. GABA interneurons are the cellular trigger for ketamine’s rapid antidepressant actions. Journal Of Clinical Investigation 2020, 130: 1336-1349. PMID: 31743111, PMCID: PMC7269589, DOI: 10.1172/jci130808.Peer-Reviewed Original ResearchConceptsRapid antidepressant actionsAntidepressant actionGABA interneuronsMedial prefrontal cortexCell-specific knockdownPrinciple neuronsPrefrontal cortexDeletion of GluN2BSingle subanesthetic doseBehavioral actionsAction of ketamineNMDA receptor antagonistExcitatory postsynaptic currentsCellular triggersMajor unmet needKetamine's rapid antidepressant actionsGABA subtypeGluN2B-NMDARsSST interneuronsPostsynaptic currentsReceptor antagonistDepressed patientsSubanesthetic doseExtracellular glutamateMood disorders
2019
Role of Neuronal VEGF Signaling in the Prefrontal Cortex in the Rapid Antidepressant Effects of Ketamine
Deyama S, Bang E, Wohleb ES, Li XY, Kato T, Gerhard DM, Dutheil S, Dwyer JM, Taylor SR, Picciotto MR, Duman RS. Role of Neuronal VEGF Signaling in the Prefrontal Cortex in the Rapid Antidepressant Effects of Ketamine. American Journal Of Psychiatry 2019, 176: 388-400. PMID: 30606046, PMCID: PMC6494682, DOI: 10.1176/appi.ajp.2018.17121368.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibodies, NeutralizingBehavior, AnimalExcitatory Amino Acid AntagonistsGene Knockdown TechniquesGene Knockout TechniquesIn Vitro TechniquesKetamineMiceNeuronsPrefrontal CortexQuinazolinesSignal TransductionVascular Endothelial Growth Factor AVascular Endothelial Growth Factor Receptor-2ConceptsNeuronal vascular endothelial growth factorVascular endothelial growth factorMedial prefrontal cortexRapid antidepressant actionsAntidepressant actionIntra-mPFC infusionSystemic ketamineBehavioral actionsFlk-1Conventional monoamine-based antidepressantsPrefrontal cortexRole of VEGFRapid antidepressant effectsTreatment-resistant depressionMethyl-d-aspartate receptor antagonist ketamineNeuron-specific deletionMonoamine-based antidepressantsNeuron-specific knockoutViral-mediated knockdownEndothelial growth factorVEGF-Flk-1Synaptogenic actionsAntidepressant effectsSynaptogenic effectsLocal knockdown
2009
Eszopiclone and fluoxetine enhance the survival of newborn neurons in the adult rat hippocampus
Su XW, Li XY, Banasr M, Duman RS. Eszopiclone and fluoxetine enhance the survival of newborn neurons in the adult rat hippocampus. The International Journal Of Neuropsychopharmacology 2009, 12: 1421-1428. PMID: 19775501, PMCID: PMC3677220, DOI: 10.1017/s1461145709990629.Peer-Reviewed Original ResearchConceptsNewborn neuronsAntidepressant actionSerotonin uptake inhibitorAdult rat hippocampusAdult hippocampusCombined administrationDorsal hippocampusRat hippocampusPreclinical studiesAdult ratsUptake inhibitorFluoxetineHippocampusNewborn cellsClinical researchEszopicloneBehavioral actionsNeuronsSurvivalAdditive effectNovel mechanismProliferationAntidepressantsPatientsChronic