2009
GABA increases Ca2+ in cerebellar granule cell precursors via depolarization: Implications for proliferation
Dave KA, Bordey A. GABA increases Ca2+ in cerebellar granule cell precursors via depolarization: Implications for proliferation. IUBMB Life 2009, 61: 496-503. PMID: 19391160, PMCID: PMC2675662, DOI: 10.1002/iub.185.Peer-Reviewed Original ResearchConceptsGamma-aminobutyric acidRole of GABAVertebrate central nervous systemComplement of receptorsCerebellar granule cell precursorsCell precursorsGranule cell precursorsDevelopmental processesMetabotropic glutamate receptorsCentral nervous systemCell proliferationAdult mammalsNovel targetAmino acid glutamatePharmacological regulationCurrent knowledgeGlutamate receptorsNeural cancersNervous systemCerebellar tumorsCalcium increaseReceptorsProliferationMammalsNovel data
2008
Control of neuroblast production and migration by converging GABA and glutamate signals in the postnatal forebrain
Platel J, Dave KA, Bordey A. Control of neuroblast production and migration by converging GABA and glutamate signals in the postnatal forebrain. The Journal Of Physiology 2008, 586: 3739-3743. PMID: 18467361, PMCID: PMC2538924, DOI: 10.1113/jphysiol.2008.155325.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsNeuroblast productionGlutamate receptorsStem cellsSteady-state levelsAdult-born neuronsNovel epigenetic controlNeural stem cellsImmature neuronsAdult neurogenesisNeurotransmitter GABAOlfactory bulbPostnatal forebrainNeuron productionNew steady-state levelStem cell proliferationHigh-affinity uptake systemCalcium elevationNeurotransmitter releaseEpigenetic controlExtracellular concentrationGlutamate signalsGABANegative feedback controlNeuroblast numbersIntercellular signaling
2007
GABA and glutamate signaling: homeostatic control of adult forebrain neurogenesis
Platel JC, Lacar B, Bordey A. GABA and glutamate signaling: homeostatic control of adult forebrain neurogenesis. Journal Of Molecular Histology 2007, 38: 303-311. PMID: 17554632, PMCID: PMC2556597, DOI: 10.1007/s10735-007-9103-8.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsSubventricular zoneOlfactory bulb interneuronsGABAergic signalingGlutamate receptorsBulb interneuronsForebrain neurogenesisAMPA/kainate receptorsMetabotropic glutamate receptorsNeurogenic subventricular zoneRole of glutamateHomeostatic controlIonotropic glutamate receptorsEmbryonic cortical developmentSVZ neuroblastsNeurotransmitter GABASVZ cellsCortical developmentKainate receptorsGABA transporter subtypesNeurotransmitter glutamateGABA clearanceGABATransporter subtypesReceptorsInterneurons
2006
GFAP‐expressing cells in the postnatal subventricular zone display a unique glial phenotype intermediate between radial glia and astrocytes
Liu X, Bolteus AJ, Balkin DM, Henschel O, Bordey A. GFAP‐expressing cells in the postnatal subventricular zone display a unique glial phenotype intermediate between radial glia and astrocytes. Glia 2006, 54: 394-410. PMID: 16886203, DOI: 10.1002/glia.20392.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid Transport System X-AGAnimalsAnimals, NewbornAstrocytesBiomarkersCell DifferentiationCell ShapeConnexinsEpendymaGlial Fibrillary Acidic ProteinGlutamic AcidGreen Fluorescent ProteinsMembrane PotentialsMiceMice, TransgenicOrgan Culture TechniquesPatch-Clamp TechniquesPhenotypePotassiumPotassium ChannelsRecombinant Fusion ProteinsStem CellsTelencephalonConceptsGlial fibrillary acidic proteinPostnatal subventricular zoneSubventricular zoneGFAP-expressing cellsRadial gliaAstroglial marker glial fibrillary acidic proteinGlial propertiesEpendymal cellsGlutamate transportersGLT-1 glutamate transporterMarker glial fibrillary acidic proteinAMPA-type glutamate receptorsFunctional glutamate transportersFibrillary acidic proteinHuman glial fibrillary acidic proteinAdult subventricular zoneConnexin 43 expressionGap junction couplingNeural stem cellsMicroM Ba2Acute slicesAstrocytic functionsGlutamate receptorsGlial phenotypeClamp recordings