2012
S Phase Entry of Neural Progenitor Cells Correlates with Increased Blood Flow in the Young Subventricular Zone
Lacar B, Herman P, Hartman NW, Hyder F, Bordey A. S Phase Entry of Neural Progenitor Cells Correlates with Increased Blood Flow in the Young Subventricular Zone. PLOS ONE 2012, 7: e31960. PMID: 22359646, PMCID: PMC3281100, DOI: 10.1371/journal.pone.0031960.Peer-Reviewed Original ResearchConceptsSubventricular zoneBlood flowNeural progenitor cellsAcute brain slice preparationGrowth factor injectionsProgenitor cellsReceptor agonist UIncreased blood flowBrain slice preparationSVZ cell proliferationCell proliferationLaser Doppler flowmetryLocal blood flowLocal hemodynamic responsesBasic fibroblast growth factorPostnatal subventricular zoneFibroblast growth factorAgonist UFactor injectionsVentricular injectionNeurovascular couplingAcute increaseSlice preparationDoppler flowmetryHemodynamic response
2011
Neurotransmitters couple brain activity to subventricular zone neurogenesis
Young SZ, Taylor MM, Bordey A. Neurotransmitters couple brain activity to subventricular zone neurogenesis. European Journal Of Neuroscience 2011, 33: 1123-1132. PMID: 21395856, PMCID: PMC3075963, DOI: 10.1111/j.1460-9568.2011.07611.x.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsSVZ cell proliferationSubventricular zoneHippocampal subgranular zoneMultiple neurotransmitter systemsSubventricular zone neurogenesisCell proliferationSpecific brain regionsSVZ proliferationSubgranular zoneAdult neurogenesisΓ-aminobutyric acidDentate gyrusLateral ventricleNeurotransmitter systemsDrug treatmentNeuronal projectionsPrivileged microenvironmentAlzheimer's diseaseBrain regionsNeurogenesisCell therapyDiseaseBrain activityProliferationSeizuresControl of Adult-Born Neuron Production by Converging GABA and Glutamate Signals
Platel J, Bordey A. Control of Adult-Born Neuron Production by Converging GABA and Glutamate Signals. 2011, 395-406. DOI: 10.1007/978-4-431-53933-9_17.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsSteady-state levelsStem cellsNovel epigenetic controlCell-cell signalingNeuron productionStem cell proliferationEpigenetic controlNeuroblast poolProliferative cuesNeuroblast numbersNeural stem cellsMosaic expressionNeural progenitorsHigh-affinity uptake systemUptake systemAdult-born neuronsHigh turnover rateCell proliferationNeuroblastsControl of adultsNeurotransmitter releaseNegative feedback controlNeuroblast productionImmature neuronsAdult neurogenesis
2009
GABA’s Control of Stem and Cancer Cell Proliferation in Adult Neural and Peripheral Niches
Young SZ, Bordey A. GABA’s Control of Stem and Cancer Cell Proliferation in Adult Neural and Peripheral Niches. Physiology 2009, 24: 171-185. PMID: 19509127, PMCID: PMC2931807, DOI: 10.1152/physiol.00002.2009.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsStem cellsGamma-amino butyric acidProliferation of pluripotentAdult stem cellsNeural stem cellsAdult tissuesCancer cell proliferationRegulation of secretionTumor stem cellsTumor cellsCell proliferationAdult neuralProliferationCellsGABA controlPeripheral organsGABAergic signalingPeripheral nichesNervous systemMitotic activityPluripotentButyric acidNicheSignalingRegulationGABA 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
2006
Nonsynaptic GABAergic Communication and Postnatal Neurogenesis
Liu X, Bolteus A, Bordey A. Nonsynaptic GABAergic Communication and Postnatal Neurogenesis. Contemporary Neuroscience 2006, 95-104. DOI: 10.1007/978-1-59745-021-8_9.ChaptersFunction of GABASubventricular zonePostnatal neurogenesisNeuronal precursorsNeuron-glial networksSVZ stem cellsStem cellsNeural stem cellsLocal GABAergicNonsynaptic communicationGABAergic systemSynaptic contactsΓ-aminobutyric acidSVZ cellsSVZ precursorsSubependymal zoneGABANeurogenesisCell proliferationCellsEmbryonic cell proliferationGABAergicBrain