2023
Early Neuronal Differentiation/patterning of the Human Pallium, Modeling by in Vitro Systems, and Disruption in Developmental Disorders
Scuderi S, Jourdon A, Vaccarino F. Early Neuronal Differentiation/patterning of the Human Pallium, Modeling by in Vitro Systems, and Disruption in Developmental Disorders. 2023, 423-442. DOI: 10.1002/9781119860914.ch20.Peer-Reviewed Original ResearchCentral nervous systemDorsal-anterior partHuman cortexCortical developmentInhibitory neuronsSingle-cell omicsAnimal modelsNervous systemCortical layersMammalian brainBrain regionsCortical formationPopulations of excitatoryTangential migrationAltered developmentCortical structuresAnterior partCortical patterningPrecursor cellsEarly neuronal differentiationIncoming afferentsCortexNeuronal differentiationNeuronsHuman specificity
2013
Hypoxia-Induced Developmental Delays of Inhibitory Interneurons Are Reversed by Environmental Enrichment in the Postnatal Mouse Forebrain
Komitova M, Xenos D, Salmaso N, Tran KM, Brand T, Schwartz ML, Ment L, Vaccarino FM. Hypoxia-Induced Developmental Delays of Inhibitory Interneurons Are Reversed by Environmental Enrichment in the Postnatal Mouse Forebrain. Journal Of Neuroscience 2013, 33: 13375-13387. PMID: 23946395, PMCID: PMC3742925, DOI: 10.1523/jneurosci.5286-12.2013.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell Adhesion Molecules, NeuronalCerebral CortexChromatography, High Pressure LiquidDisease Models, AnimalExtracellular Matrix ProteinsGene Knock-In TechniquesHousing, AnimalHypoxiaImmunohistochemistryInterneuronsMiceMice, Inbred C57BLMice, TransgenicNerve Tissue ProteinsParvalbuminsProsencephalonReelin ProteinSerine EndopeptidasesSomatostatinConceptsCortical interneuronsNormoxic controlsMarker expressionPostnatal cortical developmentVasoactive intestinal peptidePostnatal day 3Central nervous systemTotal GABA contentImpact of hypoxicPostnatal mouse forebrainEnvironmental enrichmentIntestinal peptideGABAergic interneuronsFrontal neocortexInhibitory interneuronsCortical developmentMouse modelReelin expressionInterneuron numbersNervous systemDay 3Cognitive impairmentInterneuronsHousing miceRLN expression
2012
Age-related changes of gene expression in the neocortex: Preliminary data on RNA-Seq of the transcriptome in three functionally distinct cortical areas
Naumova OY, Palejev D, Vlasova NV, Lee M, Rychkov SY, Babich ON, Vaccarino F, Grigorenko EL. Age-related changes of gene expression in the neocortex: Preliminary data on RNA-Seq of the transcriptome in three functionally distinct cortical areas. Development And Psychopathology 2012, 24: 1427-1442. PMID: 23062308, PMCID: PMC3539811, DOI: 10.1017/s0954579412000818.Peer-Reviewed Original ResearchConceptsRNA-seqGene expressionAge-related transcriptional changesGene expression profilingCortical areasTranscriptional changesMolecular mechanismsTranscriptomeCentral nervous systemDistinct cortical areasAge-related changesDifferent cellsElderly individualsNervous systemExpressionAge-related variabilityNerve impulsesBrainPreliminary dataNeocortexHuman brainDevelopmental changesDifferent agesDistinct areasDifferentiation
2001
Stem Cells in Neurodevelopment and Plasticity
Vaccarino F, Ganat Y, Zhang Y, Zheng W. Stem Cells in Neurodevelopment and Plasticity. Neuropsychopharmacology 2001, 25: 805-815. PMID: 11750175, DOI: 10.1016/s0893-133x(01)00349-9.Peer-Reviewed Original ResearchConceptsNeural progenitor cellsTranscription factorsProgenitor cellsEpidermal growth factor EGFGrowth factors FGF2Stem cell proliferationGrowth factors EGFPostnatal central nervous systemNuclear transcription factorTranscriptional programsGenetic programGene cascadeNeuronal fateCell-surface interactionsControl proliferationPool of cellsCentral nervous systemEnvironmental perturbationsAdult central nervous systemMolecular signaturesDividing cellsStem cellsCell proliferationEmbryogenesisCell interactions
2000
The subcellular localization of OTX2 is cell-type specific and developmentally regulated in the mouse retina
Baas D, Bumsted KM, Martinez JA, Vaccarino FM, Wikler KC, Barnstable CJ. The subcellular localization of OTX2 is cell-type specific and developmentally regulated in the mouse retina. Brain Research 2000, 78: 26-37. PMID: 10891582, DOI: 10.1016/s0169-328x(00)00060-7.Peer-Reviewed Original ResearchMeSH Keywords3T3 CellsAnimalsAntibodiesBlotting, WesternCell NucleusCytoplasmGene Expression Regulation, DevelopmentalHomeodomain ProteinsHumansMiceMice, Inbred StrainsNerve Tissue ProteinsOtx Transcription FactorsPC12 CellsPigment Epithelium of EyeRabbitsRatsRetinal Ganglion CellsRetinal Rod Photoreceptor CellsTeratocarcinomaTrans-ActivatorsTransfectionTumor Cells, CulturedConceptsSubcellular localizationTranscription factorsHomeodomain-containing proteinCell fate determinationHomeodomain transcription factorCytoplasm of rodsFate determinationCell fateOtx2 proteinSubcellular distributionOtx2Retinal pigment epithelial cellsCell typesRod photoreceptorsPigment epithelial cellsRetinal developmentCytoplasmCell linesAdult eyesEpithelial cellsCentral nervous systemImmature rodsProteinCellsDifferential distribution
1999
6 Fibroblast Growth Factor Signaling Regulates Growth and Morphogenesis at Multiple Steps during Brain Development11This work represents a collaboration between the laboratories of the first two authors.
Vaccarino F, Schwartz M, Raballo R, Rhee J, Lyn-Cook R. 6 Fibroblast Growth Factor Signaling Regulates Growth and Morphogenesis at Multiple Steps during Brain Development11This work represents a collaboration between the laboratories of the first two authors. Current Topics In Developmental Biology 1999, 46: 179-200. PMID: 10417880, DOI: 10.1016/s0070-2153(08)60329-4.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsConceptsCentral nervous system regionsNervous system regionsCentral nervous systemRole of FGF2Growth factor familyCerebral cortexFibroblast growth factor (FGF) familyCortical developmentNervous systemFibroblast growth factor (FGF) signalingGrowth factor signalingSystem regionsFactor signalingMolecular mechanismsCoordinated activationDistinct patternsTarget genesFGF2FGFFactor familyCortex