2024
Lateral expansion of the mammalian cerebral cortex is related to anchorage of centrosomes in apical neural progenitors
Morozov Y, Rakic P. Lateral expansion of the mammalian cerebral cortex is related to anchorage of centrosomes in apical neural progenitors. Cerebral Cortex 2024, 34: bhae293. PMID: 39024157, PMCID: PMC11485267, DOI: 10.1093/cercor/bhae293.Peer-Reviewed Original ResearchConceptsNeural progenitor cellsProgenitor cellsVentricular zoneCerebral cortexBasolateral cell membraneApical anchorageProlonged neurogenesisMammalian cerebral cortexPrimary ciliaApical neural progenitorsCell membraneFraction of cellsNeural progenitorsStem cellsCerebral neurogenesisApical segmentsDevelopment of ciliaNuclear translocationMicrotubule organizing centerNeurogenesisCellsMacaque monkeysSpecies-specific differencesCortexBasal bodiesModelling adult neurogenesis in the aging rodent hippocampus: a midlife crisis
Arellano J, Rakic P. Modelling adult neurogenesis in the aging rodent hippocampus: a midlife crisis. Frontiers In Neuroscience 2024, 18: 1416460. PMID: 38887368, PMCID: PMC11181911, DOI: 10.3389/fnins.2024.1416460.Peer-Reviewed Original ResearchAdult neurogenesisHippocampal functionAdult hippocampal neurogenesisAged animalsMiddle aged animalsHippocampal neurogenesisGranule cellsDentate gyrusMature granule cellsRodent hippocampusMidlife crisisNeurogenesisFunctional relevanceRodentsDramatically with ageNeuronsYoung animalsOlder animalsGyrusHippocampusRatsRobust neurogenesisHippocampalMeta-analysisDentateA coming-of-age story: adult neurogenesis or adolescent neurogenesis in rodents?
Arellano J, Duque A, Rakic P. A coming-of-age story: adult neurogenesis or adolescent neurogenesis in rodents? Frontiers In Neuroscience 2024, 18: 1383728. PMID: 38505771, PMCID: PMC10948509, DOI: 10.3389/fnins.2024.1383728.Peer-Reviewed Original ResearchAdult hippocampal neurogenesisHippocampal neurogenesisInter-strain differencesOnset of adulthoodAdult neurogenesisAdolescent periodJackson LabsPostnatal dayNeurogenesisAdulthoodDevelopment of miceMonths of ageAdolescentsPostnatal development of miceRatsRodentsPostnatal developmentAdultsOlder animalsComing-of-age storyMiceYounger agePerceived importanceInter-individualFunctional studies
2002
Pre- and post-developmental neurogenesis in primates
Rakic P. Pre- and post-developmental neurogenesis in primates. Clinical Neuroscience Research 2002, 2: 29-39. DOI: 10.1016/s1566-2772(02)00005-1.Peer-Reviewed Original ResearchPrimate brainMonkey central nervous systemAdult primate brainClasses of neuronsCentral nervous systemForm of therapyCerebral cortexMost neuronsDentate gyrusCompetent neuronsOlfactory bulbNervous systemBromodeoxyuridine methodNeuronal classesDevelopmental periodSpecific developmental periodsNeuronsCell classesNeurogenesisBrainLower ratesEntire life spanLife spanRegional differencesTherapy
2001
Cell Proliferation Without Neurogenesis in Adult Primate Neocortex
Kornack D, Rakic P. Cell Proliferation Without Neurogenesis in Adult Primate Neocortex. Science 2001, 294: 2127-2130. PMID: 11739948, DOI: 10.1126/science.1065467.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAstrocytesBrainBromodeoxyuridineCell DeathCell DivisionCell MovementEndothelium, VascularFemaleFluorescent Antibody TechniqueGlial Fibrillary Acidic ProteinImmunoenzyme TechniquesMacaca fascicularisMacaca mulattaMaleMicroscopy, ConfocalMicroscopy, FluorescenceNeocortexNeuronsNuclear ProteinsTubulinConceptsPrimate neocortexGlial cell markersAdult macaque monkeysNew neuronsNumerous BrdUOlfactory bulbCerebral wallAdult macaquesMacaque monkeysNonneuronal cellsHigher cognitive functionsCell markersCognitive functionNeocortexNeurogenesisTriple labelingCellular mechanismsCell proliferationNeuronsCellsHippocampus
1999
Organotypic slice cultures for analysis of proliferation, cell death, and migration in the embryonic neocortex1Published on the World Wide Web on 8 July 1999.1
Haydar T, Bambrick L, Krueger B, Rakic P. Organotypic slice cultures for analysis of proliferation, cell death, and migration in the embryonic neocortex1Published on the World Wide Web on 8 July 1999.1. Brain Research 1999, 4: 425-437. PMID: 10592354, DOI: 10.1016/s1385-299x(99)00033-1.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosisBromodeoxyuridineCell DivisionCell MovementCell SurvivalFemaleFetusFluorescent Antibody TechniqueGlial Fibrillary Acidic ProteinIn Situ Nick-End LabelingMiceMice, Inbred ICRMicroscopy, ConfocalMicrotubule-Associated ProteinsNeocortexNeurogliaNeuronsOrgan Culture TechniquesPregnancyConceptsCell deathProper cortical developmentCell-cell interactionsDynamic cellular interactionsQuantitative confocal microscopyDiffusible regulatorsPrimary cell culturesAnalysis of proliferationCellular interactionsCellular mechanismsCortical neurogenesisNeuronal migrationConfocal microscopyCell proliferationNeocortical neurogenesisExperimental manipulationThree-dimensional environmentVivo processesCell culturesNeurogenesisPhysiological methodsTropic supportOrganotypic slice culturesProliferationCortical developmentContinuation of neurogenesis in the hippocampus of the adult macaque monkey
Kornack D, Rakic P. Continuation of neurogenesis in the hippocampus of the adult macaque monkey. Proceedings Of The National Academy Of Sciences Of The United States Of America 1999, 96: 5768-5773. PMID: 10318959, PMCID: PMC21935, DOI: 10.1073/pnas.96.10.5768.Peer-Reviewed Original ResearchConceptsAdult macaque monkeysDentate gyrusMacaque monkeysAdult primate hippocampusAdult rodent dentate gyrusImmunohistochemical double labelingHippocampal dentate gyrusRodent dentate gyrusDiscreet brain regionsMultipotent neural stem cellsNeural stem cellsAdult neurogenesisAdult brainPrimate hippocampusAnimal modelsBrain regionsDouble labelingNeurogenesisSpecific markersHippocampusGyrusStem cellsCell typesMonkeysHumans
1998
Changes in cell-cycle kinetics during the development and evolution of primate neocortex
Kornack D, Rakic P. Changes in cell-cycle kinetics during the development and evolution of primate neocortex. Proceedings Of The National Academy Of Sciences Of The United States Of America 1998, 95: 1242-1246. PMID: 9448316, PMCID: PMC18732, DOI: 10.1073/pnas.95.3.1242.Peer-Reviewed Original ResearchConceptsCell divisionCell division cycleCell cycle kineticsProgenitor cell divisionCell cycle lengthCell cycle durationEvolutionary modificationsEvolutionary expansionCerebral ventricular zoneDevelopmental basisCell productionPrimate neocortexS-phase labelingAnthropoid primatesProgenitor cellsFetal rhesus monkeysNeurogenetic periodVentricular zoneNeocortical sizeCortical cellsNeurogenesisCortical developmentMonkey cortexTotal roundsCortical layers
1995
Tempo of neurogenesis and synaptogenesis in the primate cingulate mesocortex: Comparison with the neocortex
Granger B, Tekaia F, Le Sourd A, Rakic P, Bourgeois J. Tempo of neurogenesis and synaptogenesis in the primate cingulate mesocortex: Comparison with the neocortex. The Journal Of Comparative Neurology 1995, 360: 363-376. PMID: 8522653, DOI: 10.1002/cne.903600212.Peer-Reviewed Original ResearchConceptsEnd of neurogenesisArea 24Area 17Neocortical areasEmbryonic days (EDs) 70Postnatal rhesus monkeysSecond postnatal monthPrimary visual cortexRemainder of gestationAnterior cingulate cortexSynaptic densityPostnatal monthRapid phaseHumoral factorsCingulate cortexVisual cortexAssociational areasRhesus monkeysNeurogenesisDay 70SynaptogenesisAutoradiographic analysisMonthsMesocortexNeocortexRadial and horizontal deployment of clonally related cells in the primate neocortex: Relationship to distinct mitotic lineages
Kornack D, Rakic P. Radial and horizontal deployment of clonally related cells in the primate neocortex: Relationship to distinct mitotic lineages. Neuron 1995, 15: 311-321. PMID: 7646888, DOI: 10.1016/0896-6273(95)90036-5.Peer-Reviewed Original Research
1994
Early neurogenesis in the anterior hypothalamus of the rhesus monkey
van Eerdenburg F, Rakic P. Early neurogenesis in the anterior hypothalamus of the rhesus monkey. Brain Research 1994, 79: 290-296. PMID: 7955328, DOI: 10.1016/0165-3806(94)90134-1.Peer-Reviewed Original ResearchConceptsAnterior hypothalamusRhesus monkeysNeurogenetic gradientsPrimate hypothalamusParaventricular nucleusGestational periodVentral gradientSupraoptic nucleusMonkey neuronsHypothalamusNeuronal generationNeuronsEarly neurogenesisSpecific nucleiNeurogenesisMonkeysEarly stagesSpecific differencesGestationNucleusWeeks
1992
Neurogenesis of the amygdaloid nuclear complex in the Rhesus monkey
Kordower J, Piecinski P, Rakic P. Neurogenesis of the amygdaloid nuclear complex in the Rhesus monkey. Brain Research 1992, 68: 9-15. PMID: 1521327, DOI: 10.1016/0165-3806(92)90242-o.Peer-Reviewed Original ResearchConceptsAmygdaloid complexRhesus monkeysAmygdaloid nucleusEmbryonic day 27Early postmitotic neuronsEarly postnatal periodAmygdaloid nuclear complexPregnant monkeysDays gestationPostnatal periodTemporal lobeVentral gradientDay 27Postmitotic neuronsNeurogenesisFirst neuronsNeuronsThymidine autoradiographyPrimate developmentMonkeysGestationNuclear complexTime coursePatterns of connectivityNeuroanatomical subdivisions
1985
DNA Synthesis and Cell Division in the Adult Primate Braina
RAKIC P. DNA Synthesis and Cell Division in the Adult Primate Braina. Annals Of The New York Academy Of Sciences 1985, 457: 193-211. PMID: 3913364, DOI: 10.1111/j.1749-6632.1985.tb20806.x.Peer-Reviewed Original ResearchConceptsPostembryonic neurogenesisNonmammalian vertebratesCell divisionDNA precursorsPrimate central nervous systemStable populationDNA synthesisNonprimate mammalsCentral nervous systemMature primatesNeuronal additionGlial cellsNervous systemAdult monkeysRetention of memoryAutoradiographic analysisMultiple injectionsVertebratesDevelopmental periodMammalsVariable degreesNeuronsJuvenilesNeurogenesisTurnoverLimits of Neurogenesis in Primates
Rakic P. Limits of Neurogenesis in Primates. Science 1985, 227: 1054-1056. PMID: 3975601, DOI: 10.1126/science.3975601.Peer-Reviewed Original Research
1981
Neurogenetic gradients in the superior and inferior colliculi of the rhesus monkey
Cooper M, Rakic P. Neurogenetic gradients in the superior and inferior colliculi of the rhesus monkey. The Journal Of Comparative Neurology 1981, 202: 309-334. PMID: 7298901, DOI: 10.1002/cne.902020303.Peer-Reviewed Original ResearchConceptsSuperior colliculusInferior colliculusCentral nucleusInferior colliculiRhesus monkeysVentrodorsal gradientLateral-medial gradientAnterior-posterior gradientTectal neuronsNeurogenetic gradientsPeak proliferationSubventricular zoneSelective cell deathRostrocaudal gradientCNS cellsFinal mitosisNeuronsDistinctive spatiotemporal patternsNeurogenesisEmbryonic dayColliculiColliculusGestation periodCell deathLateral cell movementThe total number, time of origin and kinetics of proliferation of neurons comprising the deep cerebellar nuclei in the rhesus monkey
Gould B, Rakic P. The total number, time of origin and kinetics of proliferation of neurons comprising the deep cerebellar nuclei in the rhesus monkey. Experimental Brain Research 1981, 44: 195-206. PMID: 7286107, DOI: 10.1007/bf00237341.Peer-Reviewed Original ResearchConceptsCerebellar nucleiPosterior interposed nucleusDeep nucleiSmall neuronsDentate nucleusFastigial nucleusRhesus monkeysInterposed nucleusCessation of neurogenesisGenesis of neuronsPostnatal rhesus monkeysIntermediate time courseDay gestation periodDeep cerebellar nucleiPostnatal ageCerebellar cortexAxonal connectionsOld monkeysNeuron populationsKinetics of proliferationNeuronsAutoradiographic methodTotal numberNeurogenesisPeak of proliferationNeuronal-glial interaction during brain development
Rakic P. Neuronal-glial interaction during brain development. Trends In Neurosciences 1981, 4: 184-187. DOI: 10.1016/0166-2236(81)90060-6.Peer-Reviewed Original ResearchRadial glial cellsGlial cellsNeuronal-glial interactionsGlial cell classesPositioning of neuronsPeak of neurogenesisRecent immunocytochemical studiesImmature neuronsCerebellar cortexPrimate brainImmunocytochemical studyBrain developmentCell precursorsCell classesSpecific markersNeuronsNeuron tissueElectron microscopic analysisCellsNeurogenesisCortexBrain