2017
MMP-2: A modulator of neuronal precursor activity and cognitive and motor behaviors
Li Q, Michaud M, Shankar R, Canosa S, Schwartz M, Madri JA. MMP-2: A modulator of neuronal precursor activity and cognitive and motor behaviors. Behavioural Brain Research 2017, 333: 74-82. PMID: 28666838, DOI: 10.1016/j.bbr.2017.06.041.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornCell MovementCell ProliferationCells, CulturedCognitionExploratory BehaviorGene Expression RegulationMatrix Metalloproteinase 2MiceMice, Inbred C57BLMice, KnockoutMotor ActivityNerve Tissue ProteinsNeural Stem CellsNeurogenesisOncogene Protein v-aktProliferating Cell Nuclear AntigenReceptors, CXCR4Spatial LearningConceptsNeural precursor cellsBroad substrate specificityNeurosphere formationAdherent neurospheresSecondary neurosphere formationNPC activitySubstrate specificityNPC numberCell surface moleculesZinc-containing enzymesAkt activationAbsence of MMP2Cell typesExtracellular matrixActivity assaysPrecursor cellsImportant roleNPC migrationMatrix metalloproteinase2Surface moleculesExpressionKO miceBioactive moleculesNestin expressionMMP2
2007
Deficiency in Inhibitory Cortical Interneurons Associates with Hyperactivity in Fibroblast Growth Factor Receptor 1 Mutant Mice
Smith K, Fagel DM, Stevens HE, Rabenstein RL, Maragnoli ME, Ohkubo Y, Picciotto MR, Schwartz ML, Vaccarino FM. Deficiency in Inhibitory Cortical Interneurons Associates with Hyperactivity in Fibroblast Growth Factor Receptor 1 Mutant Mice. Biological Psychiatry 2007, 63: 953-962. PMID: 17988653, DOI: 10.1016/j.biopsych.2007.09.020.Peer-Reviewed Original ResearchMeSH KeywordsAmphetamineAnimalsBehavior, AnimalBiogenic MonoaminesCell CountCentral Nervous System StimulantsCerebral CortexDisease Models, AnimalDopamine AgentsExploratory BehaviorFibroblast Growth Factor 1Glutamate DecarboxylaseHyperkinesisLocomotionMaleMethylphenidateMiceMice, KnockoutMotor ActivityNerve Tissue ProteinsNeural InhibitionNeuronsSignal TransductionConceptsInhibitory cortical circuitsCortical pyramidal neuronsD2 receptor antagonistGrowth factor receptor 1Spontaneous locomotor hyperactivityFibroblast growth factor receptor 1Factor receptor 1Inhibitory neuronal subtypesLocomotor hyperactivityDopamine agonistsCerebral cortexPyramidal neuronsBasal gangliaMotor hyperactivityReceptor antagonistInhibitory interneuronsTyrosine hydroxylaseCortical circuitsPsychiatric disordersLocomotor responseNeuronal subtypesReceptor 1Mutant miceDopamine transporterSpatial learning
2004
Neonatal hypoxia suppresses oligodendrocyte Nogo-A and increases axonal sprouting in a rodent model for human prematurity
Weiss J, Takizawa B, McGee A, Stewart WB, Zhang H, Ment L, Schwartz M, Strittmatter S. Neonatal hypoxia suppresses oligodendrocyte Nogo-A and increases axonal sprouting in a rodent model for human prematurity. Experimental Neurology 2004, 189: 141-149. PMID: 15296844, DOI: 10.1016/j.expneurol.2004.05.018.Peer-Reviewed Original ResearchMeSH KeywordsAge FactorsAnimalsAnimals, NewbornAxonsBehavior, AnimalBiotinCentral Nervous SystemDextransDisease Models, AnimalExploratory BehaviorHumansHypoxia, BrainImmunoblottingImmunohistochemistryInfant, NewbornInfant, PrematureMiceMice, Inbred C57BLMyelin Basic ProteinMyelin ProteinsMyelin-Associated GlycoproteinNogo ProteinsOligodendrogliaReceptors, Cell SurfaceTime FactorsConceptsChronic sublethal hypoxiaPeriventricular leukomalaciaMyelin associated glycoproteinCorticospinal tractWhite matterLow birth weight infantsCerebral white matter volumeBirth weight infantsLow birth weightAnterograde axonal tracingPeriventricular white matterPremature human infantsCNS white matterWhite matter volumeHypoxia-induced reductionWeight infantsAxonal sproutingCerebral ventriculomegalyCorticofugal fibersLocomotor hyperactivityNeonatal hypoxiaPersistent abnormalitiesMotor cortexBirth weightHuman prematurity