2017
The role of endothelial HIF-1 αin the response to sublethal hypoxia in C57BL/6 mouse pups
Li Q, Michaud M, Park C, Huang Y, Couture R, Girodano F, Schwartz ML, Madri JA. The role of endothelial HIF-1 αin the response to sublethal hypoxia in C57BL/6 mouse pups. Laboratory Investigation 2017, 97: 356-369. PMID: 28092362, DOI: 10.1038/labinvest.2016.154.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornApoptosisBlotting, WesternCell HypoxiaCell ProliferationCells, CulturedDentate GyrusEndothelial CellsFemaleHypoxiaHypoxia-Inducible Factor 1, alpha SubunitLateral VentriclesMaleMice, Inbred C57BLMice, KnockoutMice, TransgenicMicroscopy, FluorescenceMotor ActivityNeural Stem CellsConceptsHIF-1 αBrain microvascular endothelial cellsNeuronal precursor cellsSubventricular zoneMicrovascular endothelial cellsOpen-field activityEndothelial cellsSublethal hypoxiaHIF-1 α expressionOpen-field activity testChronic sublethal hypoxiaEndothelial HIF-1Hypoxic conditionsC57BL/6 mouse pupsGender-specific differencesPremature birthC57BL/6 WTDentate gyrusHippocampal tissueDeficient miceΑ expressionMouse pupsMotor handicapParacrine effectsDentate gyrus tissue
2013
Modeling the Neurovascular Niche: Unbiased Transcriptome Analysis of the Murine Subventricular Zone in Response to Hypoxic Insult
Li Q, Canosa S, Flynn K, Michaud M, Krauthammer M, Madri JA. Modeling the Neurovascular Niche: Unbiased Transcriptome Analysis of the Murine Subventricular Zone in Response to Hypoxic Insult. PLOS ONE 2013, 8: e76265. PMID: 24146847, PMCID: PMC3795763, DOI: 10.1371/journal.pone.0076265.Peer-Reviewed Original ResearchConceptsSubventricular zoneRepair/recoveryChronic hypoxiaPremature infant populationMurine subventricular zoneEarly intervention approachesNeurodevelopmental handicapPremature infantsNeurovascular nicheHypoxic insultCD1 miceInfant populationMotor responsivenessCNS tissueDisease severityMRNA expressionUnbiased transcriptome analysisDifferent behavioral parametersNeural functionMouse strainsDifferential responseHypoxiaHypoxic conditionsRange of responsivenessIntervention approaches
2007
Modeling the neurovascular niche: Murine strain differences mimic the range of responses to chronic hypoxia in the premature newborn
Li Q, Michaud M, Stewart W, Schwartz M, Madri JA. Modeling the neurovascular niche: Murine strain differences mimic the range of responses to chronic hypoxia in the premature newborn. Journal Of Neuroscience Research 2007, 86: 1227-1242. PMID: 18092360, PMCID: PMC2644407, DOI: 10.1002/jnr.21597.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornApoptosisBlotting, WesternBrainCell ProliferationDisease Models, AnimalGene ExpressionHematopoiesis, ExtramedullaryHumansHypoxia, BrainImmunohistochemistryImmunoprecipitationInfant, NewbornInfant, PrematureIntercellular Signaling Peptides and ProteinsMiceMice, Inbred C57BLNitric OxideStem CellsConceptsNeural progenitor cellsChronic hypoxiaSubventricular zonePreterm birth resultsLow baseline levelsHypoxia-induced levelsNeurogenic responseNeurovascular nicheHypoxic insultBlunted responseBirth resultsC57BL/6 pupsBaseline levelsMotor disabilityMouse strainsGrowth factorVariable recoveryHypoxiaProgenitor cellsPupsRecent evidenceSignificant cognitiveHypoxicApoptotic responseResponse