2021
Autocrine GMCSF Signaling Contributes to Growth of HER2+ Breast Leptomeningeal CarcinomatosisGMCSF Contributes to Breast Leptomeningeal Carcinomatosis
Ansari K, Bhan A, Saotome M, Tyagi A, De Kumar B, Chen C, Takaku M, Jandial R. Autocrine GMCSF Signaling Contributes to Growth of HER2+ Breast Leptomeningeal CarcinomatosisGMCSF Contributes to Breast Leptomeningeal Carcinomatosis. Cancer Research 2021, 81: 4723-4735. PMID: 34247146, PMCID: PMC8986153, DOI: 10.1158/0008-5472.can-21-0259.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAutocrine CommunicationBreast NeoplasmsCell Line, TumorCell ProliferationCell SurvivalDisease Models, AnimalGene ExpressionGranulocyte-Macrophage Colony-Stimulating FactorHumansMeningeal CarcinomatosisMiceOncogene ProteinsProtein Kinase InhibitorsReceptor, ErbB-2Signal TransductionXenograft Model Antitumor AssaysConceptsOligodendrocyte progenitor cellsLeptomeningeal carcinomatosisLC growthPan-Aurora kinase inhibitorKinase inhibitorsSuppression of HER2Growth of HER2Central nervous system cell typesProliferation of HER2Nervous system cell typesBreast cancer cellsPrimary HER2Targetable axisOminous complicationIntrathecal deliveryMolecular mechanismsTreatment optionsDire prognosisSpinal cordBreast cancerHER2LC developmentLeptomeningesLC/MS-MSCarcinomatosis
2019
PreImplantation Factor promotes Oligodentrocyte differentiation by modulating NCOR2 and long non-coding RNA H19 of the Oligodendrocyte Progenitor Cells
Spinelli M, Boucard C, Ornaghi S, Schoeberlein A, Keller I, Coman D, Hyder F, Zhang L, Haesler V, Bordey A, Barnea E, Paidas M, Surbek D, Mueller M. PreImplantation Factor promotes Oligodentrocyte differentiation by modulating NCOR2 and long non-coding RNA H19 of the Oligodendrocyte Progenitor Cells. Zeitschrift Für Geburtshilfe Und Neonatologie 2019, 223: e18-e18. DOI: 10.1055/s-0039-3401110.Peer-Reviewed Original ResearchLong non-coding RNA H19Non-coding RNA H19Oligodendrocyte progenitor cellsPreImplantation FactorRNA H19Progenitor cells
2015
Concise Review: Modeling Multiple Sclerosis With Stem Cell Biological Platforms: Toward Functional Validation of Cellular and Molecular Phenotypes in Inflammation-Induced Neurodegeneration
Orack JC, Deleidi M, Pitt D, Mahajan K, Nicholas JA, Boster AL, Racke MK, Comabella M, Watanabe F, Imitola J. Concise Review: Modeling Multiple Sclerosis With Stem Cell Biological Platforms: Toward Functional Validation of Cellular and Molecular Phenotypes in Inflammation-Induced Neurodegeneration. Stem Cells Translational Medicine 2015, 4: 252-260. PMID: 25593207, PMCID: PMC4339849, DOI: 10.5966/sctm.2014-0133.Peer-Reviewed Original ResearchConceptsSomatic cell reprogrammingStem cellsInduced pluripotent stem cell (iPSC) technologyPluripotent stem cell (iPSC) technologyOligodendrocyte progenitor cellsMultiple sclerosisGeneration of neuronsNew mechanistic insightsCell reprogrammingNovel stem cellFunctional validationStem cell technologyMolecular mechanismsBiological toolsMesenchymal stem cellsMolecular phenotypesNovel mechanismProgenitor cellsImmune cell functionPhase I clinical trialMechanistic insightsBiological platformCell functionSignificant unmet needBrain atrophy
2013
Differential expression and regulatory roles of FABP5 and FABP7 in oligodendrocyte lineage cells
Sharifi K, Ebrahimi M, Kagawa Y, Islam A, Tuerxun T, Yasumoto Y, Hara T, Yamamoto Y, Miyazaki H, Tokuda N, Yoshikawa T, Owada Y. Differential expression and regulatory roles of FABP5 and FABP7 in oligodendrocyte lineage cells. Cell And Tissue Research 2013, 354: 683-695. PMID: 24114376, DOI: 10.1007/s00441-013-1730-7.Peer-Reviewed Original ResearchConceptsLineage cellsOligodendrocyte lineage cellsOligodendrocyte progenitor cellsCultured oligodendrocyte progenitor cellsCell populationsOPCs/oligodendrocytesSignal transductionGene transcriptionKey intracellular moleculesOligodendrocyte lineage markersExpression of FABP5Differential expressionRegulatory roleIntracellular moleculesDifferentiation mediumFABP7FABP5FABP7 expressionLineage markersProgenitor cellsOligodendrocyte lineageMixed cortical culturesBrdU uptakeExpressionCentral role
2011
FABP7 expression in normal and stab-injured brain cortex and its role in astrocyte proliferation
Sharifi K, Morihiro Y, Maekawa M, Yasumoto Y, Hoshi H, Adachi Y, Sawada T, Tokuda N, Kondo H, Yoshikawa T, Suzuki M, Owada Y. FABP7 expression in normal and stab-injured brain cortex and its role in astrocyte proliferation. Histochemistry And Cell Biology 2011, 136: 501. PMID: 21938553, PMCID: PMC3192944, DOI: 10.1007/s00418-011-0865-4.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAnimals, NewbornAntigensAstrocytesCell ProliferationCells, CulturedCerebral CortexDisease Models, AnimalFatty Acid-Binding Protein 7Fatty Acid-Binding ProteinsFatty Acids, Omega-3Gene ExpressionGliosisHomeostasisMaleMiceMice, Inbred C57BLMice, KnockoutNerve Tissue ProteinsNeural Stem CellsOligodendrogliaProteoglycansWounds, StabConceptsFabp7 KO miceGlial cellsReactive gliosisFABP7 expressionBrain-type fatty acid-binding proteinProliferation of astrocytesExpression of FABP7Cellular fatty acid homeostasisWild-type miceGlial cell proliferationOligodendrocyte progenitor cellsWild-type astrocytesFatty acid-binding proteinRole of FABP7Fatty acid homeostasisFatty acid incorporationNeural stem cellsReactive astrocytesNormal cortexAstrocyte proliferationContralateral sideInjury modelAcid-binding proteinBrain pathologyBrain cortex
2008
Olfactory ensheathing cells exhibit unique migratory, phagocytic, and myelinating properties in the X‐irradiated spinal cord not shared by Schwann cells
Lankford KL, Sasaki M, Radtke C, Kocsis JD. Olfactory ensheathing cells exhibit unique migratory, phagocytic, and myelinating properties in the X‐irradiated spinal cord not shared by Schwann cells. Glia 2008, 56: 1664-1678. PMID: 18551623, DOI: 10.1002/glia.20718.Peer-Reviewed Original ResearchConceptsCentral nervous systemSpinal cordSchwann cellsOligodendrocyte progenitor cellsNormal central nervous systemMigratory propertiesOX-42 stainingNormal spinal cordOlfactory Ensheathing CellsMyelin-forming cellsDemyelinated lesionsHost axonsPhagocytic phenotypePoor survivalSubsequent lesionsNervous systemWhite matterCordLimited survivalOECsMigratory capabilityProgenitor cellsTransplantationX-irradiationLesions
2001
Monofocal origin of telencephalic oligodendrocytes in the anterior entopeduncular area of the chick embryo
Olivier C, Cobos I, Villegas E, Spassky N, Zalc B, Martinez S, Thomas J. Monofocal origin of telencephalic oligodendrocytes in the anterior entopeduncular area of the chick embryo. Development 2001, 128: 1757-1769. PMID: 11311157, DOI: 10.1242/dev.128.10.1757.Peer-Reviewed Original ResearchConceptsAnterior entopeduncular areaTelencephalic oligodendrocytesOligodendrocyte progenitor cellsCentral nervous systemMyelin-forming cellsRostrocaudal distributionCaudorostral axisVentricular originNervous systemOligodendroglial cellsChick brainOligodendrocytesOligodendrocyte precursorsOligodendrocyte progenitorsVentricular neuroepitheliumCaudal forebrainEntire telencephalonMigratory propertiesQuail-chick chimerasProgenitor cellsBrainChick embryosCellsOligodendrogenesis
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