2012
Nonhematopoietic Cells are the Primary Source of Bone Marrow‐Derived Lung Epithelial Cells
Kassmer SH, Bruscia EM, Zhang P, Krause DS. Nonhematopoietic Cells are the Primary Source of Bone Marrow‐Derived Lung Epithelial Cells. Stem Cells 2012, 30: 491-499. PMID: 22162244, PMCID: PMC3725285, DOI: 10.1002/stem.1003.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBacterial ProteinsBone Marrow CellsBone Marrow TransplantationCell SeparationEpithelial CellsGene ExpressionLuminescent ProteinsLungMiceMice, 129 StrainMice, Inbred C57BLMice, KnockoutMicroscopy, ConfocalPulmonary Surfactant-Associated Protein CRecombinant ProteinsSingle-Cell AnalysisConceptsLung epithelial cellsNonhematopoietic cellsBM cellsEpithelial cellsBone marrowLungs of miceType 2 pneumocytesNonhematopoietic stem cellsNonhematopoietic fractionAdult BMPrimitive stem cell populationNull miceProgenitor cellsMiceStem cell populationCell populationsMarrowStem cellsMultiple tissuesHematopoietic stemBMCellsPrevious studiesEngraftmentLungProxTom Lymphatic Vessel Reporter Mice Reveal Prox1 Expression in the Adrenal Medulla, Megakaryocytes, and Platelets
Truman LA, Bentley KL, Smith EC, Massaro SA, Gonzalez DG, Haberman AM, Hill M, Jones D, Min W, Krause DS, Ruddle NH. ProxTom Lymphatic Vessel Reporter Mice Reveal Prox1 Expression in the Adrenal Medulla, Megakaryocytes, and Platelets. American Journal Of Pathology 2012, 180: 1715-1725. PMID: 22310467, PMCID: PMC3349900, DOI: 10.1016/j.ajpath.2011.12.026.Peer-Reviewed Original ResearchMeSH KeywordsAdrenal MedullaAnimalsBlood PlateletsCells, CulturedCytoplasmEndothelial CellsGene Expression RegulationGenotypeGlycoproteinsHomeodomain ProteinsLuminescent ProteinsLymph NodesLymphatic VesselsMegakaryocytesMembrane Transport ProteinsMiceMice, Inbred C57BLMice, TransgenicMicroscopy, FluorescenceTumor Cells, CulturedTumor Suppressor ProteinsConceptsLymph nodesLymphatic vesselsAdrenal medullaExpression of Prox1Tumor metastasisHigh endothelial venulesProx1 expressionTwo-photon laser scanning microscopyTransplant rejectionDentate gyrusEndothelial venulesAntigen presentationC57BL/6 backgroundTransgenic miceLipid metabolismMiceNeuroendocrine cellsAdult liverNovel siteMetastasisMedullaStudy of diseasesLiving mouseUnknown rolePotential utility
2010
Serum response factor is an essential transcription factor in megakaryocytic maturation
Halene S, Gao Y, Hahn K, Massaro S, Italiano JE, Schulz V, Lin S, Kupfer GM, Krause DS. Serum response factor is an essential transcription factor in megakaryocytic maturation. Blood 2010, 116: 1942-1950. PMID: 20525922, PMCID: PMC3173990, DOI: 10.1182/blood-2010-01-261743.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBleeding TimeBlood PlateletsBone Marrow CellsCell DifferentiationCell LineageCells, CulturedCytoskeletonFemaleFlow CytometryGene Expression ProfilingLuminescent ProteinsMaleMegakaryocytesMiceMice, Inbred C57BLMice, KnockoutMice, TransgenicMicroscopy, Electron, TransmissionPlatelet CountPlatelet Factor 4Reverse Transcriptase Polymerase Chain ReactionSerum Response FactorThrombocytopeniaTranscription FactorsConceptsSerum response factorCytoskeletal genesTranscription factorsMADS-box transcription factorsRole of SRFNormal megakaryocyte maturationAbnormal actin distributionResponse factorEssential transcription factorNormal Mendelian frequencyMegakaryocyte developmentMuscle differentiationPF4-Cre miceStress fibersMegakaryocyte maturationMegakaryocytic maturationActin distributionMegakaryocytic lineageMendelian frequencyMegakaryocyte progenitorsVivo assaysCFU-MKGenesPlatelet productionCritical role
2004
Lack of a Fusion Requirement for Development of Bone Marrow-Derived Epithelia
Harris RG, Herzog EL, Bruscia EM, Grove JE, Van Arnam JS, Krause DS. Lack of a Fusion Requirement for Development of Bone Marrow-Derived Epithelia. Science 2004, 305: 90-93. PMID: 15232107, DOI: 10.1126/science.1098925.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBeta-GalactosidaseBone Marrow CellsBone Marrow TransplantationCell DifferentiationCell FusionCobra Cardiotoxin ProteinsElapid VenomsEpithelial CellsFemaleGreen Fluorescent ProteinsHepatocytesKeratinocytesKeratinsLuminescent ProteinsMaleMiceMice, TransgenicMuscle CellsRadiation, IonizingRecombinasesRecombination, GeneticReverse Transcriptase Polymerase Chain ReactionStem CellsX ChromosomeY ChromosomeConceptsCell-cell fusionBone marrow-derived cellsCre/lox systemGreen fluorescent protein expressionFluorescent protein expressionEpithelial cellsDevelopmental plasticityLox systemCell fusionProtein expressionMarrow-derived cellsTransgenic miceCellsBone marrowFusionFusion requirementsPlasticityExpression
2002
Marrow-Derived Cells as Vehicles for Delivery of Gene Therapy to Pulmonary Epithelium
Grove JE, Lutzko C, Priller J, Henegariu O, Theise ND, Kohn DB, Krause DS. Marrow-Derived Cells as Vehicles for Delivery of Gene Therapy to Pulmonary Epithelium. American Journal Of Respiratory Cell And Molecular Biology 2002, 27: 645-651. PMID: 12444022, DOI: 10.1165/rcmb.2002-0056rc.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBone Marrow TransplantationFemaleGene ExpressionGenetic TherapyGreen Fluorescent ProteinsHematopoietic Stem Cell TransplantationIndicators and ReagentsLuminescent ProteinsLung DiseasesMiceMice, Inbred C57BLProtein PrecursorsProteolipidsRespiratory MucosaRetroviridaeRNA, MessengerConceptsBone marrow-derived stem cellsLung epithelial cellsLung epitheliumEpithelial cellsMarrow-derived stem cellsGene therapyBMSC transplantationLung diseaseFemale miceAirway epitheliumAlveolar spaceLong-term transgene expressionMale marrowPulmonary epitheliumLong-term gene expressionGene therapy applicationsGene expressionPulmonary airwaysAdenoviral vectorEpitheliumMarrowTherapyTransient gene expressionNonviral vectorsStem cells