2024
Aplastic anemia in association with multiple myeloma: clinical and pathophysiological insights
Muradashvili T, Liu Y, VanOudenhove J, Gu S, Krause D, Montanari F, Carlino M, Mancuso R, Stempel J, Halene S, Zeidan A, Podoltsev N, Neparidze N. Aplastic anemia in association with multiple myeloma: clinical and pathophysiological insights. Leukemia & Lymphoma 2024, ahead-of-print: 1-8. PMID: 39225418, DOI: 10.1080/10428194.2024.2393260.Peer-Reviewed Original ResearchAplastic anemiaMultiple myelomaImmunosuppressive therapyTransfusion requirementsProgenitor cellsPlasma cell-directed therapyT-cell destructionCell-directed therapiesInhibition of erythroid colony formationErythroid colony formationLevels of IL8Severe AAImmune cytopeniasPartial responseMM patientsHematopoietic stemSerum testsPartial improvementPathophysiological insightsPatientsImmune systemPlatelet apoptosisCytopeniasColony formationMyeloma
2018
Concise Review: Bipotent Megakaryocytic-Erythroid Progenitors: Concepts and Controversies
Xavier-Ferrucio J, Krause DS. Concise Review: Bipotent Megakaryocytic-Erythroid Progenitors: Concepts and Controversies. Stem Cells 2018, 36: 1138-1145. PMID: 29658164, PMCID: PMC6105498, DOI: 10.1002/stem.2834.Peer-Reviewed Original ResearchConceptsMegakaryocytic-erythroid progenitorsProgenitor cellsDifferent functional outputsVariety of speciesProgenitor stageIntermediate progenitor stageErythroid cellsHuman hematopoiesisBlood formationMegakaryocytic lineageMurine cellsHematopoietic stemHematopoietic progenitorsFunctional outputStem cellsDifferentiation capabilityHematopoiesis processProgenitorsLineagesHematopoiesisCell sourceCellsDiscrete stepsRecent advancesSpecies
2017
Hematopoietic defects in response to reduced Arhgap21
Xavier-Ferrucio J, Ricon L, Vieira K, Longhini AL, Lazarini M, Bigarella CL, Franchi G, Krause DS, Saad STO. Hematopoietic defects in response to reduced Arhgap21. Stem Cell Research 2017, 26: 17-27. PMID: 29212046, PMCID: PMC6084430, DOI: 10.1016/j.scr.2017.11.014.Peer-Reviewed Original ResearchConceptsErythroid commitmentProgenitor cellsSerial bone marrow transplantationHuman primary cellsProtein familyRho GTPasesHematopoietic progenitor cellsPhenotypic HSCsRho GTPaseHematopoietic defectsRhoC activityNegative regulatorARHGAP21Hematopoietic stemHematopoietic cellsMyeloid progenitorsProgenitor coloniesPrimary cellsBone marrow cellsCancer cellsFunctional aspectsHaploinsufficient miceMarrow cellsCellsGTPases
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 studiesEngraftmentLung
2001
Multi-Organ, Multi-Lineage Engraftment by a Single Bone Marrow-Derived Stem Cell
Krause D, Theise N, Collector M, Henegariu O, Hwang S, Gardner R, Neutzel S, Sharkis S. Multi-Organ, Multi-Lineage Engraftment by a Single Bone Marrow-Derived Stem Cell. Cell 2001, 105: 369-377. PMID: 11348593, DOI: 10.1016/s0092-8674(01)00328-2.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntigens, CD34Antigens, LyBone Marrow CellsCell LineageCell MovementEpithelial CellsFemaleFluorescent DyesHematopoietic Stem Cell TransplantationHematopoietic Stem CellsHumansImmunohistochemistryIn Situ Hybridization, FluorescenceIntestine, SmallKeratinsLungMaleMembrane ProteinsMiceMice, KnockoutOrganic ChemicalsPulmonary SurfactantsStem CellsY ChromosomeConceptsLong-term repopulationSingle bone marrowMulti-lineage engraftmentAdult bone marrow cellsProperties of HSCHematopoietic stemSecondary hostsGenetic diseasesStem cellsBone marrow cellsExpression increasesDifferentiative capacityBone marrowEpithelial cellsSerial transplantationRare cellsTissue repairMarrow cellsCellsDifferentiationHostSecondary recipientsGI tractPhenotypeMarrow
2000
Regulation of CD34 transcription by Sp1 requires sites upstream and downstream of the transcription start site
Taranenko N, Krause D. Regulation of CD34 transcription by Sp1 requires sites upstream and downstream of the transcription start site. Experimental Hematology 2000, 28: 974-984. PMID: 10989198, DOI: 10.1016/s0301-472x(00)00492-6.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntigens, CD34Antigens, NuclearBinding SitesDNADNA HelicasesDNA MethylationDNA ProbesDNA-Binding ProteinsGene Expression RegulationGuanineKu AutoantigenMiceNuclear ProteinsPromoter Regions, GeneticSp1 Transcription FactorTranscription FactorsTranscription, GeneticTransfectionTumor Cells, CulturedUntranslated RegionsConceptsTranscription start sitePromoter activityCD34 promoterStart siteDrosophila S2 cellsHematopoietic cellsTranscription factor bindsDNA binding sitesElectromobility shift assaysSequence-specific mannerS2 cellsTranscriptional regulationMolecular regulationMethylation interferenceDeletion analysisEarly hematopoiesisNuclear proteinsRegulatory regionsFactor bindsShift assaysGene expressionUntranslated regionHematopoietic stemSp1CD34 transcription
1997
Regulation of CD34 expression in differentiating M1 cells.
Krause DS, Kapadia SU, Raj NB, May WS. Regulation of CD34 expression in differentiating M1 cells. Experimental Hematology 1997, 25: 1051-61. PMID: 9293902.Peer-Reviewed Original ResearchMeSH Keywords3T3 CellsAnimalsAntigens, CD34Base SequenceBinding SitesCell DifferentiationCells, CulturedDNA-Binding ProteinsDown-RegulationGene Expression RegulationGene Expression Regulation, DevelopmentalGene Expression Regulation, NeoplasticHematopoiesisLeukemia, MyeloidMiceMolecular Sequence DataNuclear ProteinsRNA, MessengerTranscription, GeneticConceptsTranscription initiation siteUntranslated regionPromoter activityHematopoietic stemCell type-specific expressionSecondary structureTATA-less promoterPromoter-luciferase reporter constructsFull promoter activityUpstream genomic DNAProgenitor cellsTranslation start siteMature blood cellsType-specific expressionOptimal promoter activityExtensive secondary structureP1 nuclease digestionCell-specific factorsTranscriptional initiationGene regulationTranscription factorsConsensus sitesStart siteRegulatory elementsTATA element
1995
Full-Length But Not Truncated CD34 Inhibits Hematopoietic Ceil Differentiation of Ml Cells
Fackler M, Krause D, Smith O, Civin C, May W. Full-Length But Not Truncated CD34 Inhibits Hematopoietic Ceil Differentiation of Ml Cells. Blood 1995, 85: 3040-3047. PMID: 7538813, DOI: 10.1182/blood.v85.11.3040.bloodjournal85113040.Peer-Reviewed Original ResearchMeSH KeywordsAcute DiseaseAnimalsAntigens, CDAntigens, CD34Base SequenceCell DifferentiationGene Expression Regulation, LeukemicGrowth InhibitorsHematopoietic Stem CellsInterleukin-6Leukemia Inhibitory FactorLeukemia, MyeloidLymphokinesMacrophagesMiceMolecular Sequence DataPeptide FragmentsPhagocytosisRecombinant Fusion ProteinsTumor Cells, CulturedConceptsFull-length CD34Developmental stage-specific mannerM1 myeloid leukemia cellsTerminal myeloid differentiationMurine hematopoietic stemStage-specific mannerProgenitor cellsHematopoietic cell differentiationCD34 proteinNegative regulatory roleCytoplasmic tail domainMurine M1 myeloid leukemia cellsStem/progenitor cellsArrest phenotypeFunction of CD34Tail domainTerminal differentiationCell differentiationRegulatory roleMyeloid differentiationHematopoietic stemDomain regionLeukemia inhibitory factorHematopoietic cellsMyeloid leukemia cells