2024
395 Altered hematopoiesis and functional decline of hematopoietic stem cells in cystic fibrosis mice
Braga C, Mancuso R, Thompson E, Oez H, Gudneppannavar R, Zhang P, Huang P, Egan M, Murray T, Krause D, Bruscia E. 395 Altered hematopoiesis and functional decline of hematopoietic stem cells in cystic fibrosis mice. Journal Of Cystic Fibrosis 2024, 23: s207-s208. DOI: 10.1016/s1569-1993(24)01235-9.Peer-Reviewed Original Research
2021
Combined liver–cytokine humanization comes to the rescue of circulating human red blood cells
Song Y, Shan L, Gbyli R, Liu W, Strowig T, Patel A, Fu X, Wang X, Xu ML, Gao Y, Qin A, Bruscia EM, Tebaldi T, Biancon G, Mamillapalli P, Urbonas D, Eynon E, Gonzalez DG, Chen J, Krause DS, Alderman J, Halene S, Flavell RA. Combined liver–cytokine humanization comes to the rescue of circulating human red blood cells. Science 2021, 371: 1019-1025. PMID: 33674488, PMCID: PMC8292008, DOI: 10.1126/science.abe2485.Peer-Reviewed Original ResearchConceptsRed blood cellsBlood cellsHuman sickle cell diseaseSickle cell diseaseImmunodeficient murine modelKupffer cell densityBone marrow failureMISTRG miceIntrasplenic injectionSCD pathologyCell diseaseMurine modelComplement C3RBC survivalVivo modelHuman cytokinesPreclinical testingHematopoietic stem cellsHuman red blood cellsMarrow failureFumarylacetoacetate hydrolase geneHuman erythropoiesisHuman liverHuman hepatocytesMice
2007
Bone Marrow Contributes to Epithelial Cancers in Mice and Humans as Developmental Mimicry
Cogle CR, Theise ND, Fu D, Ucar D, Lee S, Guthrie SM, Lonergan J, Rybka W, Krause DS, Scott EW. Bone Marrow Contributes to Epithelial Cancers in Mice and Humans as Developmental Mimicry. Stem Cells 2007, 25: 1881-1887. PMID: 17478582, DOI: 10.1634/stemcells.2007-0163.Peer-Reviewed Original ResearchConceptsEpithelial cancersEpithelial neoplasiaHematopoietic stem cellsNeoplastic environmentStem cellsHematopoietic cell transplantationBone marrow cellsHuman marrowMarrow involvementMarrow cellsSmall bowelCell transplantationLung neoplasiaMouse modelBone marrowMimicryDistant organsNeoplasiaCancerMarrowStable fusionCellsPhenotypeInductionBowelRbm15 Modulates Notch-Induced Transcriptional Activation and Affects Myeloid Differentiation
Ma X, Renda MJ, Wang L, Cheng EC, Niu C, Morris SW, S. AS, Krause DS. Rbm15 Modulates Notch-Induced Transcriptional Activation and Affects Myeloid Differentiation. Molecular And Cellular Biology 2007, 27: 3056-3064. PMID: 17283045, PMCID: PMC1899951, DOI: 10.1128/mcb.01339-06.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsBasic Helix-Loop-Helix Transcription FactorsCell NucleusCHO CellsCricetinaeCricetulusDNA-Binding ProteinsDrosophila ProteinsGene Expression ProfilingHomeodomain ProteinsImmunoglobulin J Recombination Signal Sequence-Binding ProteinMiceMolecular Sequence DataMyeloid CellsMyelopoiesisNuclear ProteinsPromoter Regions, GeneticProtein BindingProtein Structure, TertiaryProtein TransportReceptors, NotchRNA, MessengerRNA, Small InterferingRNA-Binding ProteinsTranscription Factor HES-1Transcription, GeneticTranscriptional ActivationConceptsN-terminusPromoter activityMyeloid differentiationCell linesCell type-specific mannerMyeloid precursor cell linePrimary murine cellsType-specific mannerDominant negative effectStimulation of NotchHematopoietic cell linesHuman erythroleukemia cellsPrecursor cell lineMurine cell linesHematopoietic stem cellsTranscriptional activationHes1 transcriptionRNA interferenceErythroleukemia cellsFusion proteinHes1 promoter activityMurine cellsFusion partnerHematopoietic cellsRBM15
2004
Plasticity of Bone Marrow–Derived Stem Cells
Grove JE, Bruscia E, Krause DS. Plasticity of Bone Marrow–Derived Stem Cells. Stem Cells 2004, 22: 487-500. PMID: 15277695, DOI: 10.1634/stemcells.22-4-487.Peer-Reviewed Original ResearchConceptsBone marrow stem cellsHematopoietic stem cellsStem cellsCell plasticityMesenchymal stem cellsStem cell plasticityGene expression profilesAdult stem cellsAdult bone marrow cellsMature lineagesAdult bone marrow stem cellsTissue of originExpression profilesMature cellsMarrow stem cellsBone marrow cellsNonhematopoietic tissuesMature phenotypePlasticityMarrow cellsCellsLineagesBone marrowPhenotypeTissueLineage specificity of gene expression patterns
Kluger Y, Tuck DP, Chang JT, Nakayama Y, Poddar R, Kohya N, Lian Z, Nasr A, Halaban HR, Krause DS, Zhang X, Newburger PE, Weissman SM. Lineage specificity of gene expression patterns. Proceedings Of The National Academy Of Sciences Of The United States Of America 2004, 101: 6508-6513. PMID: 15096607, PMCID: PMC404075, DOI: 10.1073/pnas.0401136101.Peer-Reviewed Original ResearchConceptsGene expression patternsExpression patternsExpression dataGene Ontology databaseTree of relationshipsStem cellsBroad functional categoriesHematopoietic cell populationsMRNA expression dataHematopoietic programBioCarta databasesGenome databaseLineage choiceHematopoietic stem cellsKyoto EncyclopediaDifferent lineagesFunctional categoriesLineage developmentCell lineagesGene expressionLineage specificityOligonucleotide microarraysFunctional pathwaysLineage discriminationOntology database
2003
Plasticity of marrow-derived stem cells
Herzog EL, Chai L, Krause DS. Plasticity of marrow-derived stem cells. Blood 2003, 102: 3483-3493. PMID: 12893756, DOI: 10.1182/blood-2003-05-1664.Peer-Reviewed Original ResearchConceptsHematopoietic stem cellsStem cellsAdult stem cell plasticityMesenchymal stem cellsStem cell plasticityBone marrowMature blood cellsEndothelial cell progenitorsAdult bone marrowBone marrow subpopulationsMultiple mesenchymal tissuesCell plasticityMarrow-derived stem cellsCell progenitorsMarrow subpopulationsMultiple tissuesMature cellsConditions differentiationNeural cellsDifferentiationEpithelial cellsNonhematopoietic cellsTissue injuryGastrointestinal tractSkeletal muscleCotransplantation of human mesenchymal stem cells enhances human myelopoiesis and megakaryocytopoiesis in NOD/SCID mice
Angelopoulou M, Novelli E, Grove JE, Rinder HM, Civin C, Cheng L, Krause DS. Cotransplantation of human mesenchymal stem cells enhances human myelopoiesis and megakaryocytopoiesis in NOD/SCID mice. Experimental Hematology 2003, 31: 413-420. PMID: 12763140, DOI: 10.1016/s0301-472x(03)00042-0.Peer-Reviewed Original ResearchConceptsPeripheral blood stem cellsNOD/SCID miceMesenchymal stem cellsMSC cotransplantationTransplant recipientsSCID miceCotransplantation of MSCsHematopoietic stem cellsHuman peripheral blood stem cellsStem cellsAllogeneic transplant recipientsTransplantation of CD34Autologous transplant recipientsHuman mesenchymal stem cellsBlood stem cellsHuman cell engraftmentMarrow-derived stromal cellsBone marrow cellsPlatelet engraftmentHuman bone marrow cellsHuman hematopoietic stem cellsCotransplantationBone marrowMegakaryocytic engraftmentB lymphocytes
1999
Functional activity of murine CD34+and CD34− hematopoietic stem cell populations
Donnelly D, Zelterman D, Sharkis S, Krause D. Functional activity of murine CD34+and CD34− hematopoietic stem cell populations. Experimental Hematology 1999, 27: 788-796. PMID: 10340393, DOI: 10.1016/s0301-472x(99)00032-6.Peer-Reviewed Original ResearchConceptsHematopoietic stem cellsCD34-LinStem cellsMurine bone marrow cellsHematopoietic stem cell populationStem cell populationCD34- hematopoietic stem cellsCompetitive repopulation experimentsHuman hematopoietic stem cellsClinical transplantation protocolsLong-term engraftmentBone marrowMarrow repopulating cellsBone marrow cellsDistinct populationsRepopulation experimentsRepopulating cellsCell populationsBone marrow repopulating cellsCD34 cellsMarrow cellsCell numberCellsFunctional activityBone marrow reconstitution
1994
Characterization of murine CD34, a marker for hematopoietic progenitor and stem cells
Krause D, Ito T, Fackler M, Smith O, Collector M, Sharkis S, May W. Characterization of murine CD34, a marker for hematopoietic progenitor and stem cells. Blood 1994, 84: 691-701. DOI: 10.1182/blood.v84.3.691.bloodjournal843691.Peer-Reviewed Original ResearchFull-length CD34Colony-forming unit-spleenM1 leukemia cellsMurine CD34Stem cellsHematopoietic progenitorsMurine hematopoietic stem cellsProgenitor cellsBone marrow cellsEmbryonic stem cellsHuman hematopoietic stemPotential functional differencesLong-term repopulating abilityCell linesFunctional hematopoietic progenitorsFull-length formCHO-K1 cell lineDifferent cell typesMurine cell linesPattern of expressionPA6 stromal cellsHematopoietic stem cellsLeukemia cellsHematopoietic progenitor cellsApparent molecular weightCharacterization of Murine CD34, a Marker for Hematopoietic Progenitor and Stem Cells
Krause D, Ito T, Fackler M, Smith O, Collector M, Sharkis S, May W. Characterization of Murine CD34, a Marker for Hematopoietic Progenitor and Stem Cells. Blood 1994, 84: 691-701. PMID: 7519070, DOI: 10.1182/blood.v84.3.691.691.Peer-Reviewed Original ResearchConceptsFull-length CD34Colony-forming unit-spleenM1 leukemia cellsMurine CD34Stem cellsHematopoietic progenitorsMurine hematopoietic stem cellsProgenitor cellsBone marrow cellsEmbryonic stem cellsHuman hematopoietic stemPotential functional differencesLong-term repopulating abilityCell linesFunctional hematopoietic progenitorsFull-length formCHO-K1 cell lineDifferent cell typesMurine cell linesPattern of expressionPA6 stromal cellsHematopoietic stem cellsLeukemia cellsHematopoietic progenitor cellsApparent molecular weight