2016
ISL1 cardiovascular progenitor cells for cardiac repair after myocardial infarction
Bartulos O, Zhuang ZW, Huang Y, Mikush N, Suh C, Bregasi A, Wang L, Chang W, Krause DS, Young LH, Pober JS, Qyang Y. ISL1 cardiovascular progenitor cells for cardiac repair after myocardial infarction. JCI Insight 2016, 1: e80920. PMID: 27525311, PMCID: PMC4982472, DOI: 10.1172/jci.insight.80920.Peer-Reviewed Original ResearchMyocardial infarctionControl animalsCardiovascular progenitor cellsProgenitor cellsVentricular contractile functionCardiac repair strategiesNew blood vesselsInfarct areaLineage-tracing studiesContractile functionCardiac repairBlood vessel formationMyocardial regenerationEndothelial cellsHeart tissueBlood vesselsMurine heartInfarctionVessel formationInjuryMiceDelivery approachCardiomyocytesHeartCells
2008
Bone Marrow–derived Cells and Stem Cells in Lung Repair
Krause DS. Bone Marrow–derived Cells and Stem Cells in Lung Repair. Annals Of The American Thoracic Society 2008, 5: 323-327. PMID: 18403327, PMCID: PMC2645242, DOI: 10.1513/pats.200712-169dr.Peer-Reviewed Original ResearchConceptsMarrow-derived epithelial cellsEpithelial cellsBM cellsTissue injuryBone marrow-derived cellsBM-derived cellsMarrow-derived cellsPotential clinical utilityBronchiolar epithelial cellsType II pneumocytesLung damageTracheal epithelial cellsLung repairClinical utilityGI tractBone marrowTissue damagePeer-reviewed studiesNonhematopoietic cell typesBeneficial effectsPotential mechanismsTissue repairLungInjuryTissue microenvironmentPhysiological variations of stem cell factor and stromal‐derived factor‐1 in murine models of liver injury and regeneration
Swenson ES, Kuwahara R, Krause DS, Theise ND. Physiological variations of stem cell factor and stromal‐derived factor‐1 in murine models of liver injury and regeneration. Liver International 2008, 28: 308-318. PMID: 18290773, PMCID: PMC2846401, DOI: 10.1111/j.1478-3231.2007.01659.x.Peer-Reviewed Original ResearchConceptsStromal-derived factor-1Oval cell proliferationLiver injuryLiver irradiationBile ductCell proliferationSDF-1 levelsArterial smooth muscleFactor 1Cell factorMarrow-derived progenitorsNormal mouse liverPlasma levelsBACKGROUND/Murine modelStem cell factorKupffer cellsSmooth muscleInjuryRegenerative responseOval cellsDihydrocollidineMouse liverMiceLiver progenitors
2006
Threshold of Lung Injury Required for the Appearance of Marrow‐Derived Lung Epithelia
Herzog EL, Van Arnam J, Hu B, Krause DS. Threshold of Lung Injury Required for the Appearance of Marrow‐Derived Lung Epithelia. Stem Cells 2006, 24: 1986-1992. PMID: 16868209, DOI: 10.1634/stemcells.2005-0579.Peer-Reviewed Original ResearchConceptsBone marrow-derived cellsBone marrow transplantationLung injuryMarrow transplantationLung epitheliumEngraftment of BMDCsLocal host factorsSex-mismatched bone marrow transplantationMarrow-derived cellsType II pneumocytesMyeloablative radiationLung damageHematopoietic chimerismEpithelial chimerismApparent injuryInjuryTransplantationHost factorsEpitheliumEpithelial cellsEpithelial phenotypeLungChimerismPneumocytesPhenotypic changes
2004
Bone Marrow-Derived Cells Contribute to Epithelial Engraftment during Wound Healing
Borue X, Lee S, Grove J, Herzog EL, Harris R, Diflo T, Glusac E, Hyman K, Theise ND, Krause DS. Bone Marrow-Derived Cells Contribute to Epithelial Engraftment during Wound Healing. American Journal Of Pathology 2004, 165: 1767-1772. PMID: 15509544, PMCID: PMC1618655, DOI: 10.1016/s0002-9440(10)63431-1.Peer-Reviewed Original ResearchConceptsBone marrow-derived cellsEpithelial cellsMarrow-derived epithelial cellsEngraftment of BMDCsDonor-derived cellsMarrow-derived cellsWound healingDegree of engraftmentLevel of engraftmentAbsence of injuryEarly wound healingFemale miceBone marrowCytokeratin 5Cre-lox systemEngraftmentSkin damageWound edgeKeratinocytesInjuryWound siteTransit-amplifying cellsStem cellsEpidermal stem cellsRecent findings