2007
Lung‐specific nuclear reprogramming is accompanied by heterokaryon formation and Y chromosome loss following bone marrow transplantation and secondary inflammation
Herzog EL, Van Arnam J, Hu B, Zhang J, Chen Q, Haberman AM, Krause DS. Lung‐specific nuclear reprogramming is accompanied by heterokaryon formation and Y chromosome loss following bone marrow transplantation and secondary inflammation. The FASEB Journal 2007, 21: 2592-2601. PMID: 17449722, DOI: 10.1096/fj.06-7861com.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsBone Marrow TransplantationChromosome DeletionFemaleInflammationIntercellular Signaling Peptides and ProteinsMaleMiceMice, KnockoutPeptidesPostoperative ComplicationsPulmonary Surfactant-Associated Protein CTransplantation ChimeraTransplantation ConditioningWhole-Body IrradiationY ChromosomeConceptsTransplanted bone marrow-derived cellsY chromosomeHeterokaryon formationBone marrow-derived cellsLung-specific gene expressionGene expression patternsSurfactant protein CY chromosome lossNuclear reprogrammingSP-C mRNAChromosome lossExpression patternsGene expressionCell fusionSP-C deficiencyChromosomesReprogrammingSpNonhematopoietic cellsWild-type marrowMarrow-derived cellsCellsProtein CProteinFusion
2006
Host factors that impact the biodistribution and persistence of multipotent adult progenitor cells
Tolar J, O'Shaughnessy MJ, Panoskaltsis-Mortari A, McElmurry RT, Bell S, Riddle M, McIvor RS, Yant SR, Kay MA, Krause D, Verfaillie CM, Blazar BR. Host factors that impact the biodistribution and persistence of multipotent adult progenitor cells. Blood 2006, 107: 4182-4188. PMID: 16410448, PMCID: PMC1895284, DOI: 10.1182/blood-2005-08-3289.Peer-Reviewed Original ResearchConceptsMultipotent adult progenitor cellsAdult progenitor cellsB cell-deficient miceMajor histocompatibility complex antigensT cell alloresponsesProgenitor cellsIntra-arterial injectionIntra-arterial deliveryHistocompatibility complex antigensMHC class INK depletionAllogeneic marrowNK cellsNK cytolysisMajor uptake siteWidespread biodistributionHost irradiationT cellsIntravenous injectionComplex antigensImmunohistochemical analysisB cellsUptake sitesHost factorsClass I
2000
Derivation of hepatocytes from bone marrow cells in mice after radiation‐induced myeloablation
Theise N, Badve S, Saxena R, Henegariu O, Sell S, Crawford J, Krause D. Derivation of hepatocytes from bone marrow cells in mice after radiation‐induced myeloablation. Hepatology 2000, 31: 235-240. PMID: 10613752, DOI: 10.1002/hep.510310135.Peer-Reviewed Original ResearchConceptsBone marrow cellsY chromosomeMarrow cellsFemale miceMessenger RNAWhole bone marrow transplantsAge-matched male donorsDerivation of hepatocytesSkeletal muscle regenerationSevere acute injuryAcute hepatic injuryBone marrow transplantationBone marrow transplantSimultaneous FISHFluorescence-activated cell sorterMale-derived cellsOval cell proliferationDays posttransplantationMonths posttransplantationHepatic injuryMarrow transplantationMarrow transplantAcute injuryMonth 2Hepatic engraftment