2023
Assay optimization for the objective quantification of human multilineage colony-forming units
Thompson E, Carlino M, Scanlon V, Grimes H, Krause D. Assay optimization for the objective quantification of human multilineage colony-forming units. Experimental Hematology 2023, 124: 36-44.e3. PMID: 37271449, PMCID: PMC10527702, DOI: 10.1016/j.exphem.2023.05.007.Peer-Reviewed Original ResearchConceptsFluorescence-activated cell sortingLineage potentialCommon myeloid progenitorsHigh-throughput microscopyMultilineage colony-forming unitsProportion of coloniesSpecific growth factorsCFU assayColony-forming unit assaysMultipotent progenitorsProgenitor populationsLineage outputSitu immunofluorescenceMegakaryocytic lineageMK cellsMegakaryocytic cellsCell typesMyeloid progenitorsProgenitor cellsCell morphologyCell sortingUnit assaysIL-3Colony typesCulture conditions
2022
Downregulation of SATB1 by miRNAs reduces megakaryocyte/erythroid progenitor expansion in preclinical models of Diamond–Blackfan anemia
Wilkes MC, Scanlon V, Shibuya A, Cepika AM, Eskin A, Chen Z, Narla A, Glader B, Roncarolo MG, Nelson SF, Sakamoto KM. Downregulation of SATB1 by miRNAs reduces megakaryocyte/erythroid progenitor expansion in preclinical models of Diamond–Blackfan anemia. Experimental Hematology 2022, 111: 66-78. PMID: 35460833, PMCID: PMC9255422, DOI: 10.1016/j.exphem.2022.04.005.Peer-Reviewed Original ResearchConceptsMegakaryocyte/erythroid progenitorsDiamond-Blackfan anemiaRibosomal proteinsPathogenesis of DBAErythroid progenitorsHuman hematopoietic stemInherited bone marrow failure syndromeChromatin regulatorsRibosomal insufficiencyErythroid differentiationProgenitor expansionBone marrow failure syndromesCancer predispositionHematopoietic stemMiR-30MiR-34Molecular pathwaysMegakaryocyte expansionMarrow failure syndromesNormal erythropoiesisProgenitor cellsCoordinated actionSATB1ProgenitorsDifferentiation
2021
Single-Cell Tracking By Time Lapse Imaging Confirms Thrombopoietin Promotes Megakaryocytic-Erythroid Progenitor Self Renewal, but Does Not Instruct Lineage Commitment
Scanlon V, Kochugaeva M, Lawton B, Xavier-Ferrucio J, Kang E, Eskow N, Lu Y, Kwon N, Laumas A, Cenci M, Lawrence K, Barden K, Larsuel S, Reed F, Pena-Carmona G, Ubbelohde A, Lee J, Boobalan S, Oppong Y, Anderson R, Maynard C, Sahirul K, Lajeune C, Ivathraya V, Addy T, Sanchez P, Holbrook C, Van Ho A, Blau H, Levchenko A, Krause D. Single-Cell Tracking By Time Lapse Imaging Confirms Thrombopoietin Promotes Megakaryocytic-Erythroid Progenitor Self Renewal, but Does Not Instruct Lineage Commitment. Blood 2021, 138: 3270. DOI: 10.1182/blood-2021-154360.Peer-Reviewed Original ResearchAbsence of thrombopoietinTime-lapse imagingLineage commitmentSelf-renewal divisionsCell typesMK lineageSelf-RenewalLineage-restricted progenitor cellsSpecific progenitor populationsProgenitor self-renewalProgenitor cellsSingle-cell trackingSpecific cell typesColony typesE lineageLineage choiceProgenitor commitmentCellular processesDaughter cellsLineage potentialCultured megakaryocytesProgenitor populationsCell statesDivision rateMegakaryocytic maturation