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