2019
Ifitm3 Is Essential for PI(3,4,5)P3-Dependent B-Cell Activation and Leukemogenesis
Lee J, Xiao G, Cosgun K, Geng H, Ma N, Chan L, Kume K, Nix M, Chen Z, Chen C, Chen J, Khairnar V, Wiita A, Thomas-Tikhonenko A, Farzan M, Diamond M, Jung J, Vaidehi N, Müschen M. Ifitm3 Is Essential for PI(3,4,5)P3-Dependent B-Cell Activation and Leukemogenesis. Blood 2019, 134: 2782. DOI: 10.1182/blood-2019-127615.Peer-Reviewed Original ResearchPoor clinical outcomeB cellsBCR-ABL1Clinical outcomesPI3KAntigen-specific humoral immune responsesAntigen-specific B cell responsesAntiviral effector functionsTime of diagnosisMRNA levelsB cell responsesHumoral immune responseSurface expressionB cell populationsB-cell malignanciesB-cell receptor signalingDependent B cell activationTransplant recipient miceMalignant B-cell transformationB cell activationB cell precursorsColony formation capacityAdvisory CommitteeSrc kinaseB-cell transformation
2015
IFITM3 (CD225) Links the B Cell Antigen CD19 to PI3K-AKT Signaling in Human ALL Cells
Lee J, Geng H, Chen Z, Eugene P, Klemm L, Bailey C, Muschen M. IFITM3 (CD225) Links the B Cell Antigen CD19 to PI3K-AKT Signaling in Human ALL Cells. Blood 2015, 126: 1325. DOI: 10.1182/blood.v126.23.1325.1325.Peer-Reviewed Original ResearchTime of diagnosisPI3K-Akt signalingPI3K-AktHuman preSurface expressionAgonistic antibodiesB-cell antigen CD19Patient-derived preRelapse-free survivalMRNA levelsChimeric antigen receptorMedian expression levelPI3K p110δSurface receptorsColony formation capacityMRD statusInduction chemotherapyImmunotherapy approachesAntigen CD19Cell cycle arrestCell receptor complexClinical trialsCD19 expressionHigh riskB cell progenitors
2014
IL2RA (CD25) Recruits Inhibitory Phosphatases to the Cell Membrane and Mediates Negative Feedback Control of STAT5 Signaling in Acute Lymphoblastic Leukemia
Geng H, Lee J, Chen Z, Masouleh B, Hurtz C, Park E, Xiao G, Parekh S, Kornblau S, Melnick A, Paietta E, Muschen M. IL2RA (CD25) Recruits Inhibitory Phosphatases to the Cell Membrane and Mediates Negative Feedback Control of STAT5 Signaling in Acute Lymphoblastic Leukemia. Blood 2014, 124: 788. DOI: 10.1182/blood.v124.21.788.788.Peer-Reviewed Original ResearchCD25 expressionB cell developmentClinical outcomesPoor overall clinical outcomeHuman prePatient-derived preHigh-risk subsetNegative feedback controlTime of diagnosisOverall clinical outcomePoor clinical outcomeHigh-risk subtypesLeukemia initiationAcute lymphoblastic leukemiaCell developmentPhosphorylation levelsImmune precipitationColony formation capacityTransplant recipientsTyrosine kinaseTransplant settingLymphoblastic leukemiaIL-2Cell surface expressionNormal B cell developmentHarnessing Negative B Cell Selection to Overcome Drug-Resistance in Acute Lymphoblastic Leukemia
Chen Z, Shojaee S, Geng H, Lee J, Buchner M, Klemm L, Lowell C, Paietta E, Willman C, Carroll W, Melnick A, Jung J, Jumaa H, Coligan J, Bolland S, Mak T, Muschen M. Harnessing Negative B Cell Selection to Overcome Drug-Resistance in Acute Lymphoblastic Leukemia. Blood 2014, 124: 792. DOI: 10.1182/blood.v124.21.792.792.Peer-Reviewed Original ResearchAcute lymphoblastic leukemiaTyrosine kinase inhibitorsB cell receptorInhibitory receptorsTherapeutic targetPre-BCR signalingLymphoblastic leukemiaXenograft cellsB cellsSurvival rateB-cell acute lymphoblastic leukemiaCell deathAuto-reactive clonesFree survival rateCell acute lymphoblastic leukemiaOverall survival rateWorse clinical outcomesLeukemia cellsNegative B cell selectionAdditional therapeutic targetsAvailable therapeutic interventionsG1cell cycle arrestPotent tyrosine kinase inhibitorNovel small molecule inhibitorColony formation capacity