2023
STAT5-Feedback Controls Distinct Metabolic States for Dynamic Transitions between Cellular Activation and Quiescence in Acute Lymphoblastic Leukemia
Kume K, Chen Z, Robinson M, Chan L, Leveille E, Cosgun K, Cheng Z, Arce D, Khanduja D, Graeber T, Müschen M. STAT5-Feedback Controls Distinct Metabolic States for Dynamic Transitions between Cellular Activation and Quiescence in Acute Lymphoblastic Leukemia. Blood 2023, 142: 2977. DOI: 10.1182/blood-2023-191006.Peer-Reviewed Original ResearchB-cell acute lymphoblastic leukemiaAcute lymphoblastic leukemiaLymphoblastic leukemiaPharmacological inhibitionGenetic deletionCellular activationReceptor signalingCell deathBone marrow relapsePoor overall outcomePoor clinical outcomeLeukemia-initiating capacityOncogenic STAT5Mass spectrometry-based metabolomics analysisExpression levelsPhosphorylation of STAT5Flow cytometry analysisMetabolic statePositive MRDRole of mTORMarrow relapseAggressive courseClinical outcomesExcessive protein synthesisMetabolic outcomesImmunoglobulin Light Chains Control Permissiveness to Malignant B-Cell Transformation By RAS-Pathway Lesions
Chan L, Kume K, Hurtz C, Robinson M, Cosgun K, Müschen M. Immunoglobulin Light Chains Control Permissiveness to Malignant B-Cell Transformation By RAS-Pathway Lesions. Blood 2023, 142: 2974. DOI: 10.1182/blood-2023-190163.Peer-Reviewed Original ResearchJeKo-1 cellsB cell precursorsMature B cellsB cellsMantle cell lymphoma cellsCell lymphoma cellsGenetic ablationImmunoglobulin light chainsRAS activationOncogenic RASMalignant transformationB-cell acute lymphoblastic leukemiaConventional light chainsRAS pathwayLymphoma cellsCell deathOncogenic RAS activationLight chainAcute lymphoblastic leukemiaMature B-cell lymphomasTransgenic mouse modelB-cell lymphomaB-cell malignanciesMalignant B-cell transformationKappa-LCRepurposing GSK3B Small Molecule Inhibitors for Refractory Lymphoid Malignancies
Cosgun K, Robinson M, Oulghazi S, Xu L, Xiao G, Chan L, Lee J, Kume K, Leveille E, Arce D, Khanduja D, Feldhahn N, Song J, Chan W, Chen J, Taketo M, Schjerven H, Jellusova J, Kothari S, Davids M, Müschen M. Repurposing GSK3B Small Molecule Inhibitors for Refractory Lymphoid Malignancies. Blood 2023, 142: 2818. DOI: 10.1182/blood-2023-190522.Peer-Reviewed Original ResearchFavorable safety profileSmall molecule inhibitorsT-lymphoid malignancyΒ-catenin degradationLymphoid malignanciesΒ-cateninInteractome studiesSafety profileClinical trialsMolecule inhibitorsLow nanomolar concentrationsΒ-catenin accumulationSolid tumorsRefractory B-cell malignanciesCell deathPK/PD profilesZinc finger proteinRefractory lymphoid malignanciesChIP-seq analysisPhase 2 trialMYC target genesT-cell lymphomaColony formationRapid nuclear accumulationWnt/β-catenin pathwayDynamic Recruitment of Inhibitory Complexes Controls Oncogenic Signaling in B-Cell Malignancies
Sun R, Lee J, Robinson M, Kume K, Ma N, Cosgun K, Chan L, Antoshkina I, Khanduja D, Leveille E, Katz S, Chen J, Paietta E, Vaidehi N, Müschen M. Dynamic Recruitment of Inhibitory Complexes Controls Oncogenic Signaling in B-Cell Malignancies. Blood 2023, 142: 719. DOI: 10.1182/blood-2023-189742.Peer-Reviewed Original ResearchB-cell malignanciesB-cell lymphomaHigher serum levelsMature B-cell lymphomasSoluble CD25Serum levelsOncogenic signalingMouse modelB cellsAggressive B-cell lymphomasAcceleration of diseaseActivation of inhibitoryPoor clinical outcomeCD25 surface expressionB cell subsetsRole of CD25Patient-derived xenograftsB cell populationsB-cell receptor signalingB-cell leukemiaGenetic mouse modelsKnockin mouse modelCell deathMature B cell populationClinical outcomesβ-catenin engages IKZF factors to control lymphopoiesis
Cosgun K, Jumaa H, Robinson M, Xu L, Xiao G, Arce D, Khanduja D, Chan L, Lee J, Schjerven H, Jellusova J, Müschen M. β-catenin engages IKZF factors to control lymphopoiesis. The Journal Of Immunology 2023, 210: 65.09-65.09. DOI: 10.4049/jimmunol.210.supp.65.09.Peer-Reviewed Original ResearchΒ-cateninZinc finger transcription factorFinger transcription factorDramatic nuclear accumulationGSK3β-dependent phosphorylationT cell signalingT cell developmentTCF factorsRepressive complexesTranscriptional controlEnhancer clusterInteractome studiesTranscriptional activationΒ-catenin activationCommon oncogenic driversInhibition of GSK3βTranscription factorsNegative regulationMesenchymal lineagesNuclear accumulationCell deathMYCT-lymphoid malignancyΒ-catenin expressionPromotes Proliferation
2021
Identification of BCL6 As Synthetic Lethality in RAS-Driven B-Cell Transformation
Chan L, Hurtz C, Leveille E, Kume K, Robinson M, Geng H, Cosgun K, Müschen M. Identification of BCL6 As Synthetic Lethality in RAS-Driven B-Cell Transformation. Blood 2021, 138: 792. DOI: 10.1182/blood-2021-148653.Peer-Reviewed Original ResearchRAS-ERK pathwayB cell developmentNormal B cell developmentRAS-ERKCell deathTransplant recipient miceSynthetic lethalityGenetic lesionsBCL6 expressionGenetic ablationChIP-seq analysisRAS-ERK signalingPermanent activationMurine B cell precursorsB cell precursorsDeletion of Bcl6Pharmacological inhibitionDoxycycline-inducible expressionSmall molecule inhibitionNegative B cell selectionSmall molecule inhibitorsExpression of PRDM1BCL6 promoterB-cell transformationExpression of BCL6
2016
Identification of the Energy Stress Sensor AMPK As Therapeutic Target in Acute Lymphoblastic Leukemia
Chan L, Lee J, Cosgun K, Geng H, Xiao G, Chen Z, Ernst T, Hochhaus A, Müschen M. Identification of the Energy Stress Sensor AMPK As Therapeutic Target in Acute Lymphoblastic Leukemia. Blood 2016, 128: 2771. DOI: 10.1182/blood.v128.22.2771.2771.Peer-Reviewed Original ResearchChronic myeloid leukemiaAcute lymphoblastic leukemiaMyeloid leukemiaTransplant recipient miceB-cell lineageLKB1/AMPKLymphoblastic leukemiaRecipient miceCML cellsTherapeutic targetLong-term disease-free survivalPhiladelphia chromosome-positive acute lymphoblastic leukemiaB-cell lineage leukemiaPatient-derived preDisease-free survivalInducible deletionNovel therapeutic targetGlycolytic activityBCR-ABL1 tyrosine kinaseNovel therapeutic avenuesATP levelsMitochondrial functionCell deathInitial remissionClinical characteristicsPTEN opposes negative selection and enables oncogenic transformation of pre-B cells
Shojaee S, Chan LN, Buchner M, Cazzaniga V, Cosgun KN, Geng H, Qiu YH, von Minden MD, Ernst T, Hochhaus A, Cazzaniga G, Melnick A, Kornblau SM, Graeber TG, Wu H, Jumaa H, Müschen M. PTEN opposes negative selection and enables oncogenic transformation of pre-B cells. Nature Medicine 2016, 22: 379-387. PMID: 26974310, PMCID: PMC5178869, DOI: 10.1038/nm.4062.Peer-Reviewed Original Research