2021
Protein Phosphatase 2A as a Therapeutic Target in Small Cell Lung Cancer
Mirzapoiazova T, Xiao G, Mambetsariev B, Nasser MW, Miaou E, Singhal SS, Srivastava S, Mambetsariev I, Nelson MS, Nam A, Behal A, Arvanitis LD, Atri P, Muschen M, Tissot FLH, Miser J, Kovach JS, Sattler M, Batra SK, Kulkarni P, Salgia R. Protein Phosphatase 2A as a Therapeutic Target in Small Cell Lung Cancer. Molecular Cancer Therapeutics 2021, 20: 1820-1835. PMID: 34253596, PMCID: PMC8722383, DOI: 10.1158/1535-7163.mct-21-0013.Peer-Reviewed Original ResearchConceptsProtein phosphatase 2APhosphatase 2ASerine/threonine phosphataseDNA damage responseRegulation of apoptosisSmall molecule inhibitorsGlycolytic ATP productionThreonine phosphataseTwo-dimensional cultureLB100ATP productionMolecule inhibitorsPP2AThree-dimensional spheroid modelEndothelial cell monolayersGlucose uptakeCell viabilitySCLC cellsTherapeutic targetApoptosisCell monolayersMass spectrometrySpheroid modelTumor spheroidsCells
2019
Metabolic gatekeepers to safeguard against autoimmunity and oncogenic B cell transformation
Müschen M. Metabolic gatekeepers to safeguard against autoimmunity and oncogenic B cell transformation. Nature Reviews Immunology 2019, 19: 337-348. PMID: 30890785, DOI: 10.1038/s41577-019-0154-3.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAutoimmunityB-LymphocytesCell ProliferationCell Transformation, NeoplasticEnergy MetabolismHumansMitochondriaOncogenesConceptsB cell receptorAutoreactive B cell receptorsLineage-determining transcription factorsMetabolic gatekeeperMitochondrial ATP productionB-cell transformationTranscription factorsEnergy stressPhosphate pathway activityATP productionCell transformationSmall cytoplasmic volumeCell deathPathway activityB cellsEnergy metabolismCell proliferationCytoplasmic volumeCell receptorGlucose uptakeOncogeneB cell proliferationCellsMetabolic demandsAdditional glucose
2017
Targeting the vulnerability to NAD+ depletion in B-cell acute lymphoblastic leukemia
Takao S, Chien W, Madan V, Lin D, Ding L, Sun Q, Mayakonda A, Sudo M, Xu L, Chen Y, Jiang Y, Gery S, Lill M, Park E, Senapedis W, Baloglu E, Müschen M, Koeffler H. Targeting the vulnerability to NAD+ depletion in B-cell acute lymphoblastic leukemia. Leukemia 2017, 32: 616-625. PMID: 28904384, DOI: 10.1038/leu.2017.281.Peer-Reviewed Original ResearchMeSH KeywordsAcrylamidesAminopyridinesAnimalsAntineoplastic AgentsApoptosisCell Line, TumorCell ProliferationCell SurvivalCytokinesDisease Models, AnimalFemaleHumansMaleMiceNADNicotinamide PhosphoribosyltransferaseP21-Activated KinasesPrecursor B-Cell Lymphoblastic Leukemia-LymphomaSignal TransductionXenograft Model Antitumor AssaysConceptsB-cell acute lymphoblastic leukemiaAcute lymphoblastic leukemiaP21-activated kinase 4Nicotinamide phosphoribosyltransferaseLymphoblastic leukemiaNAMPT inhibitionPatient-derived xenograft murine modelsPrognosis of patientsNicotinamide adenine dinucleotideNovel therapeutic strategiesNicotinic acid supplementationNovel dual inhibitorXenograft murine modelCell growth inhibitionAcid supplementationMurine modelTherapeutic strategiesRate-limiting enzymeCytogenetic abnormalitiesVivo efficacyPatientsNAMPT inhibitorsInhibitory effectDual inhibitorKinase 4
2016
BCOR regulates myeloid cell proliferation and differentiation
Cao Q, Gearhart M, Gery S, Shojaee S, Yang H, Sun H, Lin D, Bai J, Mead M, Zhao Z, Chen Q, Chien W, Alkan S, Alpermann T, Haferlach T, Müschen M, Bardwell V, Koeffler H. BCOR regulates myeloid cell proliferation and differentiation. Leukemia 2016, 30: 1155-1165. PMID: 26847029, PMCID: PMC5131645, DOI: 10.1038/leu.2016.2.Peer-Reviewed Original ResearchConceptsMyeloid cell proliferationHox genesCell proliferationFunction mutationsUbiquitin ligase subunitRNA expression profilingPolycomb groupEnhanced cell proliferationOverexpression allelesHOXA genesExpression profilingGene expressionConditional lossMyeloid differentiationMurine cellsFamily complexesNormal hematopoiesisGenesBone marrow cellsBCOR expressionProtein levelsMechanistic explanationDifferentiation rateAML patient samplesMutations
2015
Identification of FOXM1 as a therapeutic target in B-cell lineage acute lymphoblastic leukaemia
Buchner M, Park E, Geng H, Klemm L, Flach J, Passegué E, Schjerven H, Melnick A, Paietta E, Kopanja D, Raychaudhuri P, Müschen M. Identification of FOXM1 as a therapeutic target in B-cell lineage acute lymphoblastic leukaemia. Nature Communications 2015, 6: 6471. PMID: 25753524, PMCID: PMC4366523, DOI: 10.1038/ncomms7471.Peer-Reviewed Original ResearchMeSH KeywordsAdultAnimalsAntineoplastic AgentsB-LymphocytesCell ProliferationCell SurvivalChildClinical Trials as TopicCyclin-Dependent Kinase Inhibitor p16Drug Resistance, NeoplasmForkhead Box Protein M1Forkhead Box Protein O3Forkhead Transcription FactorsGene Expression Regulation, LeukemicHumansMicePeptidesPrecursor Cell Lymphoblastic Leukemia-LymphomaSignal TransductionSurvival AnalysisThiostreptonXenograft Model Antitumor AssaysConceptsAcute lymphoblastic leukemiaLymphoblastic leukemiaTherapeutic targetB-cell lineage acute lymphoblastic leukemiaFOXM1 levelsAggressive clinical coursePre-B cell receptor checkpointNovel therapeutic targetB cell populationsNormal B cell populationsClinical coursePoor outcomeCure rateNormal B cell developmentFOXM1 inhibitionB cell developmentDrug resistanceFoxm1 deletionFOXM1Colony formationPatientsLeukemiaCell survivalPrognosisTranscriptional inactivation