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
2018
B-Cell-Specific Diversion of Glucose Carbon Utilization Reveals a Unique Vulnerability in B Cell Malignancies
Xiao G, Chan LN, Klemm L, Braas D, Chen Z, Geng H, Zhang QC, Aghajanirefah A, Cosgun KN, Sadras T, Lee J, Mirzapoiazova T, Salgia R, Ernst T, Hochhaus A, Jumaa H, Jiang X, Weinstock DM, Graeber TG, Müschen M. B-Cell-Specific Diversion of Glucose Carbon Utilization Reveals a Unique Vulnerability in B Cell Malignancies. Cell 2018, 173: 470-484.e18. PMID: 29551267, PMCID: PMC6284818, DOI: 10.1016/j.cell.2018.02.048.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsB-LymphocytesCarbonCell Line, TumorCell SurvivalGlucoseGlucosephosphate DehydrogenaseGlycolysisHumansIkaros Transcription FactorMiceMice, Inbred C57BLMice, Inbred NODOxidative StressPAX5 Transcription FactorPentose Phosphate PathwayPrecursor Cell Lymphoblastic Leukemia-LymphomaProtein Phosphatase 2Proto-Oncogene Proteins c-bcl-2Transcription, GeneticConceptsPentose phosphate pathwayCarbon utilizationSerine/threonine protein phosphatase 2AB-cell transcription factor PAX5Transcription factor Pax5Favor of glycolysisSmall molecule inhibitionPhosphatase 2ATranscriptional repressionRedox homeostasisOncogenic transformationTumor suppressorMolecule inhibitionPP2AGenetic studiesPhosphate pathwayB cell activationEssential roleB-cell malignanciesCell malignanciesB cellsAntioxidant protectionOxidative stressB-cell tumorsCell activation
2016
Phosphorylation of a constrained azacyclic FTY720 analog enhances anti-leukemic activity without inducing S1P receptor activation
McCracken A, McMonigle R, Tessier J, Fransson R, Perryman M, Chen B, Keebaugh A, Selwan E, Barr S, Kim S, Roy S, Liu G, Fallegger D, Sernissi L, Brandt C, Moitessier N, Snider A, Clare S, Müschen M, Huwiler A, Kleinman M, Hanessian S, Edinger A. Phosphorylation of a constrained azacyclic FTY720 analog enhances anti-leukemic activity without inducing S1P receptor activation. Leukemia 2016, 31: 669-677. PMID: 27573555, PMCID: PMC5332311, DOI: 10.1038/leu.2016.244.Peer-Reviewed Original ResearchConceptsS1P receptor activationAnti-leukemic actionProtein phosphatase 2APro-apoptotic targetsPhosphatase 2ASphingosine kinase 2Efficient phosphorylationGenetic approachesReceptor activationKinase 2Nutrient accessChemical biologyPhosphorylationTight inverse correlationDistinct mechanismsS1P receptorsAnti-leukemic activityNovel therapeutic approachesLeukemia progressionReceptor activityMRNA expressionAnti-leukemic agentsActivationEnhanced potencyBiology