2017
JAK1/STAT3 Activation through a Proinflammatory Cytokine Pathway Leads to Resistance to Molecularly Targeted Therapy in Non–Small Cell Lung Cancer
Shien K, Papadimitrakopoulou VA, Ruder D, Behrens C, Shen L, Kalhor N, Song J, Lee JJ, Wang J, Tang X, Herbst RS, Toyooka S, Girard L, Minna JD, Kurie JM, Wistuba II, Izzo JG. JAK1/STAT3 Activation through a Proinflammatory Cytokine Pathway Leads to Resistance to Molecularly Targeted Therapy in Non–Small Cell Lung Cancer. Molecular Cancer Therapeutics 2017, 16: 2234-2245. PMID: 28729401, PMCID: PMC5628136, DOI: 10.1158/1535-7163.mct-17-0148.Peer-Reviewed Original ResearchMeSH KeywordsAgedApoptosisCancer-Associated FibroblastsCarcinoma, Non-Small-Cell LungCell Line, TumorCytokinesDrug Resistance, NeoplasmEpithelial-Mesenchymal TransitionFemaleGene Expression Regulation, NeoplasticHumansInterleukin-6Janus Kinase 1MaleMiddle AgedMolecular Targeted TherapyNeoplasm StagingOncostatin MReceptors, Oncostatin MSignal TransductionSTAT3 Transcription FactorConceptsNon-small cell lung cancerCancer-associated fibroblastsNSCLC cellsOSM receptorMajority of patientsCell lung cancerProinflammatory cytokine IL6Proinflammatory cytokine pathwaysSignificant therapeutic advancesClinical NSCLC samplesMol Cancer TherSTAT3-dependent mannerOSMR expressionDrug-induced apoptosisWorse prognosisPrognostic significanceLung cancerTherapeutic advancesCytokines IL6Molecule expressionNSCLC samplesCytokine pathwaysLung adenocarcinomaTargeted drugsParacrine mechanisms
2013
An Epithelial–Mesenchymal Transition Gene Signature Predicts Resistance to EGFR and PI3K Inhibitors and Identifies Axl as a Therapeutic Target for Overcoming EGFR Inhibitor Resistance
Byers LA, Diao L, Wang J, Saintigny P, Girard L, Peyton M, Shen L, Fan Y, Giri U, Tumula PK, Nilsson MB, Gudikote J, Tran H, Cardnell RJ, Bearss DJ, Warner SL, Foulks JM, Kanner SB, Gandhi V, Krett N, Rosen ST, Kim ES, Herbst RS, Blumenschein GR, Lee JJ, Lippman SM, Ang KK, Mills GB, Hong WK, Weinstein JN, Wistuba II, Coombes KR, Minna JD, Heymach JV. An Epithelial–Mesenchymal Transition Gene Signature Predicts Resistance to EGFR and PI3K Inhibitors and Identifies Axl as a Therapeutic Target for Overcoming EGFR Inhibitor Resistance. Clinical Cancer Research 2013, 19: 279-290. PMID: 23091115, PMCID: PMC3567921, DOI: 10.1158/1078-0432.ccr-12-1558.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAxl Receptor Tyrosine KinaseCarcinoma, Non-Small-Cell LungCell Line, TumorCluster AnalysisDrug Resistance, NeoplasmEpithelial-Mesenchymal TransitionErbB ReceptorsGene Expression ProfilingHumansLung NeoplasmsMiceNeoplasm MetastasisPhosphoinositide-3 Kinase InhibitorsProtein Kinase InhibitorsProteomeProteomicsProto-Oncogene ProteinsReceptor Protein-Tyrosine KinasesRecurrenceReproducibility of ResultsConceptsEpithelial-mesenchymal transitionPotential therapeutic targetEGFR inhibitor resistanceTherapeutic targetEMT signatureInhibitor resistanceMesenchymal transition gene signatureMesenchymal cellsCell linesBiomarker-Integrated ApproachesPI3K/Akt pathway inhibitorNon-small cell lung carcinoma cell lineEGFR mutation statusReceptor tyrosine kinase AXLNSCLC cell linesPI3K/Akt inhibitorCell lung carcinoma cell lineGene expression profilesTyrosine kinase AXLLung carcinoma cell linePI3K inhibitorsDrug response analysisAkt pathway inhibitorCarcinoma cell linesErlotinib resistance