2019
Neuregulin Signaling Is a Mechanism of Therapeutic Resistance in Head and Neck Squamous Cell Carcinoma
Baro M, Lopez Sambrooks C, Burtness BA, Lemmon MA, Contessa JN. Neuregulin Signaling Is a Mechanism of Therapeutic Resistance in Head and Neck Squamous Cell Carcinoma. Molecular Cancer Therapeutics 2019, 18: 2124-2134. PMID: 31387891, PMCID: PMC6825559, DOI: 10.1158/1535-7163.mct-19-0163.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibodies, MonoclonalCell Line, TumorCell ProliferationCell SurvivalCetuximabDrug Resistance, NeoplasmFemaleHead and Neck NeoplasmsHumansMiceNeuregulinsProto-Oncogene Proteins c-aktReceptor, ErbB-3Signal TransductionSquamous Cell Carcinoma of Head and NeckUp-RegulationXenograft Model Antitumor AssaysConceptsNeck squamous cell carcinomaSquamous cell carcinomaTherapeutic resistanceCell carcinomaResistant cellsConcentrations of cetuximabEFM-19 cellsCetuximab-resistant cellsActionable therapeutic targetsHNSCC cell linesTumor growth experimentsInhibition of EGFRErbB3 antibodyNeuregulin expressionOverall survivalTreatment regimensCetuximab resistanceTherapeutic targetAutocrine loopLocal controlTumor growthRadiotherapyEGFR inhibitionCetuximabNeuregulin Signaling
2018
Oligosaccharyltransferase Inhibition Overcomes Therapeutic Resistance to EGFR Tyrosine Kinase Inhibitors
Lopez Sambrooks C, Baro M, Quijano A, Narayan A, Cui W, Greninger P, Egan R, Patel A, Benes CH, Saltzman WM, Contessa JN. Oligosaccharyltransferase Inhibition Overcomes Therapeutic Resistance to EGFR Tyrosine Kinase Inhibitors. Cancer Research 2018, 78: canres.0505.2018. PMID: 30026325, PMCID: PMC6125176, DOI: 10.1158/0008-5472.can-18-0505.Peer-Reviewed Original ResearchConceptsMutant NSCLCMutant non-small cell lung cancerNon-small cell lung cancerSignificant tumor growth delayEGFR-TKI treatmentCell lung cancerTyrosine kinase inhibitor resistanceEGFR tyrosine kinase inhibitor resistanceLung cancer cell linesNGI-1Tumor growth delayEffective therapeutic targetCell linesKinase inhibitor resistanceTumor cell viabilityH1975 xenograftsCancer cell linesTKI treatmentComplex transmembrane proteinsEGFR-TKILung cancerTumor responseCell cycle arrestPreclinical modelsTherapeutic strategies
2014
Dasatinib worsens the effect of cetuximab in combination with fractionated radiotherapy in FaDu- and A431-derived xenografted tumours
Baro M, de Llobet L, Figueras A, Skvortsova I, Mesia R, Balart J. Dasatinib worsens the effect of cetuximab in combination with fractionated radiotherapy in FaDu- and A431-derived xenografted tumours. British Journal Of Cancer 2014, 111: 1310-1318. PMID: 25077442, PMCID: PMC4183853, DOI: 10.1038/bjc.2014.432.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntibodies, Monoclonal, HumanizedAntineoplastic Combined Chemotherapy ProtocolsCell Line, TumorCell ProliferationCetuximabDasatinibDNA ReplicationDose Fractionation, RadiationFemaleHumansMiceMice, NudeNeovascularization, PathologicPyrimidinesRas ProteinsSrc-Family KinasesThiazolesTumor BurdenVascular Endothelial Growth Factor AXenograft Model Antitumor Assays
2012
Development and characterization of an isogenic cell line with a radioresistant phenotype
de Llobet L, Baro M, Figueras A, Modolell I, Da Silva M, Muñoz P, Navarro A, Mesia R, Balart J. Development and characterization of an isogenic cell line with a radioresistant phenotype. Clinical And Translational Oncology 2012, 15: 189-197. PMID: 22855182, DOI: 10.1007/s12094-012-0898-8.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosisBlotting, WesternCarcinoma, Squamous CellCell CycleCell MovementCell ProliferationDose-Response Relationship, RadiationFemaleFlow CytometryGamma RaysHumansHyaluronan ReceptorsMiceMice, NudePhenotypeRadiation ToleranceTumor Cells, CulturedVascular Endothelial Growth Factor AWound HealingXenograft Model Antitumor AssaysConceptsCell linesIsogenic cancer cell linesIsogenic cell linesRadiation-induced DNA fragmentationCancer cellsSpecific cell functionsDNA repair abilityBiological traitsAppropriate study modelsCell cycle distributionVascular endothelial growth factor (VEGF) secretionMolecular characterizationCell survivalDNA fragmentationRadioresistant phenotypeCell growthCancer cell linesSecretion of VEGFGrowth factor secretionSingle cellsCycle distributionCell functionRepair abilityRadiation resistanceWestern blot
2010
Cetuximab May Inhibit Tumor Growth and Angiogenesis Induced by Ionizing Radiation: A Preclinical Rationale for Maintenance Treatment After Radiotherapy
Pueyo G, Mesia R, Figueras A, Lozano A, Baro M, Vazquez S, Capella G, Balart J. Cetuximab May Inhibit Tumor Growth and Angiogenesis Induced by Ionizing Radiation: A Preclinical Rationale for Maintenance Treatment After Radiotherapy. The Oncologist 2010, 15: 976-986. PMID: 20798193, PMCID: PMC3228040, DOI: 10.1634/theoncologist.2008-0290.Peer-Reviewed Original ResearchConceptsEpidermal growth factor receptorKi-67 indexMicrovessel densityAggressive phenotypeTumor growthHigh Ki-67 indexCetuximab maintenance therapyMicroscopic residual diseaseBenefits of radiotherapyVascular endothelial growth factor (VEGF) secretionUntreated cellsGrowth factor secretionMechanism of actionCetuximab maintenanceGrowth factor receptorMaintenance therapyAdjuvant therapyPreclinical rationaleMaintenance treatmentResidual diseaseCarcinoma cell linesClinical evaluationExtracellular signal-related kinaseIrradiated cellsCetuximab