2024
CTLA4 blockade abrogates KEAP1/STK11-related resistance to PD-(L)1 inhibitors
Skoulidis F, Araujo H, Do M, Qian Y, Sun X, Cobo A, Le J, Montesion M, Palmer R, Jahchan N, Juan J, Min C, Yu Y, Pan X, Arbour K, Vokes N, Schmidt S, Molkentine D, Owen D, Memmott R, Patil P, Marmarelis M, Awad M, Murray J, Hellyer J, Gainor J, Dimou A, Bestvina C, Shu C, Riess J, Blakely C, Pecot C, Mezquita L, Tabbó F, Scheffler M, Digumarthy S, Mooradian M, Sacher A, Lau S, Saltos A, Rotow J, Johnson R, Liu C, Stewart T, Goldberg S, Killam J, Walther Z, Schalper K, Davies K, Woodcock M, Anagnostou V, Marrone K, Forde P, Ricciuti B, Venkatraman D, Van Allen E, Cummings A, Goldman J, Shaish H, Kier M, Katz S, Aggarwal C, Ni Y, Azok J, Segal J, Ritterhouse L, Neal J, Lacroix L, Elamin Y, Negrao M, Le X, Lam V, Lewis W, Kemp H, Carter B, Roth J, Swisher S, Lee R, Zhou T, Poteete A, Kong Y, Takehara T, Paula A, Parra Cuentas E, Behrens C, Wistuba I, Zhang J, Blumenschein G, Gay C, Byers L, Gibbons D, Tsao A, Lee J, Bivona T, Camidge D, Gray J, Lieghl N, Levy B, Brahmer J, Garassino M, Gandara D, Garon E, Rizvi N, Scagliotti G, Wolf J, Planchard D, Besse B, Herbst R, Wakelee H, Pennell N, Shaw A, Jänne P, Carbone D, Hellmann M, Rudin C, Albacker L, Mann H, Zhu Z, Lai Z, Stewart R, Peters S, Johnson M, Wong K, Huang A, Winslow M, Rosen M, Winters I, Papadimitrakopoulou V, Cascone T, Jewsbury P, Heymach J. CTLA4 blockade abrogates KEAP1/STK11-related resistance to PD-(L)1 inhibitors. Nature 2024, 1-10. PMID: 39385035, DOI: 10.1038/s41586-024-07943-7.Peer-Reviewed Original ResearchNon-small-cell lung cancerImmune checkpoint blockadeTumor suppressor genePD-L1Advanced non-small-cell lung cancerCD8+ cytotoxic T cellsSuppressor geneCD4+ effector cellsDual immune checkpoint blockadeMouse modelPD-L1 inhibitor durvalumabSuppressive myeloid cellsPD-L1 inhibitorsImmune-related toxicitiesPD-(L)1 inhibitorsAnti-tumor efficacyCytotoxic T cellsMyeloid cell compartmentAdverse tumor microenvironmentAssociated with higher ratesAnti-tumor activityLoss of Keap1CTLA4 inhibitorsSTK11 alterationsCheckpoint blockade
2014
Acquired Resistance of EGFR-Mutant Lung Adenocarcinomas to Afatinib plus Cetuximab Is Associated with Activation of mTORC1
Pirazzoli V, Nebhan C, Song X, Wurtz A, Walther Z, Cai G, Zhao Z, Jia P, de Stanchina E, Shapiro EM, Gale M, Yin R, Horn L, Carbone DP, Stephens PJ, Miller V, Gettinger S, Pao W, Politi K. Acquired Resistance of EGFR-Mutant Lung Adenocarcinomas to Afatinib plus Cetuximab Is Associated with Activation of mTORC1. Cell Reports 2014, 7: 999-1008. PMID: 24813888, PMCID: PMC4074596, DOI: 10.1016/j.celrep.2014.04.014.Peer-Reviewed Original ResearchMeSH KeywordsAdenocarcinomaAdenocarcinoma of LungAfatinibAnimalsAntibodies, Monoclonal, HumanizedAntineoplastic Combined Chemotherapy ProtocolsCell Line, TumorCetuximabDrug Resistance, NeoplasmErbB ReceptorsHumansLung NeoplasmsMechanistic Target of Rapamycin Complex 1MiceMice, NudeMice, TransgenicMultiprotein ComplexesMutationQuinazolinesRandom AllocationTOR Serine-Threonine KinasesXenograft Model Antitumor AssaysConceptsTyrosine kinase inhibitorsFirst-generation tyrosine kinase inhibitorEGFR-mutant lung adenocarcinomaLung adenocarcinomaMechanisms of resistanceEGFR antibody cetuximabPotential therapeutic strategyBiopsy specimensAntibody cetuximabDrug combinationsMouse modelTherapeutic strategiesAfatinibAddition of rapamycinCetuximabDual inhibitionAcquired ResistanceKinase inhibitorsGenomic alterationsAdenocarcinomaPatientsActivationGenomic mechanismsDrugsMTORC1 activation