2022
T cell characteristics associated with toxicity to immune checkpoint blockade in patients with melanoma
Lozano AX, Chaudhuri AA, Nene A, Bacchiocchi A, Earland N, Vesely MD, Usmani A, Turner BE, Steen CB, Luca BA, Badri T, Gulati GS, Vahid MR, Khameneh F, Harris PK, Chen DY, Dhodapkar K, Sznol M, Halaban R, Newman AM. T cell characteristics associated with toxicity to immune checkpoint blockade in patients with melanoma. Nature Medicine 2022, 28: 353-362. PMID: 35027754, PMCID: PMC8866214, DOI: 10.1038/s41591-021-01623-z.Peer-Reviewed Original ResearchConceptsImmune checkpoint inhibitorsImmune-related adverse eventsT-cell characteristicsIrAE developmentBlood samplesSevere immune-related adverse eventsAnti-PD-1 monotherapyCombination immune checkpoint inhibitorsT-cell receptor sequencingT cell abundanceCell receptor sequencingOrgan system involvementPeripheral blood samplesIrAE onsetCheckpoint inhibitorsAdverse eventsCheckpoint blockadeRNA sequencingTCR clonalityCombination therapyPatient cohortSystem involvementClinical managementTCR diversityImmunological state
2018
Clinical activity and molecular correlates of response to atezolizumab alone or in combination with bevacizumab versus sunitinib in renal cell carcinoma
McDermott DF, Huseni MA, Atkins MB, Motzer RJ, Rini BI, Escudier B, Fong L, Joseph RW, Pal SK, Reeves JA, Sznol M, Hainsworth J, Rathmell WK, Stadler WM, Hutson T, Gore ME, Ravaud A, Bracarda S, Suárez C, Danielli R, Gruenwald V, Choueiri TK, Nickles D, Jhunjhunwala S, Piault-Louis E, Thobhani A, Qiu J, Chen DS, Hegde PS, Schiff C, Fine GD, Powles T. Clinical activity and molecular correlates of response to atezolizumab alone or in combination with bevacizumab versus sunitinib in renal cell carcinoma. Nature Medicine 2018, 24: 749-757. PMID: 29867230, PMCID: PMC6721896, DOI: 10.1038/s41591-018-0053-3.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overAntibodies, MonoclonalAntibodies, Monoclonal, HumanizedAntineoplastic Combined Chemotherapy ProtocolsBevacizumabCarcinoma, Renal CellFemaleGene Expression ProfilingGene Expression Regulation, NeoplasticHumansKaplan-Meier EstimateKidney NeoplasmsMaleMiddle AgedMutationSunitinibTreatment OutcomeConceptsProgression-free survivalPFS hazard ratioRenal cell carcinomaHazard ratioPD-L1Cell carcinomaTreatment-naive metastatic renal-cell carcinomaRandomized phase 2 studyMetastatic renal cell carcinomaInflammatory gene expression signatureExploratory biomarker analysisPhase 2 studyImmune checkpoint blockadeCo-primary endpointsPrediction of outcomeAtezolizumab monotherapyCheckpoint blockadeGene expression signaturesNeoantigen burdenT effectorsClinical activityAtezolizumabBevacizumabTumor mutationsSunitinib
2017
Changes in serum interleukin-8 (IL-8) levels reflect and predict response to anti-PD-1 treatment in melanoma and non-small-cell lung cancer patients
Sanmamed MF, Perez-Gracia JL, Schalper KA, Fusco JP, Gonzalez A, Rodriguez-Ruiz ME, Oñate C, Perez G, Alfaro C, Martín-Algarra S, Andueza MP, Gurpide A, Morgado M, Wang J, Bacchiocchi A, Halaban R, Kluger H, Chen L, Sznol M, Melero I. Changes in serum interleukin-8 (IL-8) levels reflect and predict response to anti-PD-1 treatment in melanoma and non-small-cell lung cancer patients. Annals Of Oncology 2017, 28: 1988-1995. PMID: 28595336, PMCID: PMC5834104, DOI: 10.1093/annonc/mdx190.Peer-Reviewed Original ResearchConceptsSerum IL-8 levelsIL-8 levelsCell lung cancer patientsLung cancer patientsNSCLC patientsCancer patientsMelanoma patientsPD1/PD-L1 therapyAnti-PD-1 treatmentAnti-PD-1 blockadeSerum interleukin-8 levelsPD-L1 therapyImmune checkpoint blockadeInterleukin-8 levelsLonger overall survivalBiomarkers of responseMann-Whitney testCheckpoint blockadeFirst doseOverall survivalStrength of associationClinical benefitReceiver operation characteristic curveMetastatic melanomaSurrogate biomarkerEndocrine-related adverse events associated with immune checkpoint blockade and expert insights on their management
Sznol M, Postow MA, Davies MJ, Pavlick AC, Plimack ER, Shaheen M, Veloski C, Robert C. Endocrine-related adverse events associated with immune checkpoint blockade and expert insights on their management. Cancer Treatment Reviews 2017, 58: 70-76. PMID: 28689073, DOI: 10.1016/j.ctrv.2017.06.002.Peer-Reviewed Original ResearchConceptsImmune-related adverse eventsImmune checkpoint inhibitorsCytotoxic T-lymphocyte antigen-4Checkpoint inhibitorsEndocrine eventsAdverse eventsTypes of irAEsEndocrine-related adverse eventsT-lymphocyte antigen-4Replacement of hormonesDeath receptor-1Target organ damageClose patient monitoringImmune checkpoint blockadeNon-specific symptomsAppropriate laboratory testingImmune checkpoint proteinsCheckpoint blockadeGrade 1/2Organ damageClinical benefitAdrenal glandAntigen-4Endocrine functionGastrointestinal tract
2015
Combination Therapy with Anti–CTLA-4 and Anti–PD-1 Leads to Distinct Immunologic Changes In Vivo
Das R, Verma R, Sznol M, Boddupalli CS, Gettinger SN, Kluger H, Callahan M, Wolchok JD, Halaban R, Dhodapkar MV, Dhodapkar KM. Combination Therapy with Anti–CTLA-4 and Anti–PD-1 Leads to Distinct Immunologic Changes In Vivo. The Journal Of Immunology 2015, 194: 950-959. PMID: 25539810, PMCID: PMC4380504, DOI: 10.4049/jimmunol.1401686.Peer-Reviewed Original ResearchMeSH KeywordsAntibodies, MonoclonalAntigens, SurfaceAntineoplastic Combined Chemotherapy ProtocolsCTLA-4 AntigenCytokinesGene Expression ProfilingGene Expression Regulation, NeoplasticHumansImmunophenotypingIpilimumabLymphocytes, Tumor-InfiltratingNeoplasmsNivolumabProgrammed Cell Death 1 ReceptorSignal TransductionT-Lymphocyte SubsetsConceptsPD-1T cellsCTLA-4Checkpoint blockadeCombination therapyReceptor occupancyCombination immune checkpoint blockadeCTLA-4 immune checkpointsPD-1 receptor occupancyTransitional memory T cellsAnti-PD-1 therapyAnti CTLA-4Immune-based combinationsPD-1 blockadeSoluble IL-2RImmune checkpoint blockadeNK cell functionMemory T cellsTherapy-induced changesT cell activationTumor T cellsHuman T cellsRemarkable antitumor effectImmunologic changesImmunologic effects
2014
Induction of Antigen-Specific Immunity with a Vaccine Targeting NY-ESO-1 to the Dendritic Cell Receptor DEC-205
Dhodapkar MV, Sznol M, Zhao B, Wang D, Carvajal RD, Keohan ML, Chuang E, Sanborn RE, Lutzky J, Powderly J, Kluger H, Tejwani S, Green J, Ramakrishna V, Crocker A, Vitale L, Yellin M, Davis T, Keler T. Induction of Antigen-Specific Immunity with a Vaccine Targeting NY-ESO-1 to the Dendritic Cell Receptor DEC-205. Science Translational Medicine 2014, 6: 232ra51. PMID: 24739759, PMCID: PMC6151129, DOI: 10.1126/scitranslmed.3008068.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAged, 80 and overAntigens, CDAntigens, NeoplasmCancer VaccinesCytokinesDendritic CellsDose-Response Relationship, ImmunologicEpitopesFemaleHumansImmunity, CellularImmunity, HumoralImmunoglobulin GInterferon-gammaLectins, C-TypeLymphocyte SubsetsMaleMembrane ProteinsMiddle AgedMinor Histocompatibility AntigensReceptors, Cell SurfaceT-LymphocytesVaccinationConceptsNY-ESO-1Immune checkpoint inhibitorsDendritic cellsToll-like receptorsTumor regressionNY-ESO-1-expressing tumorsTumor antigen NY-ESO-1Presence of DCsRobust antigen-specific immune responsesAntigen-specific immune responsesAntigen NY-ESO-1Combination immunotherapy strategiesStabilization of diseaseGrade 3 toxicityObjective tumor regressionImmune checkpoint blockadeT cell immunityAntigen-specific immunityPhase 1 trialTumor-associated antigensReceptor-specific monoclonal antibodyCheckpoint inhibitorsAdvanced malignanciesCheckpoint blockadeMedian duration