2022
Tumor mutational burden (TMB) in immune checkpoint inhibitor (ICI)-naïve and -experienced patients with metastatic melanoma treated with lifileucel, a tumor-infiltrating lymphocyte (TIL) cell therapy.
Kluger H, Sarnaik A, Chesney J, Lewis K, Weber J, Gogas H, In G, Terheyden P, Lee S, Jagasia M, Masteller E, Qi R, Gontcharova V, Shi W, Fiaz R, Sulur G, Wu R, Chen G, Thomas S. Tumor mutational burden (TMB) in immune checkpoint inhibitor (ICI)-naïve and -experienced patients with metastatic melanoma treated with lifileucel, a tumor-infiltrating lymphocyte (TIL) cell therapy. Journal Of Clinical Oncology 2022, 40: 9524-9524. DOI: 10.1200/jco.2022.40.16_suppl.9524.Peer-Reviewed Original ResearchHigh tumor mutational burdenObjective response rateTumor mutational burdenCase-control studyAdvanced melanomaMetastatic melanomaTumor harvestResponse rateCell therapyT cell receptor repertoireLymphocyte cell therapyTumor microenvironment profilesImmune checkpoint inhibitorsPercentage of patientsTreatment of patientsHigh TMB groupMut/MbLogistic regression analysisICI exposureICI therapyRECIST v1.1Checkpoint inhibitorsStudy entryTMB groupBRAF status
2020
Systemic Therapy for Brain Metastases: Melanoma
Weiss S, Kluger H. Systemic Therapy for Brain Metastases: Melanoma. 2020, 235-244. DOI: 10.1007/978-3-030-42958-4_16.Peer-Reviewed Original ResearchMelanoma brain metastasesIntracranial response ratesBrain metastasesClinical trialsResponse rateAnti-PD-1 monotherapyCentral nervous system metastasesExtracranial metastatic sitesNervous system metastasesSystemic therapy approachesMultiple clinical trialsSystemic therapySystemic treatmentAdvanced melanomaImmune checkpointsMetastatic sitesTherapeutic challengePatient survivalMetastatic melanomaExtracranial sitesStereotactic radiosurgeryMetastasisMutant BRAFSignificant causeMEK inhibitionMelanoma Brain Metastases: Unique Biology and Implications for Systemic Therapy
Margolin K, Davies M, Kluger H, Tawbi H. Melanoma Brain Metastases: Unique Biology and Implications for Systemic Therapy. 2020, 1421-1454. DOI: 10.1007/978-3-030-05070-2_65.Peer-Reviewed Original ResearchMelanoma brain metastasesCentral nervous systemSystemic therapyClinical benefitMainstay of therapyUnique patient populationDuration of responseHigh response rateFuture drug developmentMelanoma metastaticBrain metastasesDevastating complicationDurable responsesImmune checkpointsImmune therapyPatient populationMetastatic melanomaEffective modalityStereotactic radiosurgeryNervous systemResponse rateTherapyMultidisciplinary approachDrug developmentMelanoma
2019
Baseline tumor-immune signatures associated with response to bempegaldesleukin (NKTR-214) and nivolumab.
Hurwitz M, Cho D, Balar A, Curti B, Siefker-Radtke A, Sznol M, Kluger H, Bernatchez C, Fanton C, Iacucci E, Liu Y, Nguyen T, Overwijk W, Zalevsky J, Tagliaferri M, Hoch U, Diab A. Baseline tumor-immune signatures associated with response to bempegaldesleukin (NKTR-214) and nivolumab. Journal Of Clinical Oncology 2019, 37: 2623-2623. DOI: 10.1200/jco.2019.37.15_suppl.2623.Peer-Reviewed Original ResearchPD-L1CD8 TILsResponse rateAnti-PD-1 therapyOngoing phase 1/2 studyPre-treatment tumor biopsiesTumor microenvironmentBaseline immune signaturesSurface PD-1Tumor immune signaturePhase 1/2 studyAdvanced solid tumorsUrothelial carcinoma patientsFavorable tumor microenvironmentBaseline immune phenotypeLow groupMedian valueRECIST 1.1Baseline demographicsImmune signaturesPrognostic factorsCarcinoma patientsPD-1Biomarker subgroupsImmune cellsMelanoma Brain Metastases: Unique Biology and Implications for Systemic Therapy
Margolin K, Davies M, Kluger H, Tawbi H. Melanoma Brain Metastases: Unique Biology and Implications for Systemic Therapy. 2019, 1-34. DOI: 10.1007/978-3-319-46029-1_65-1.Peer-Reviewed Original ResearchMelanoma brain metastasesCentral nervous systemSystemic therapyClinical benefitMainstay of therapyUnique patient populationDuration of responseHigh response rateFuture drug developmentMelanoma metastaticBrain metastasesDevastating complicationDurable responsesImmune checkpointsImmune therapyPatient populationMetastatic melanomaEffective modalityStereotactic radiosurgeryNervous systemResponse rateTherapyMultidisciplinary approachDrug developmentMelanoma
2017
PD-L1 Studies Across Tumor Types, Its Differential Expression and Predictive Value in Patients Treated with Immune Checkpoint Inhibitors
Kluger HM, Zito CR, Turcu G, Baine M, Zhang H, Adeniran A, Sznol M, Rimm DL, Kluger Y, Chen L, Cohen JV, Jilaveanu LB. PD-L1 Studies Across Tumor Types, Its Differential Expression and Predictive Value in Patients Treated with Immune Checkpoint Inhibitors. Clinical Cancer Research 2017, 23: 4270-4279. PMID: 28223273, PMCID: PMC5540774, DOI: 10.1158/1078-0432.ccr-16-3146.Peer-Reviewed Original ResearchConceptsNon-small cell lung cancerPD-L1 expressionRenal cell carcinomaPD-1 inhibitorsCell carcinomaImmune-infiltrating cellsMelanoma patientsPD-L1Tumor cellsTumor typesTumor-associated inflammatory cellsCTLA-4 inhibitorsCell lung cancerRenal cell carcinoma cellsHigh response rateClin Cancer ResCell linesMelanoma tumor cellsPD-1Multivariable analysisNSCLC specimensInflammatory cellsLung cancerTissue microarrayResponse rateComparing available criteria for measuring brain metastasis response to immunotherapy
Qian JM, Mahajan A, Yu JB, Tsiouris AJ, Goldberg SB, Kluger HM, Chiang VL. Comparing available criteria for measuring brain metastasis response to immunotherapy. Journal Of Neuro-Oncology 2017, 132: 479-485. PMID: 28275886, DOI: 10.1007/s11060-017-2398-8.Peer-Reviewed Original ResearchConceptsRECIST 1.1Brain lesionsBrain metastasesDurable responsesAdditional patientsNeuro-Oncology Working GroupBrain metastasis responseBrain metastasis patientsUntreated brain metastasesStandardized response criteriaBrain lesion sizeHigh-grade gliomasSimilar clinical trialsHigh-resolution MRIMetastasis patientsMetastasis responseOngoing trialsClinical trialsNovel therapiesResponse assessmentDiscordant casesLesion sizePatientsResponse rateLongest diameter
2016
PD-1 Blockade with Pembrolizumab in Advanced Merkel-Cell Carcinoma
Nghiem PT, Bhatia S, Lipson EJ, Kudchadkar RR, Miller NJ, Annamalai L, Berry S, Chartash EK, Daud A, Fling SP, Friedlander PA, Kluger HM, Kohrt HE, Lundgren L, Margolin K, Mitchell A, Olencki T, Pardoll DM, Reddy SA, Shantha EM, Sharfman WH, Sharon E, Shemanski LR, Shinohara MM, Sunshine JC, Taube JM, Thompson JA, Townson SM, Yearley JH, Topalian SL, Cheever MA. PD-1 Blockade with Pembrolizumab in Advanced Merkel-Cell Carcinoma. New England Journal Of Medicine 2016, 374: 2542-2552. PMID: 27093365, PMCID: PMC4927341, DOI: 10.1056/nejmoa1603702.Peer-Reviewed Original ResearchConceptsAdvanced Merkel cell carcinomaMerkel cell carcinomaObjective response rateVirus-positive tumorsVirus-negative tumorsResponse rateDrug-related grade 3MCPyV-specific T cellsDose of pembrolizumabImmune inhibitory pathwaysPrevious systemic therapyTumor viral statusPD-1 blockadePrimary end pointFirst-line therapyProgression-free survivalResponse Evaluation CriteriaAggressive skin cancerMCPyV-positive tumorsMerkel cell polyomavirusAdverse eventsPartial responseSystemic therapyComplete responsePD-1
2010
A phase 2 trial of dasatinib in advanced melanoma
Kluger HM, Dudek AZ, McCann C, Ritacco J, Southard N, Jilaveanu LB, Molinaro A, Sznol M. A phase 2 trial of dasatinib in advanced melanoma. Cancer 2010, 117: 2202-2208. PMID: 21523734, PMCID: PMC3116034, DOI: 10.1002/cncr.25766.Peer-Reviewed Original ResearchConceptsProgression-free survivalC-kit mutationsPhase 2 trialResponse ratePartial responseMedian progression-free survivalMelanoma cell proliferationDaily dasatinibMucosal primaryPFS ratesStarting dosageCommon toxicitiesUnresectable melanomaAdvanced melanomaPleural effusionMelanoma patientsPredictive biomarkersMinor responseCombination trialsTumor assessmentDose reductionPatientsPrespecified endpointsDasatinibMelanoma
2009
Chemotherapy and biologic therapies for melanoma: do they work?
Jilaveanu LB, Aziz SA, Kluger HM. Chemotherapy and biologic therapies for melanoma: do they work? Clinics In Dermatology 2009, 27: 614-625. PMID: 19880049, DOI: 10.1016/j.clindermatol.2008.09.020.Peer-Reviewed Original ResearchConceptsResponse rateMinority of patientsSubset of patientsInterleukin-2 (IL-2) resultsImproved response ratesIncidence of melanomaIdentification of predictorsCombination of agentsUnresectable diseaseBiologic therapyOlder regimensOverall survivalStandard chemotherapyTherapeutic optionsClinical trialsNew agentsSmall molecule inhibitorsSingle agentImmune systemMonoclonal antibodiesDeath rateMelanomaMalignant melanocytesChemotherapyMolecule inhibitors
2004
Automated Quantitative Analysis of Tissue Microarrays Reveals an Association between High Bcl-2 Expression and Improved Outcome in Melanoma
Divito KA, Berger AJ, Camp RL, Dolled-Filhart M, Rimm DL, Kluger HM. Automated Quantitative Analysis of Tissue Microarrays Reveals an Association between High Bcl-2 Expression and Improved Outcome in Melanoma. Cancer Research 2004, 64: 8773-8777. PMID: 15574790, DOI: 10.1158/0008-5472.can-04-1387.Peer-Reviewed Original ResearchConceptsBcl-2 expressionHigh Bcl-2 expressionTissue microarrayMetastatic specimensResponse rateSmall cohortProgression-free survivalImproved response ratesLarge patient cohortMelanoma patientsClark levelEntire cohortBreslow depthClinical variablesPatient cohortMetastatic melanomaContinuous index scoreBetter outcomesIndex scoreMelanoma specimensCohortMelanomaBcl-2PatientsOutcomes