2023
A Phase II Trial of the CD40 Agonist Sotigalimab (APX005M) in Combination with Nivolumab in Subjects with Metastatic Melanoma with Disease Progression on Anti-PD-1
Weiss S, Sznol M, Shaheen M, Berciano-Guerrero M, Couselo E, Rodríguez-Abreu D, Boni V, Schuchter L, Gonzalez-Cao M, Arance A, Wei W, Ganti A, Hauke R, Berrocal A, Iannotti N, Hsu F, Kluger H. A Phase II Trial of the CD40 Agonist Sotigalimab (APX005M) in Combination with Nivolumab in Subjects with Metastatic Melanoma with Disease Progression on Anti-PD-1. Clinical Cancer Research 2023, 30: 74-81. PMID: 37535056, PMCID: PMC10767304, DOI: 10.1158/1078-0432.ccr-23-0475.Peer-Reviewed Original ResearchConceptsObjective response ratePhase II trialAdverse eventsPartial responseDisease progressionII trialGrade 3 adverse eventsAnti PD-1CD40 agonist antibodyElevated liver functionTreatment-related SAEsCommon adverse eventsActivation of CD40Subset of patientsFavorable safety profileAntigen presenting cellsStable diseaseMedian durationAdvanced melanomaAdditional patientsLiver functionSafety profileMetastatic melanomaPreclinical dataPresenting cells
2021
389 Phase II of CD40 agonistic antibody sotigalimab (APX005M) in combination with nivolumab in subjects with metastatic melanoma with confirmed disease progression on anti-PD-1 therapy
Weiss S, Sznol M, Shaheen M, Berciano-Guerrero M, Felip E, Rodríguez-Abreu D, Arance A, Boni V, Linette G, Schuchter L, Gonzalez-Cao M, Iannotti N, Ganti A, Hauke R, Berrocal A, Filbert E, Kluger H. 389 Phase II of CD40 agonistic antibody sotigalimab (APX005M) in combination with nivolumab in subjects with metastatic melanoma with confirmed disease progression on anti-PD-1 therapy. Journal For ImmunoTherapy Of Cancer 2021, 9: a422-a422. DOI: 10.1136/jitc-2021-sitc2021.389.Peer-Reviewed Original ResearchAnti-PD-1 therapyMelanoma patientsMetastatic melanomaTumor PD-L1 expressionEffective anti-tumor immunityArm phase II trialCD40 agonist antibodyRefractory melanoma patientsRefractory metastatic melanomaAdvanced melanoma patientsPD-1 blockadePD-L1 expressionPhase II trialAnti-tumor immunitySubset of patientsOverall safety profileMajority of AEsOptimal therapeutic applicationReceptor binding profileInstitutional review boardClinical study teamNebraska Medical CenterOpen labelII trialTolerability profile
2020
Melanoma brain metastases have lower T-cell content and microvessel density compared to matched extracranial metastases
Weiss SA, Zito C, Tran T, Heishima K, Neumeister V, McGuire J, Adeniran A, Kluger H, Jilaveanu LB. Melanoma brain metastases have lower T-cell content and microvessel density compared to matched extracranial metastases. Journal Of Neuro-Oncology 2020, 152: 15-25. PMID: 32974852, PMCID: PMC7910371, DOI: 10.1007/s11060-020-03619-0.Peer-Reviewed Original ResearchConceptsT-cell contentMelanoma brain metastasesPD-L1 expressionLower microvessel densityMicrovessel densityBrain metastasesExtracranial metastasesMacrophage contentB cellsProspective therapeutic clinical trialsTumor-infiltrating T cellsImmune-modulating drugsImmune cell subsetsTherapeutic clinical trialsExtracerebral metastasesHigh CD68Low CD3Low CD8Systemic therapyIntracerebral metastasesMetastatic sitesCell subsetsMetastatic melanomaImmune cellsClinical trials19. PLEKHA5 REGULATES TUMOR GROWTH IN METASTATIC MELANOMA
Oria V, Zhang H, Zhu H, Deng G, Zito C, Rane C, Zhang S, Weiss S, Tran T, Adeniran A, Zhang F, Zhou J, Kluger Y, Bosenberg M, Kluger H, Jilaveanu L. 19. PLEKHA5 REGULATES TUMOR GROWTH IN METASTATIC MELANOMA. Neuro-Oncology Advances 2020, 2: ii3-ii3. PMCID: PMC7401364, DOI: 10.1093/noajnl/vdaa073.009.Peer-Reviewed Original ResearchMelanoma brain metastasesBrain metastasesTumor growthPI3K/Akt/mTORCell cycle transitionAkt/mTORGrowth of tumorsS cell cycle transitionPhosphorylation of AktMelanoma patientsPoor prognosisNovel drug targetsPatient populationRegulation of PDCD4Metastatic melanomaUnique cohortXenograft modelClinical relevanceNude miceMetastasisCycle transitionMelanomaBrain developmentKey mediatorMelanoma cellsSystemic 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 inhibitionSurvival after checkpoint inhibitors for metastatic acral, mucosal and uveal melanoma
Klemen ND, Wang M, Rubinstein JC, Olino K, Clune J, Ariyan S, Cha C, Weiss SA, Kluger HM, Sznol M. Survival after checkpoint inhibitors for metastatic acral, mucosal and uveal melanoma. Journal For ImmunoTherapy Of Cancer 2020, 8: e000341. PMID: 32209601, PMCID: PMC7103823, DOI: 10.1136/jitc-2019-000341.Peer-Reviewed Original ResearchConceptsCheckpoint inhibitorsOverall survivalMetastatic melanomaPrimary tumorLocal therapyCutaneous melanomaAnti-PD-1 antibodyAggressive multidisciplinary approachCutaneous primary tumorPrimary tumor histologyMedian overall survivalSingle institutional experienceRare melanoma subtypeMedian OSMetastatic diseaseProgressive diseaseAcral skinComplete responsePD-1PD-L1Uveal tractTumor histologyCombination therapyCTLA-4Longer survival
2019
PLEKHA5 regulates tumor growth in metastatic melanoma
Zhang H, Zhu H, Deng G, Zito CR, Oria VO, Rane CK, Zhang S, Weiss SA, Tran T, Adeniran A, Zhang F, Zhou J, Kluger Y, Bosenberg MW, Kluger HM, Jilaveanu LB. PLEKHA5 regulates tumor growth in metastatic melanoma. Cancer 2019, 126: 1016-1030. PMID: 31769872, PMCID: PMC7147081, DOI: 10.1002/cncr.32611.Peer-Reviewed Original ResearchMeSH KeywordsAdultAgedAnimalsApoptosis Regulatory ProteinsBiomarkers, TumorBrain NeoplasmsCell ProliferationFemaleFollow-Up StudiesGene Expression Regulation, NeoplasticHumansIntracellular Signaling Peptides and ProteinsMaleMelanomaMiceMice, NudeMiddle AgedPhosphatidylinositol 3-KinasesPrognosisProto-Oncogene Proteins c-aktTOR Serine-Threonine KinasesTumor Cells, CulturedXenograft Model Antitumor AssaysYoung AdultConceptsTumor growthDisseminated melanomaExtracranial melanoma metastasesPI3K/AKT/mTOR pathwayMelanoma brain metastasesBetter overall survivalPI3K/Akt/mTORAKT/mTOR pathwayCell proliferationAkt/mTORMelanoma xenograft modelGrowth of tumorsS cell cycle transitionBrain metastasesOverall survivalPoor prognosisMetastatic melanomaMAPK/ERKSubcutaneous inoculationMelanoma metastasesXenograft modelClinical relevanceMelanoma growthNude miceCerebral specimensSeronegative autoimmune autonomic ganglionopathy from dual immune checkpoint inhibition in a patient with metastatic melanoma
Gao CA, Weber UM, Peixoto AJ, Weiss SA. Seronegative autoimmune autonomic ganglionopathy from dual immune checkpoint inhibition in a patient with metastatic melanoma. Journal For ImmunoTherapy Of Cancer 2019, 7: 262. PMID: 31623673, PMCID: PMC6796437, DOI: 10.1186/s40425-019-0748-0.Peer-Reviewed Original ResearchConceptsAutoimmune autonomic ganglionopathyImmune checkpoint inhibitor therapyMetastatic melanomaCheckpoint inhibitorsDual immune checkpoint inhibitionSympathetic nervous system responsesBackgroundImmune checkpoint inhibitorsCardiovascular autonomic testingCheckpoint inhibitor therapyImmune checkpoint inhibitionNervous system responsesEndocrine workupHypotension refractoryAutonomic testingImmunomodulatory therapyAdverse eventsCase presentationAFluid resuscitationInhibitor therapyCheckpoint inhibitionClinical outcomesDisease progressionNew symptomsEndocrine toxicityNivolumabImmunotherapy of Melanoma: Facts and Hopes
Weiss SA, Wolchok JD, Sznol M. Immunotherapy of Melanoma: Facts and Hopes. Clinical Cancer Research 2019, 25: 5191-5201. PMID: 30923036, PMCID: PMC6726509, DOI: 10.1158/1078-0432.ccr-18-1550.Peer-Reviewed Original ResearchConceptsOverall survivalMetastatic diseaseImmune therapyPredictive biomarkersNivolumab/ipilimumab combinationRandomized phase III trialLong-term clinical benefitImmunobiology of tumorsDuration of therapyPhase III trialsLong-term survivorsEffective immune therapyAdjuvant settingIpilimumab combinationMetastatic settingIII trialsPatient subsetsClinical benefitImmune modulationMetastatic melanomaClinical trialsSingle agentTherapyTrue increaseCell therapyPatterns of failure after immunotherapy with checkpoint inhibitors predict durable progression-free survival after local therapy for metastatic melanoma
Klemen ND, Wang M, Feingold PL, Cooper K, Pavri SN, Han D, Detterbeck FC, Boffa DJ, Khan SA, Olino K, Clune J, Ariyan S, Salem RR, Weiss SA, Kluger HM, Sznol M, Cha C. Patterns of failure after immunotherapy with checkpoint inhibitors predict durable progression-free survival after local therapy for metastatic melanoma. Journal For ImmunoTherapy Of Cancer 2019, 7: 196. PMID: 31340861, PMCID: PMC6657062, DOI: 10.1186/s40425-019-0672-3.Peer-Reviewed Original ResearchConceptsThree-year progression-free survivalProgression-free survivalDisease-specific survivalFive-year disease-specific survivalPatterns of failureDurable progression-free survivalLocal therapyStereotactic body radiotherapyMetastatic melanomaNew metastasesPatient selectionIndependent radiological reviewOngoing complete responseResultsFour hundred twentyEvidence of diseaseCNS metastasisCPI treatmentImmunotherapy failureCheckpoint inhibitorsMost patientsProgressive diseaseRadiological reviewComplete responsePD-1PD-L1
2017
Treatment Outcomes for Metastatic Melanoma of Unknown Primary in the New Era: A Single-Institution Study and Review of the Literature
Utter K, Goldman C, Weiss SA, Shapiro RL, Berman RS, Wilson MA, Pavlick AC, Osman I. Treatment Outcomes for Metastatic Melanoma of Unknown Primary in the New Era: A Single-Institution Study and Review of the Literature. Oncology 2017, 93: 249-258. PMID: 28746931, PMCID: PMC5617794, DOI: 10.1159/000478050.Peer-Reviewed Original ResearchConceptsMUP patientsProspective melanoma databaseSystemic therapyUnknown primaryMetastatic melanomaClinical trialsSingle-institution studyMKP patientsTreatment guidelinesPoor outcomeMelanoma databaseWorse outcomesTreatment outcomesPatientsBetter outcomesTherapyPatient dataMelanomaGoogle ScholarUnique populationSurvival dataOutcomesLimited dataImmunotherapyTrials
2015
Sensitivity of plasma BRAFmutant and NRASmutant cell‐free DNA assays to detect metastatic melanoma in patients with low RECIST scores and non‐RECIST disease progression
Chang GA, Tadepalli JS, Shao Y, Zhang Y, Weiss S, Robinson E, Spittle C, Furtado M, Shelton DN, Karlin-Neumann G, Pavlick A, Osman I, Polsky D. Sensitivity of plasma BRAFmutant and NRASmutant cell‐free DNA assays to detect metastatic melanoma in patients with low RECIST scores and non‐RECIST disease progression. Molecular Oncology 2015, 10: 157-165. PMID: 26440707, PMCID: PMC4695284, DOI: 10.1016/j.molonc.2015.09.005.Peer-Reviewed Original ResearchConceptsNew brain metastasesDisease progressionTreatment initiationBrain metastasesDisease activityCtDNA levelsMetastatic melanomaProgression eventsRECIST scoresUseful blood-based biomarkerImmune checkpoint blockadeDisease progression eventsBRAF inhibitor therapyBlood-based biomarkersCell-free DNA assaysCheckpoint blockadeMetastatic diseaseInhibitor therapyTreatment courseLDH levelsPatient managementUseful biomarkerPatientsDroplet digital PCR assaysProgression