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, 635: 462-471. PMID: 39385035, PMCID: PMC11560846, 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 blockadeP3.13D.07 Longitudinal Tumor Microenvironment Analysis in Extensive Stage SCLC Patients Treated with Dual Checkpoint Inhibitor Blockade
Chiang A, Matera R, Ashley K, Rajendran B, Schalper K. P3.13D.07 Longitudinal Tumor Microenvironment Analysis in Extensive Stage SCLC Patients Treated with Dual Checkpoint Inhibitor Blockade. Journal Of Thoracic Oncology 2024, 19: s362. DOI: 10.1016/j.jtho.2024.09.652.Peer-Reviewed Original ResearchEP.07C.10 Real-World Outcomes of Patients Treated with Neoadjuvant Immunotherapy for Resectable Non-Small Cell Lung Cancer
Ermer T, Kim S, Goldberg S, Zolfaghari E, Blasberg J, Boffa D, Herbst R, Politi K, Schalper K, Dacic S, Woodard G. EP.07C.10 Real-World Outcomes of Patients Treated with Neoadjuvant Immunotherapy for Resectable Non-Small Cell Lung Cancer. Journal Of Thoracic Oncology 2024, 19: s543-s544. DOI: 10.1016/j.jtho.2024.09.1007.Peer-Reviewed Original ResearchBCAM (basal cell adhesion molecule) protein expression in different tumor populations
Burela S, He M, Trontzas I, Gavrielatou N, Schalper K, Langermann S, Flies D, Rimm D, Aung T. BCAM (basal cell adhesion molecule) protein expression in different tumor populations. Discover Oncology 2024, 15: 381. PMID: 39207605, PMCID: PMC11362396, DOI: 10.1007/s12672-024-01244-1.Peer-Reviewed Original ResearchPD-L1 expressionBasal cell adhesion moleculePD-L1Quantitative immunofluorescenceAssociated with better OSPD-L1 protein expressionCancer typesBladder urothelial tumorsProtein expressionMultiple immune checkpointsHead and neckMultiple tumor typesEvidence of hypermethylationImmune checkpointsImmunotherapy responseCell adhesion moleculesTumor typesValidation cohortTumor populationCancer patientsTumorPredictive valueAdhesion moleculesNovel biomarkersWidespread expressionBiomarker development for PD-(L)1 axis inhibition: a consensus view from the SITC Biomarkers Committee
Monette A, Warren S, Barrett J, Garnett-Benson C, Schalper K, Taube J, Topp B, Snyder A. Biomarker development for PD-(L)1 axis inhibition: a consensus view from the SITC Biomarkers Committee. Journal For ImmunoTherapy Of Cancer 2024, 12: e009427. PMID: 39032943, PMCID: PMC11261685, DOI: 10.1136/jitc-2024-009427.Peer-Reviewed Original ResearchConceptsProgrammed cell death protein 1/programmed death-ligand 1PD-(L)1Biomarker developmentApplication of novel biomarkersPD-(L)1 therapyDeath-ligand 1Patient selection strategiesCombination therapyTumor typesTreatment optionsImmune biologyAxis inhibitionEffective treatmentCancer progressionNovel biomarkersPatientsTherapyImmunotherapyBiomarkersKnowledge of mechanismsDelivery of effective treatmentTreatmentAgentsTumorProgressionImmune Cell Dynamics in EGFR-Mutated NSCLC Treated With Afatinib and Pembrolizumab: Results From a Phase IB Study
Riess J, Lara M, de Rodas M, Luxardi G, Herbert S, Shimoda M, Kelly K, Meerlev A, Moore E, Beckett L, Monjazeb A, Schalper K, Maverakis E, Gandara D. Immune Cell Dynamics in EGFR-Mutated NSCLC Treated With Afatinib and Pembrolizumab: Results From a Phase IB Study. JTO Clinical And Research Reports 2024, 5: 100706. PMID: 39318388, PMCID: PMC11420451, DOI: 10.1016/j.jtocrr.2024.100706.Peer-Reviewed Original ResearchImmune related adverse eventsNon-small cell lung cancerEGFR-mutant non-small cell lung cancerMaximum tolerated doseEpidermal growth factor receptorImmune cell subsetsT cellsEGFR-TKIsCell subsetsPD-1 antibody pembrolizumabRecommended phase 2 doseCentral memory T cellsAssociated with anti-tumor activityCD8+ T cellsCD3+ T cellsEGFR-TKI afatinibPD-(L)1 blockadePhase 2 doseTreated with afatinibPhase Ib studyMemory T cellsImmune cell dynamicsControlling brain metastasesCell lung cancerCD4/CD8 T cellsQuantitative Measurement of HER2 Expression in Non–Small Cell Lung Cancer With a High-Sensitivity Assay
Liu M, Vathiotis I, Robbins C, Chan N, Moutafi M, Burela S, Xirou V, Schalper K, Herbst R, Syrigos K, Rimm D. Quantitative Measurement of HER2 Expression in Non–Small Cell Lung Cancer With a High-Sensitivity Assay. Modern Pathology 2024, 37: 100556. PMID: 38964502, PMCID: PMC11416319, DOI: 10.1016/j.modpat.2024.100556.Peer-Reviewed Original ResearchNon-small cell lung cancerCases of non-small cell lung cancerNon-small cell lung cancer casesT-DXdCell lung cancerHER2 expressionBreast cancerRare case of non-small cell lung cancerQuantitative immunofluorescenceAntibody-drug conjugate trastuzumab deruxtecanLung cancerHER2 antibody-drug conjugatesNon-small cell lung cancer patientsDetecting HER2 expressionHER2-targeted therapyMetastatic breast cancerHER2 protein expressionBreast cancer casesHER2 protein levelsAntibody-drug conjugatesProportion of casesTrastuzumab deruxtecanNSCLC casesFrequency of casesImmunohistochemistry scoreHigh-throughput transcriptome profiling indicates ribosomal RNAs to be associated with resistance to immunotherapy in non-small cell lung cancer (NSCLC)
Moutafi M, Bates K, Aung T, Milian R, Xirou V, Vathiotis I, Gavrielatou N, Angelakis A, Schalper K, Salichos L, Rimm D. High-throughput transcriptome profiling indicates ribosomal RNAs to be associated with resistance to immunotherapy in non-small cell lung cancer (NSCLC). Journal For ImmunoTherapy Of Cancer 2024, 12: e009039. PMID: 38857914, PMCID: PMC11168162, DOI: 10.1136/jitc-2024-009039.Peer-Reviewed Original ResearchConceptsNon-small cell lung cancerImmune checkpoint inhibitorsProgrammed cell death protein 1Associated with OSCell lung cancerTissue microarray spotsTissue microarrayValidation cohortLung cancerNon-small cell lung cancer treated with immune checkpoint inhibitorsAssociated with resistance to immunotherapyCell death protein 1Resistance to immunotherapyAssociated with PFSProgression-free survivalSecreted frizzled-related protein 2Cox proportional-hazards model analysisCheckpoint inhibitorsImmunotherapy strategiesTumor compartmentsRetrospective cohortDiscovery cohortLong-term benefitsPatientsCD68Spatially resolved tissue imaging to analyze the tumor immune microenvironment: beyond cell-type densities
Janeiro A, Wong E, Jiménez-Sánchez D, de Solorzano C, Lozano M, Teijeira A, Schalper K, Melero I, De Andrea C. Spatially resolved tissue imaging to analyze the tumor immune microenvironment: beyond cell-type densities. Journal For ImmunoTherapy Of Cancer 2024, 12: e008589. PMID: 38821717, PMCID: PMC11149121, DOI: 10.1136/jitc-2023-008589.Peer-Reviewed Original ResearchHLA class-I antigen presentation machinery (APM) alterations mediate immune evasion in lung cancer brain metastases.
Vilariño N, Lopez De Rodas M, Ranjan K, Costantini A, Villalba M, Lu B, Kravitz C, Nadal E, Goldberg S, Nguyen D, Schalper K. HLA class-I antigen presentation machinery (APM) alterations mediate immune evasion in lung cancer brain metastases. Journal Of Clinical Oncology 2024, 42: e14014-e14014. DOI: 10.1200/jco.2024.42.16_suppl.e14014.Peer-Reviewed Original ResearchLung cancer brain metastasisPrimary lung tumorsTumor-infiltrating lymphocytesImmune checkpoint inhibitorsCancer brain metastasesAntigen presentation machineryB2M expressionIFN-gBrain metastasesB2MImmune evasionAssociated with shorter overall survivalMultiplexed quantitative immunofluorescenceM expressionExpression of B2MB2M levelsExpression of pSTAT1Shorter overall survivalUnfavorable clinical featuresNo significant associationAssociated with unfavorable clinical featuresCheckpoint inhibitorsImmunotherapy resistanceProperties of tumorsPresentation machineryUp-regulated PLA2G10 in cancer impairs T cell infiltration to dampen immunity
Zhang T, Yu W, Cheng X, Yeung J, Ahumada V, Norris P, Pearson M, Yang X, van Deursen W, Halcovich C, Nassar A, Vesely M, Zhang Y, Zhang J, Ji L, Flies D, Liu L, Langermann S, LaRochelle W, Humphrey R, Zhao D, Zhang Q, Zhang J, Gu R, Schalper K, Sanmamed M, Chen L. Up-regulated PLA2G10 in cancer impairs T cell infiltration to dampen immunity. Science Immunology 2024, 9: eadh2334. PMID: 38669316, DOI: 10.1126/sciimmunol.adh2334.Peer-Reviewed Original ResearchConceptsT cell infiltrationT cell exclusionT cellsResistance to anti-PD-1 immunotherapyPoor T-cell infiltrationAnti-PD-1 immunotherapyImmunogenic mouse tumorsT cell mobilizationHuman cancer tissuesTherapeutic immunotherapyCancer immunotherapyMouse tumorsChemokine systemImmunotherapyTumor tissuesImpaired infiltrationTumorLipid metabolitesHuman cancersCancer tissuesInfiltrationA2 groupCancerPLA2G10Up-regulatedVascular mimicry as a facilitator of melanoma brain metastasis
Provance O, Oria V, Tran T, Caulfield J, Zito C, Aguirre-Ducler A, Schalper K, Kluger H, Jilaveanu L. Vascular mimicry as a facilitator of melanoma brain metastasis. Cellular And Molecular Life Sciences 2024, 81: 188. PMID: 38635031, PMCID: PMC11026261, DOI: 10.1007/s00018-024-05217-z.Peer-Reviewed Original ResearchConceptsVascular mimicryBrain metastasesMouse model of metastatic melanomaIncreased risk of metastasisAssociated with tumor volumeMelanoma brain metastasesRisk of metastasisSurvival of miceFuture treatment regimensCell line modelsTumor suppressor pathwayMetastatic melanomaTumor volumeSolid tumorsTreatment regimensTumor typesPoor prognosisHippo tumor suppressor pathwayIncreased riskMouse modelDownstream targets YAPMelanomaMetastasisSuppressor pathwayTumor
2023
Objective Analysis and Clinical Significance of the Spatial Tumor-Infiltrating Lymphocyte Patterns in Non-Small Cell Lung Cancer.
Lopez De Rodas M, Wang Y, Peng G, Gu J, Mino-Kenudson M, Riess J, Velcheti V, Hellmann M, Gainor J, Zhao H, Schalper K. Objective Analysis and Clinical Significance of the Spatial Tumor-Infiltrating Lymphocyte Patterns in Non-Small Cell Lung Cancer. Clinical Cancer Research 2023, 30: 998-1008. PMID: 38127300, PMCID: PMC10922461, DOI: 10.1158/1078-0432.ccr-23-2457.Peer-Reviewed Original ResearchNon-small cell lung cancerTIL subsetsCell lung cancerImmune evasion mechanismsSubset of casesLymphocyte infiltration patternsPathology-based approachStrong biomarker potentialTIL markersNSCLC patientsImmunotherapy outcomesLymphocyte patternsLung cancerTumor bedWorse outcomesClinical significanceMost tumorsEvasion mechanismsStromal tissueTumor samplesMultiplexed immunofluorescenceBiomarker potentialTumorsInfiltration patternsImmunotherapy606 IMpower110: Tertiary lymphoid structures (TLS) and clinical outcomes in advanced non-small cell lung cancer (NSCLC) treated with first-line atezolizumab or chemotherapy
Srivastava M, Gayevskiy V, Ma V, Estay I, Rodas M, Rajendran B, Hoang T, Ballinger M, Amin R, Herbst R, Marinis F, Giaccone G, Jassem J, Spigel D, Schalper K, Koeppen H, Shames D, Johnston R, Giltnane J, Nabet B. 606 IMpower110: Tertiary lymphoid structures (TLS) and clinical outcomes in advanced non-small cell lung cancer (NSCLC) treated with first-line atezolizumab or chemotherapy. 2023, a690-a690. DOI: 10.1136/jitc-2023-sitc2023.0606.Peer-Reviewed Original Research1102 The HLA-E/NKG2A axis is a dominant immunomodulatory pathway associated with distinct tumor microenvironment features in a subset of NSCLC
Ashley K, Iyer K, Kumar R, Cooper Z, Herbst R, Goldberg S, Schalper K. 1102 The HLA-E/NKG2A axis is a dominant immunomodulatory pathway associated with distinct tumor microenvironment features in a subset of NSCLC. 2023, a1213-a1213. DOI: 10.1136/jitc-2023-sitc2023.1102.Peer-Reviewed Original Research1103 Spatial mapping and clinical significance of the CD39/CD73 adenosinergic pathway as a candidate immunotherapy target in non-small cell lung cancer
Ashley K, Iyer K, Kumar R, Cooper Z, Herbst R, Goldberg S, Schalper K. 1103 Spatial mapping and clinical significance of the CD39/CD73 adenosinergic pathway as a candidate immunotherapy target in non-small cell lung cancer. 2023, a1214-a1214. DOI: 10.1136/jitc-2023-sitc2023.1103.Peer-Reviewed Original Research923 Characterization and clinical significance of the intra and inter-tumor spatial immune heterogeneity using 3-dimensional multiplexed phenotyping in non-small cell lung cancer
Rodas M, Frohock Z, Liu X, Vilarino N, Ahumada V, Gettinger S, Murthy Karuturi R, George J, Li Y, Schalper K. 923 Characterization and clinical significance of the intra and inter-tumor spatial immune heterogeneity using 3-dimensional multiplexed phenotyping in non-small cell lung cancer. 2023, a1026-a1026. DOI: 10.1136/jitc-2023-sitc2023.0923.Peer-Reviewed Original ResearchTriangular Analysis of Geographical Interplay of Lymphocytes (TriAnGIL): Predicting Immunotherapy Response in Lung Cancer
Arabyarmohammadi S, Corredor G, Zhou Y, López de Rodas M, Schalper K, Madabhushi A. Triangular Analysis of Geographical Interplay of Lymphocytes (TriAnGIL): Predicting Immunotherapy Response in Lung Cancer. Lecture Notes In Computer Science 2023, 14225: 797-807. DOI: 10.1007/978-3-031-43987-2_77.Peer-Reviewed Original Research1434P Machine learning features derived from spatial interaction of immune cell families are associated with survival in NSCLC patients post-immunotherapy
Arabyarmohammadi S, Corredor G, de Rodas Gregorio M, Schalper K, Madabhushi A. 1434P Machine learning features derived from spatial interaction of immune cell families are associated with survival in NSCLC patients post-immunotherapy. Annals Of Oncology 2023, 34: s816. DOI: 10.1016/j.annonc.2023.09.2465.Peer-Reviewed Original ResearchDigital spatial profiling of melanoma shows CD95 expression in immune cells is associated with resistance to immunotherapy
Martinez-Morilla S, Moutafi M, Fernandez A, Jessel S, Divakar P, Wong P, Garcia-Milian R, Schalper K, Kluger H, Rimm D. Digital spatial profiling of melanoma shows CD95 expression in immune cells is associated with resistance to immunotherapy. OncoImmunology 2023, 12: 2260618. PMID: 37781235, PMCID: PMC10540659, DOI: 10.1080/2162402x.2023.2260618.Peer-Reviewed Original ResearchConceptsDigital spatial profilingImmune checkpoint inhibitor therapyShorter progression-free survivalQuantitative immunofluorescenceCheckpoint inhibitor therapyProgression-free survivalMetastatic melanoma patientsPre-treatment specimensIndependent validation cohortMetastatic melanoma casesAdjuvant settingNanoString GeoMxMultivariable adjustmentAdverse eventsImmunotherapy cohortInhibitor therapyPD-L1Immune markersMelanoma patientsUnivariable analysisValidation cohortImmune cellsMelanoma casesMultiplex immunofluorescenceCD95 expression