Featured Publications
Immune Inhibitory Molecule PD-1 Homolog (VISTA) Colocalizes with CD11b Myeloid Cells in Melanoma and Is Associated with Poor Outcomes
Vesely M, Kidacki M, Gaule P, Gupta S, Chan N, Han X, Yeung J, Chen L. Immune Inhibitory Molecule PD-1 Homolog (VISTA) Colocalizes with CD11b Myeloid Cells in Melanoma and Is Associated with Poor Outcomes. Journal Of Investigative Dermatology 2023, 144: 106-115.e4. PMID: 37562584, DOI: 10.1016/j.jid.2023.07.008.Peer-Reviewed Original ResearchMeSH KeywordsB7 AntigensB7-H1 AntigenHumansMelanomaProgrammed Cell Death 1 ReceptorT-LymphocytesTumor MicroenvironmentConceptsCD11b myeloid cellsImmune inhibitory moleculesPD-L1 expressionVISTA expressionMyeloid cellsFuture potential therapeutic targetsPD-L1/B7Tumor microenvironmentInhibitory moleculesMultiplexed quantitative immunofluorescencePrimary cutaneous melanomaImmunosuppressive tumor microenvironmentNegative prognostic biomarkerCurrent clinical trialsPotential therapeutic targetCause mortalityCritical cell typesPD-L1Poor outcomeTreatment of cancerMelanoma recurrenceCutaneous melanomaClinical trialsPrognostic biomarkerT cellsResistance Mechanisms to Anti-PD Cancer Immunotherapy
Vesely MD, Zhang T, Chen L. Resistance Mechanisms to Anti-PD Cancer Immunotherapy. Annual Review Of Immunology 2022, 40: 45-74. PMID: 35471840, DOI: 10.1146/annurev-immunol-070621-030155.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsMeSH KeywordsAnimalsB7-H1 AntigenHumansImmunotherapyNeoplasmsProgrammed Cell Death 1 ReceptorT-LymphocytesTumor MicroenvironmentConceptsAnti-PD therapyCancer immunotherapyMechanisms of resistanceImmune inhibitory moleculesFraction of patientsResistance mechanismsNormalization cancer immunotherapyAdditional immunotherapyPD-1Clinical evidenceAntigen presentationT cellsSolid tumorsTherapy resistanceH1 pathwayTumor microenvironmentImmunotherapyInhibitory moleculesHematopoietic malignanciesCancer treatmentTherapyPatientsCurrent studyCancer dataMalignancyCancer Immunoediting in the Era of Immuno-oncology.
Gubin MM, Vesely MD. Cancer Immunoediting in the Era of Immuno-oncology. Clinical Cancer Research 2022, 28: 3917-3928. PMID: 35594163, PMCID: PMC9481657, DOI: 10.1158/1078-0432.ccr-21-1804.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsMeSH KeywordsHumansImmunologic FactorsImmunotherapyMedical OncologyNeoplasmsT-LymphocytesTumor MicroenvironmentConceptsCancer immunoeditingImmune-tumor cell interactionsCancer immunotherapyAbsence of immunotherapyDurable clinical responsesT cell biologyCell interactionsImmunotherapy resistanceClinical responseImmunosuppressive microenvironmentTumor immunogenicityImmuno-oncologyClinical dataPreclinical modelsImmunoeditingImmunotherapyHuman patientsImmune systemTumor microenvironmentCancerCancer progressionClinical subspecialtyImmunogenicityMicroenvironmentPatientsNormalization Cancer Immunotherapy for Melanoma
Vesely MD, Chen L. Normalization Cancer Immunotherapy for Melanoma. Journal Of Investigative Dermatology 2020, 140: 1134-1142. PMID: 32092349, PMCID: PMC7247948, DOI: 10.1016/j.jid.2020.02.005.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsMeSH KeywordsAntineoplastic Agents, ImmunologicalHumansImmune Checkpoint InhibitorsImmunotherapyMelanomaSkin NeoplasmsTreatment OutcomeTumor EscapeTumor MicroenvironmentConceptsNormalization cancer immunotherapyCancer immunotherapyImmune responseDysfunctional immune responseSystemic immune responsesContext of melanomaPatient survivalTreatment of cancerTumor responseImmunotherapyToxicity profileImmune systemTumor microenvironmentMelanomaCancerDistinct mechanismsResponseClinicians
2021
Targeting the CSF1/CSF1R axis is a potential treatment strategy for malignant meningiomas
Yeung J, Yaghoobi V, Miyagishima D, Vesely MD, Zhang T, Badri T, Nassar A, Han X, Sanmamed MF, Youngblood M, Peyre M, Kalamarides M, Rimm DL, Gunel M, Chen L. Targeting the CSF1/CSF1R axis is a potential treatment strategy for malignant meningiomas. Neuro-Oncology 2021, 23: 1922-1935. PMID: 33914067, PMCID: PMC8563319, DOI: 10.1093/neuonc/noab075.Peer-Reviewed Original ResearchConceptsColony-stimulating factor-1Myeloid cellsMalignant meningiomasTumor microenvironmentCSF1/CSF1RRNA-seqRNA sequencingHuman meningiomasImmune subsetsGene expressionT cellsTreatment strategiesNormalization cancer immunotherapyImportant regulatorCell typesNovel immunocompetent murine modelDeath ligand 1 (PD-L1) expressionCell death receptor-1Immunosuppressive myeloid cellsDeath receptor-1Ligand 1 expressionFactor 1Immune cell typesImmunocompetent murine modelEffective treatment strategiesA Burned-Out CD8+ T-cell Subset Expands in the Tumor Microenvironment and Curbs Cancer Immunotherapy
Sanmamed MF, Nie X, Desai SS, Villaroel-Espindola F, Badri T, Zhao D, Kim AW, Ji L, Zhang T, Quinlan E, Cheng X, Han X, Vesely MD, Nassar AF, Sun J, Zhang Y, Kim TK, Wang J, Melero I, Herbst RS, Schalper KA, Chen L. A Burned-Out CD8+ T-cell Subset Expands in the Tumor Microenvironment and Curbs Cancer Immunotherapy. Cancer Discovery 2021, 11: 1700-1715. PMID: 33658301, PMCID: PMC9421941, DOI: 10.1158/2159-8290.cd-20-0962.Peer-Reviewed Original ResearchConceptsNon-small cell lung cancerTumor-infiltrating lymphocytesExhausted T cellsTIL subsetsTumor microenvironmentCancer immunotherapyT cellsAdvanced non-small cell lung cancerPatient-derived tumor xenograft modelAnti-PD therapyT cell subsetsCell lung cancerPotential tissue biomarkersBaseline tumor tissueLung cancer tissuesSingle-cell mass cytometryTumor xenograft modelApoptotic CD8Dysfunctional CD8Immunotherapy resistancePD-1Activation markersAdjacent nontumoral tissuesPathway-dependent mannerLung cancer