2020
Differential expression of the T-cell inhibitor TIGIT in glioblastoma and MS
Lucca LE, Lerner BA, Park C, DeBartolo D, Harnett B, Kumar VP, Ponath G, Raddassi K, Huttner A, Hafler DA, Pitt D. Differential expression of the T-cell inhibitor TIGIT in glioblastoma and MS. Neurology Neuroimmunology & Neuroinflammation 2020, 7: e712. PMID: 32269065, PMCID: PMC7188477, DOI: 10.1212/nxi.0000000000000712.Peer-Reviewed Original ResearchConceptsTumor-infiltrating T cellsT cellsPD-1/PD-L1Anti-TIGIT therapyExpression of CD226Expression of TIGITPostmortem CNS tissueLymphocytes of patientsFresh surgical resectionsLigand CD155TIGIT expressionSurgical resectionPD-1PD-L1CNS diseaseHealthy controlsHealthy donorsLymphocytic expressionImmune responseCNS tissueMS lesionsTIGITImmune pathwaysPatientsGlioblastoma multiforme
2018
Publisher Correction: Antiviral CD8 T cells induce Zika-virus-associated paralysis in mice
Jurado K, Yockey L, Wong P, Lee S, Huttner A, Iwasaki A. Publisher Correction: Antiviral CD8 T cells induce Zika-virus-associated paralysis in mice. Nature Microbiology 2018, 3: 255-255. DOI: 10.1038/s41564-017-0101-7.Peer-Reviewed Original Research
2017
Antiviral CD8 T cells induce Zika-virus-associated paralysis in mice
Jurado KA, Yockey LJ, Wong PW, Lee S, Huttner AJ, Iwasaki A. Antiviral CD8 T cells induce Zika-virus-associated paralysis in mice. Nature Microbiology 2017, 3: 141-147. PMID: 29158604, PMCID: PMC5780207, DOI: 10.1038/s41564-017-0060-z.Peer-Reviewed Original ResearchConceptsCentral nervous systemZIKV infectionZika virusT cellsNeurological complicationsNervous systemBlood-brain barrier breakdownAntiviral CD8 T cellsHigh viral burdenIFNAR knockout miceCD8 T cellsEffector T cellsSusceptible mouse modelBlood-brain barrierNon-haematopoietic cellsSite of infectionIFNAR1 deficiencyViral burdenNeurological manifestationsGuillain-BarréBarrier breakdownMouse modelKnockout miceAstrocytes resultsAntiviral activitySOX2 immunity and tissue resident memory in children and young adults with glioma
Vasquez JC, Huttner A, Zhang L, Marks A, Chan A, Baehring JM, Kahle KT, Dhodapkar KM. SOX2 immunity and tissue resident memory in children and young adults with glioma. Journal Of Neuro-Oncology 2017, 134: 41-53. PMID: 28620836, PMCID: PMC7906294, DOI: 10.1007/s11060-017-2515-8.Peer-Reviewed Original ResearchMeSH KeywordsAdolescentAdultAge FactorsAntigen-Presenting CellsB7-H1 AntigenBrain NeoplasmsCell ProliferationChildChild, PreschoolCytokinesFemaleFlow CytometryGliomaHumansInfantMaleMyeloid CellsProgrammed Cell Death 1 ReceptorReceptors, ImmunologicRNA, Small InterferingSOXB1 Transcription FactorsT-LymphocytesTransfectionYoung AdultConceptsPediatric glial tumorsGlial tumorsT cellsExpression of SOX2Inhibitory checkpointsCD8/CD4 T cellsTissue-resident memory phenotypeTumor-infiltrating immune cellsTumor-infiltrating T cellsTumor cellsYoung adultsResident memory phenotypeTissue-resident memoryAnti-tumor immunityT cell immunityCD4 T cellsNatural killer cellsGlial tumor cellsNew antigenic targetsSingle-cell mass cytometryHigh mutation burdenStem cell antigenGlioma initiating cellsImmune checkpointsPD-1SOX2 as a target for immunotherapy of pediatric gliomas.
Vasquez J, Huttner A, Zhang L, Marks A, Chan A, Baehring J, Kahle K, Dhodapkar K. SOX2 as a target for immunotherapy of pediatric gliomas. Journal Of Clinical Oncology 2017, 35: e22012-e22012. DOI: 10.1200/jco.2017.35.15_suppl.e22012.Peer-Reviewed Original ResearchTumor-infiltrating T cellsImmune checkpoint blockadeT cellsPediatric glial tumorsGlial tumorsExpression of SOX2Inhibitory checkpointsCheckpoint blockadeTumor immunityGrade gliomasTissue-resident memory phenotypePediatric gliomasTumor-infiltrating immune cellsTumor cellsResident memory phenotypeT-cell proliferation assaysImmune checkpoint inhibitorsDendritic cell vaccinesPD-1 expressionSubset of CD4Anti-tumor immunityCD8 T cellsT cell immunityEffective tumor immunityPediatric brain tumors
2013
The immune cell infiltrate populating meningiomas is composed of mature, antigen-experienced T and B cells
Fang L, Lowther DE, Meizlish ML, Anderson RC, Bruce JN, Devine L, Huttner AJ, Kleinstein SH, Lee JY, Stern JN, Yaari G, Lovato L, Cronk KM, O'Connor KC. The immune cell infiltrate populating meningiomas is composed of mature, antigen-experienced T and B cells. Neuro-Oncology 2013, 15: 1479-1490. PMID: 23978377, PMCID: PMC3813416, DOI: 10.1093/neuonc/not110.Peer-Reviewed Original ResearchConceptsTumor-infiltrating B cellsImmune cell infiltratesT cell repertoireCell infiltrateB cellsT cellsCell repertoireAntigen experienceImmune checkpoint molecules PD-1Memory/effector T cellsCheckpoint molecules PD-1Antigen-driven B cell responsesEffector T cell populationsTumor microenvironmentT-cell infiltratesRegulatory T cellsEffector T cellsT-cell phenotypeT cell populationsB cell responsesPeripheral blood lymphocytesAntigen-experienced CD4Cell populationsB cell populationsB cell repertoire