2009
Skin immune surveillance by T cells—A new order?
Strid J, Tigelaar RE, Hayday AC. Skin immune surveillance by T cells—A new order? Seminars In Immunology 2009, 21: 110-120. PMID: 19369094, DOI: 10.1016/j.smim.2009.03.002.Peer-Reviewed Original ResearchConceptsImmune surveillanceAdaptive immune surveillanceStress-induced antigensSystemic immune cellsSkin immune surveillanceLocal lymphocytesOrgan dysfunctionDendritic cellsImmune cellsT cellsEpithelial cellsTissue integrityCellsSurveillanceBody surfaceImmunopathologyImmunoregulationDysfunctionLymphocytesInfectionAntigenImmunoprotectionStress response
2008
Skint1, the prototype of a newly identified immunoglobulin superfamily gene cluster, positively selects epidermal γδ T cells
Boyden LM, Lewis JM, Barbee SD, Bas A, Girardi M, Hayday AC, Tigelaar RE, Lifton RP. Skint1, the prototype of a newly identified immunoglobulin superfamily gene cluster, positively selects epidermal γδ T cells. Nature Genetics 2008, 40: 656-662. PMID: 18408721, PMCID: PMC4167720, DOI: 10.1038/ng.108.Peer-Reviewed Original Research
2005
The Integration of Conventional and Unconventional T Cells that Characterizes Cell‐Mediated Responses
Pennington D, Vermijlen D, Wise E, Clarke S, Tigelaar R, Hayday A. The Integration of Conventional and Unconventional T Cells that Characterizes Cell‐Mediated Responses. Advances In Immunology 2005, 87: 27-59. PMID: 16102571, DOI: 10.1016/s0065-2776(05)87002-6.Peer-Reviewed Original ResearchConceptsUnconventional T cellsGene expression analysisConventional T cellsExtensive gene expression analysisT cellsExpression analysisRegulatory functionsCell-mediated immune responsesCell-mediated responsesT cell activityAntigen-specific responsesCellsInflammatory diseasesImmune responseImmunopathology
2003
Subset-specific, uniform activation among Vγ6/Vδ1+ γδ T cells elicited by inflammation
Roark C, Aydintug M, Lewis J, Yin X, Lahn M, Hahn Y, Born W, Tigelaar R, O’Brien R. Subset-specific, uniform activation among Vγ6/Vδ1+ γδ T cells elicited by inflammation. Journal Of Leukocyte Biology 2003, 75: 68-75. PMID: 14525969, DOI: 10.1189/jlb.0703326.Peer-Reviewed Original ResearchConceptsGamma delta T cell subsetT cell subsetsT cell receptorCell subsetsDelta antibodyActivation/memory phenotypeInvariant T cell receptorΓδ T cellsMemory phenotypeInflammatory responseT cellsFlow cytometryCell receptorInflammationMonoclonal antibodiesAntibodiesSelect tissuesCellsTissueSubsetVδ1ThymusThe inter-relatedness and interdependence of mouse T cell receptor γδ+ and αβ+ cells
Pennington D, Silva-Santos B, Shires J, Theodoridis E, Pollitt C, Wise E, Tigelaar R, Owen M, Hayday A. The inter-relatedness and interdependence of mouse T cell receptor γδ+ and αβ+ cells. Nature Immunology 2003, 4: 991-998. PMID: 14502287, DOI: 10.1038/ni979.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsCell DifferentiationCyclic AMP Response Element ModulatorDNA-Binding ProteinsFlow CytometryGene Expression ProfilingGenes, T-Cell ReceptorH-Y AntigenMaleMiceMice, Inbred C57BLMice, KnockoutMice, TransgenicReceptors, Antigen, T-Cell, alpha-betaReceptors, Antigen, T-Cell, gamma-deltaRepressor ProteinsReverse Transcriptase Polymerase Chain ReactionRNA, MessengerT-LymphocytesConceptsΑβ T cellsConventional αβ T cellsCell developmentFunctional potentialGene profilesT cell receptorT cellsMouse T-cell receptorΓδ T cell developmentT cell developmentT cell progenitorsCell receptorGene expressionCell progenitorsCell populationsImmune responseTCR specificityCellsReceptorsPotential interdependenceProgenitorsExpression
2001
Regulation of Cutaneous Malignancy by γδ T Cells
Girardi M, Oppenheim D, Steele C, Lewis J, Glusac E, Filler R, Hobby P, Sutton B, Tigelaar R, Hayday A. Regulation of Cutaneous Malignancy by γδ T Cells. Science 2001, 294: 605-609. PMID: 11567106, DOI: 10.1126/science.1063916.Peer-Reviewed Original ResearchMeSH KeywordsAmino Acid SequenceAnimalsCarcinogensCell LineCytotoxicity, ImmunologicDimerizationEpidermisEpithelial CellsHistocompatibility Antigens Class IHumansImmunologic SurveillanceLigandsMembrane ProteinsMiceMice, Inbred C57BLMinor Histocompatibility AntigensMolecular Sequence DataNK Cell Lectin-Like Receptor Subfamily KProtein ConformationProtein FoldingReceptors, Antigen, T-Cell, alpha-betaReceptors, Antigen, T-Cell, gamma-deltaReceptors, ImmunologicReceptors, Natural Killer CellRecombinant Fusion ProteinsReverse Transcriptase Polymerase Chain ReactionSkin NeoplasmsT-Lymphocyte SubsetsConceptsT cellsGammadelta cellsLocal T cellsNatural killer cellsΓδ T cellsGammadelta T cellsCytolytic T cellsSkin carcinoma cellsNKG2D engagementMultiple regimensKiller cellsCutaneous malignanciesCutaneous carcinogenesisEpithelial malignanciesRAE-1Human MICAMalignancyCarcinoma cellsSkin cellsCellsNKG2DRegimensMiceEpitheliumCarcinogenesisInduction of human tumor‐loaded dendritic cells
Berger C, Xu A, Hanlon D, Lee C, Schechner J, Glusac E, Christensen I, Snyder E, Holloway V, Tigelaar R, Edelson R. Induction of human tumor‐loaded dendritic cells. International Journal Of Cancer 2001, 91: 438-447. PMID: 11251964, DOI: 10.1002/1097-0215(200002)9999:9999<::aid-ijc1073>3.0.co;2-r.Peer-Reviewed Original ResearchMeSH KeywordsAntigens, CDApoptosisCD36 AntigensCell DifferentiationCell DivisionCell SurvivalCells, CulturedCytokinesCytoplasmDendritic CellsDose-Response Relationship, DrugFlow CytometryHumansImmunoglobulinsImmunohistochemistryImmunophenotypingImmunotherapyLeukapheresisLeukocytesLymphocytesMajor Histocompatibility ComplexMembrane GlycoproteinsMonocytesPhagocytosisPhenotypeT-LymphocytesTime FactorsConceptsExtracorporeal photopheresisDistinctive antigensTumor-loaded dendritic cellsStandard extracorporeal photopheresisMHC class II moleculesImproved cancer immunotherapyDendritic cell differentiationAnti-cancer vaccinesMalignant T cellsClass II moleculesTransition of monocytesDC vaccinesMalignant cell apoptosisDendritic cellsImmature DCsCancer immunotherapyCD83 expressionT cellsExogenous cytokinesSignificant proliferationCell apoptosisVaccineMembrane CD36Cell differentiationCells
1998
Conservation of T Cell Receptor Conformation in Epidermal γδ Cells with Disrupted Primary Vγ Gene Usage
Mallick-Wood C, Lewis J, Richie L, Owen M, Tigelaar R, Hayday A. Conservation of T Cell Receptor Conformation in Epidermal γδ Cells with Disrupted Primary Vγ Gene Usage. Science 1998, 279: 1729-1733. PMID: 9497293, DOI: 10.1126/science.279.5357.1729.Peer-Reviewed Original ResearchConceptsGene segmentsVariable region gene segmentsRegion gene segmentsParticular gene segmentsReceptor conformationTCR chainsReceptor gammaAssociation of expressionAlphabeta T cellsCellsConservationT-cell receptor gammaConformational determinantsGammadelta T cell subsetsGene usageT cellsConformationΓδ cellsB cellsLymphocyte repertoireVgamma5SitesDendritic epidermal T cellsExpressionRepertoire
1996
Disruption of epithelial gamma delta T cell repertoires by mutation of the Syk tyrosine kinase.
Mallick-Wood C, Pao W, Cheng A, Lewis J, Kulkarni S, Bolen J, Rowley B, Tigelaar R, Pawson T, Hayday A. Disruption of epithelial gamma delta T cell repertoires by mutation of the Syk tyrosine kinase. Proceedings Of The National Academy Of Sciences Of The United States Of America 1996, 93: 9704-9709. PMID: 8790395, PMCID: PMC38493, DOI: 10.1073/pnas.93.18.9704.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsElectrophoresis, Polyacrylamide GelEnzyme PrecursorsEpithelial CellsEpitheliumFlow CytometryIntracellular Signaling Peptides and ProteinsLymphocytesMiceMutagenesis, Site-DirectedPolymerase Chain ReactionPolymorphism, Restriction Fragment LengthProtein-Tyrosine KinasesReceptors, Antigen, T-Cell, gamma-deltaSyk KinaseConceptsGamma delta T cellsDelta T cellsIntraepithelial gamma delta T cellsT cellsSplenic gamma delta T cellsSyk tyrosine kinaseGamma delta T cell repertoireGene rearrangementsT cell repertoireReceptor gene rearrangementsSyk-deficient miceDelta gene rearrangementsAntigen receptor gene rearrangementsTyrosine kinaseSyk deficiencyCell repertoireB cellsChimeric miceMiceSpecific epitheliaCellsLymphocytesSubstantial depletionCharacteristic associationsDevelopmental arrest
1990
UVB Radiation and DNFB Skin Painting Induce Suppressor Cells Universally in Mice
Glass M, Bergstresser P, Tigelaar R, Streilein J. UVB Radiation and DNFB Skin Painting Induce Suppressor Cells Universally in Mice. Journal Of Investigative Dermatology 1990, 94: 273-278. PMID: 1689757, DOI: 10.1111/1523-1747.ep12874117.Peer-Reviewed Original ResearchConceptsSuppressor T cellsStrains of miceContact hypersensitivityLangerhans cellsT cellsSuppressor cellsHapten-specific suppressor T cellsInduction of CHSUVB-susceptible strainsT suppressor cellsTreatment of miceAntigen-presenting cellsEpidermal Langerhans cellsEffects of UVBEffector mechanismsMurine skinMiceUVBUVB radiationSkinInductionDinitrofluorobenzeneCellsUVRApparent effect
1988
Limited diversity of γδ antigen receptor genes of thy-1+ dendritic epidermal cells
Asarnow D, Kuziel W, Bonyhad M, Tigelaar R, Tucker P, Allison J. Limited diversity of γδ antigen receptor genes of thy-1+ dendritic epidermal cells. Cell 1988, 55: 837-847. PMID: 2847872, DOI: 10.1016/0092-8674(88)90139-0.Peer-Reviewed Original ResearchConceptsT cellsGamma delta antigen receptorsDendritic epidermal cellsPeripheral lymphoid tissuesAdult T-cellEarly fetal thymusLymphoid tissueImmune surveillanceFetal thymusFetal thymocytesThy-1Antigen receptorCell clonesAlpha betaReceptor geneAntigen receptor genesMinor populationDelta gene segmentsReceptorsMajor populationCellsDelta geneStriking homogeneityGene segmentsCertain epithelia
1987
Regulation of T-cell receptor γ-chain RNA expression in murine Thy-1+ dendritic epidermal cells
Kuziel W, Takashima A, Bonyhadi M, Bergstresser P, Allison J, Tigelaar R, Tucker P. Regulation of T-cell receptor γ-chain RNA expression in murine Thy-1+ dendritic epidermal cells. Nature 1987, 328: 263-266. PMID: 2885757, DOI: 10.1038/328263a0.Peer-Reviewed Original ResearchConceptsEpidermal cellsT cell receptorDendritic epidermal cellsThy-1Steady-state levelsMurine Thy-1T lymphocytesCell differentiationT-cell lineageT cell differentiationDistinct populationsMost T lymphocytesRNA expressionMajor histocompatibility complexΔ complexNecessary eventΑ-chainΓ-chainMinor populationDendritic cellsLangerhans cellsExpressionCellsNormal miceHistocompatibility complexLack of dendritic Thy-1+ epidermal cells in mice with severe combined immunodeficiency disease.
Nixon-Fulton J, Witte P, Tigelaar R, Bergstresser P, Kumar V. Lack of dendritic Thy-1+ epidermal cells in mice with severe combined immunodeficiency disease. The Journal Of Immunology 1987, 138: 2902-5. PMID: 2883236, DOI: 10.4049/jimmunol.138.9.2902.Peer-Reviewed Original ResearchConceptsDendritic Thy-1SCID miceEpidermal cell suspensionsThy-1NK cellsT lymphocytesEpidermal whole mountsSevere combined immunodeficiency diseaseCombined immunodeficiency diseaseNormal bone marrowControl miceImmunodeficiency diseaseBone marrowWhole mountsMiceImmunofluorescent stainingCon ACell suspensionsEC suspensionsEpidermal cellsLymphocytesPrecursor levelsCellsTransplantationMarrow
1985
Lymphocyte Traffic and the Skin
Tigelaar R. Lymphocyte Traffic and the Skin. Dermatologic Clinics 1985, 3: 569-585. PMID: 3916171, DOI: 10.1016/s0733-8635(18)30857-x.Peer-Reviewed Original ResearchConceptsPeripheral lymph nodesLymph nodesLymphocyte migrationEndothelial cellsLymphoid organsImmunologic influenceMesenteric lymph nodesMovement of lymphocytesLymphocyte membrane receptorsDifferent organ sitesSpecialized endothelial cellsNonlymphoid organsLymphocyte trafficImmunologic defenseT cellsGastrointestinal tractOrgan sitesBlast transformationMajor subsetSkinLymphocytesCommon determinantsOrgansMembrane receptorsCells
1983
Analysis of the mechanism of unresponsiveness produced by haptens painted on skin exposed to low dose ultraviolet radiation.
Elmets C, Bergstresser P, Tigelaar R, Wood P, Streilein J. Analysis of the mechanism of unresponsiveness produced by haptens painted on skin exposed to low dose ultraviolet radiation. Journal Of Experimental Medicine 1983, 158: 781-794. PMID: 6193234, PMCID: PMC2187099, DOI: 10.1084/jem.158.3.781.Peer-Reviewed Original ResearchConceptsTolerogenic signalsLow-dose ultraviolet B (UVB) radiationLow-dose ultraviolet radiationAntigen-presenting potentialAntigen-specific unresponsivenessResident Langerhans cellsMechanism of unresponsivenessSuppressor cellsContact hypersensitivityLyt-1Effector stageLangerhans cellsSystemic administrationT cellsLocal applicationUltraviolet B radiationInduction phaseB radiationUnresponsivenessSkinUltraviolet radiationCellsTolerogenDNFBHypersensitivitySALT: Skin-Associated Lymphoid Tissues
Streilein J, Tigelaar R. SALT: Skin-Associated Lymphoid Tissues. 1983, 95-130. DOI: 10.1007/978-1-4613-3670-9_6.Peer-Reviewed Reviews, Practice Guidelines, Standards, and Consensus StatementsSkin-associated lymphoid tissueImmune responseExogenous antigensLymphoid tissueImmune systemUnique immune responseSpecific immune responseMucous membrane surfacesImmunologic apparatusLymph nodesEffector cellsImmunocompetent lymphocytesRespiratory tractEffector mechanismsImmunologic influenceOral routeNervous systemOrgan systemsAntigenPathogenic potentialSpecific tissuesTissueUnrelated tissuesGutCells
1976
Specific loss of stimulator activity following mixed lymphocyte reactions is due to cytotoxic cells
Janeway C, Mosier D, Tigelaar R. Specific loss of stimulator activity following mixed lymphocyte reactions is due to cytotoxic cells. European Journal Of Immunology 1976, 6: 747-750. PMID: 138373, DOI: 10.1002/eji.1830061017.Peer-Reviewed Original ResearchConceptsMixed lymphocyte reactionFresh spleen cellsSpleen cellsLymphocyte reactionOne-way mixed-lymphocyte reactionPrimary mixed lymphocyte reactionMouse strainsStimulator activityCytotoxic T cellsStrong mixed lymphocyte reactionsUnrelated mouse strainsCongenic mouse strainsCytotoxic cellsStimulator cellsT cellsRelease assaysSpecific lossCell activityResidual cellsB subregionRestricted expressionLymphocytesSuch cellsAntigenCells
1975
Graft-versus-host reactivity of mouse thymocytes: Effect of in vitro treatment with anti-TL serum
Tigelaar R, Gershon R, Asofsky R. Graft-versus-host reactivity of mouse thymocytes: Effect of in vitro treatment with anti-TL serum. Cellular Immunology 1975, 19: 58-64. PMID: 241492, DOI: 10.1016/0008-8749(75)90291-9.Peer-Reviewed Original ResearchConceptsNormal mouse serumGVH reactionHost reactivityThymus-derived cellsCapacity of thymocytesPeripheral blood leukocytesSpleen weightMechanism of synergyPeripheral lymphocytesF1 miceBlood leukocytesMouse serumThymocytesSerumMouse thymocytesGraftSpecific eliminationReactivity presentTreatmentCellsLymphocytesLeukocytesMice
1971
Cell Interactions in the Graft-versus-Host Response
ASOFSKY R, CANTOR H, TIGELAAR R. Cell Interactions in the Graft-versus-Host Response. 1971, 369-381. DOI: 10.1016/b978-0-12-057550-3.50034-x.Peer-Reviewed Original ResearchThymus cellsBlood lymphocytesHost responseParental strain miceBALB/cAnNCell interactionsDonor of cellsPeripheral bloodFemoral arteryLeukocyte numbersStrain miceBlood leukocytesNewborn miceAdult miceHybrid miceMiceLymphocytesGraftRecovered cellsCellsCombination of cellsDextran solutionCell suspensionsArterySpleen