2020
Basics of Inducible Lymphoid Organs
Ruddle NH. Basics of Inducible Lymphoid Organs. Current Topics In Microbiology And Immunology 2020, 426: 1-19. PMID: 32588229, DOI: 10.1007/82_2020_218.Peer-Reviewed Original ResearchConceptsTertiary lymphoid organsSecondary lymphoid organsLymphoid tissue organizerHigh endothelial venulesLymphoid organsDendritic cellsB cellsEctopic lymphoid organsFollicular dendritic cellsTertiary lymphoid structuresTertiary lymphoid tissueLymph nodesNK cellsChronic inflammationLTi cellsLymphoid structuresTolerance inductionInducer cellsLymphoid tissueEndothelial venulesAntigen presentationT cellsAccumulation of cellsStromal cellsAutoimmunityLymphotoxin targeted to salivary and lacrimal glands induces tertiary lymphoid organs and cervical lymphadenopathy and reduces tear production
Truman LA, Bentley KL, Ruddle NH. Lymphotoxin targeted to salivary and lacrimal glands induces tertiary lymphoid organs and cervical lymphadenopathy and reduces tear production. European Journal Of Immunology 2020, 50: 418-425. PMID: 32012252, DOI: 10.1002/eji.201948300.Peer-Reviewed Original ResearchConceptsTertiary lymphoid organsLacrimal glandCervical lymphadenopathySjögren's syndromeLymphoid organsTear productionRole of lymphotoxinTLO formationAutoantibody titresMALT lymphomaLymphoid tissueTransgenic miceLymphotoxinMiceLymphadenopathyGlandSyndromeOrgansAutoimmunityMucosalLymphomaLTαTitresSalivaryLTβ
2019
Disorders of the Immune System
Kavathas P, Krause P, Ruddle N. Disorders of the Immune System. 2019, 97-107. DOI: 10.1007/978-3-030-25553-4_6.ChaptersImmune systemImmune dysregulationHypersensitivity reactionsRegulation of autoimmunityMajor health problemHuman immune systemNumber of PIDsAllergic reactionsClinical impactAutoinflammatory diseasesForeign antigensImmune responseImmunodeficiency diseaseImmune functionHealth problemsNongenetic causesAutoimmunityHarmful responsesInborn errorsDiseaseType of disorderGenetic defectsImmunodeficiencyInfectionPredominant featureIntroduction to Immunology, Epidemiology, and Immunoepidemiology
Niccolai L, Ruddle N, Krause P. Introduction to Immunology, Epidemiology, and Immunoepidemiology. 2019, 3-17. DOI: 10.1007/978-3-030-25553-4_1.ChaptersIndividual multicellular organismsImmune responseMulticellular organismsRelevant health problemHealth-related eventsInflammatory diseasesSelect populationCombination of cellsHealth problemsEpidemiologic toolImmunoepidemiologyMicrobial infectionsEpidemiologyGenetic polymorphismsImmunologyEnvironmental factorsPopulationAutoimmunityMalignancyOrganismsInfectionDiversityDiseaseStudy
2016
Tertiary Lymphoid Tissues
Ruddle N. Tertiary Lymphoid Tissues. 2016, 480-485. DOI: 10.1016/b978-0-12-374279-7.07012-0.Peer-Reviewed Original ResearchTertiary lymphoid organsTertiary lymphoid tissueSecondary lymphoid organsLymphoid organsLymphoid tissueConventional lymphoid organsChronic graft rejectionHigh endothelial venulesChronic microbial infectionsStromal cellular compositionAntigen primingNonlymphoid organsGraft rejectionDeterminant spreadingLymph nodesChronic inflammationEndothelial venulesClinical diseaseImmune responseInfectious organismsMicrobial infectionsCellular compositionLymphatic vesselsEctopic sitesAutoimmunity
2009
Depletion of CD4+CD25+ T cells exacerbates experimental autoimmune encephalomyelitis induced by mouse, but not rat, antigens
Akirav EM, Bergman CM, Hill M, Ruddle NH. Depletion of CD4+CD25+ T cells exacerbates experimental autoimmune encephalomyelitis induced by mouse, but not rat, antigens. Journal Of Neuroscience Research 2009, 87: 3511-3519. PMID: 19125411, PMCID: PMC4429897, DOI: 10.1002/jnr.21981.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAntigensAutoantigensAutoimmunityBiomarkersCD4 AntigensCD4-Positive T-LymphocytesCells, CulturedCentral Nervous SystemChemotaxis, LeukocyteDisease Models, AnimalEncephalomyelitis, Autoimmune, ExperimentalFemaleInterferon-gammaInterleukin-10Interleukin-17Interleukin-2 Receptor alpha SubunitLymphocyte ActivationMiceMice, Inbred C57BLMultiple SclerosisMyelin ProteinsMyelin-Associated GlycoproteinMyelin-Oligodendrocyte GlycoproteinRatsT-Lymphocytes, RegulatoryConceptsExperimental autoimmune encephalomyelitisMyelin oligodendrocyte glycoproteinAutoimmune encephalomyelitisT cellsIL-10-producing cellsRegulatory T cellsTissue-restricted antigensCentral nervous systemField of autoimmunityT cell activationTreg depletionEAE severitySelf antigensOligodendrocyte glycoproteinForeign antigensExperimental diseaseNervous systemRelated antigensMiceSelf-antigen specificityAntigenTregsEncephalomyelitisAutoimmunityRats
1998
T helper cell differentiation in multiple sclerosis and autoimmunity
Martin R, Ruddle N, Reingold S, Hafler D. T helper cell differentiation in multiple sclerosis and autoimmunity. Trends In Immunology 1998, 19: 495-498. PMID: 9818541, DOI: 10.1016/s0167-5699(98)01345-0.Peer-Reviewed Original Research
1994
10 Studies of Tolerance, Inflammation, and Autoimmunity in Transgenic Mice
Antonia S, Elliott E, Guerder S, Picarella D, Ruddle N, Flavell R. 10 Studies of Tolerance, Inflammation, and Autoimmunity in Transgenic Mice. 1994, 155-174. DOI: 10.1016/b978-0-12-105760-2.50014-5.Peer-Reviewed Original ResearchAutoreactive T cellsT cellsTransgenic miceT antigen transgenic miceLocal antigen presentationSpecific T cellsInfluence of cytokinesAutoreactive cellsAntigen presentationTissue destructionEffective antigenAutoimmunityClonal expansionMiceTissue remodelingStudy of toleranceAntigenIsletsCellsTissueActivationInflammationHyperplasiaCytokinesExpression