2019
Effector TH17 Cells Give Rise to Long-Lived TRM Cells that Are Essential for an Immediate Response against Bacterial Infection
Vesely M, Pallis P, Bielecki P, Low JS, Zhao J, Harman CCD, Kroehling L, Jackson R, Bailis W, Licona-Limón P, Xu H, Iijima N, Pillai PS, Kaplan DH, Weaver CT, Kluger Y, Kowalczyk MS, Iwasaki A, Pereira JP, Esplugues E, Gagliani N, Flavell RA. Effector TH17 Cells Give Rise to Long-Lived TRM Cells that Are Essential for an Immediate Response against Bacterial Infection. Cell 2019, 178: 1176-1188.e15. PMID: 31442406, PMCID: PMC7057720, DOI: 10.1016/j.cell.2019.07.032.Peer-Reviewed Original ResearchConceptsCD4 TTissue-resident memory T cellsBacterial infectionsResident memory T cellsFunction of airwayLife-long protectionEffector memory TMemory T cellsTh17 cellsTRM cellsΓδ TEffector cellsMemory TBacterial clearanceT cellsIL-7Adaptive immunityMouse modelMemory responsesVaccine designHost defenseLymphatic endothelial cellsDepletion studiesEndothelial cellsCellular originLow ambient humidity impairs barrier function and innate resistance against influenza infection
Kudo E, Song E, Yockey LJ, Rakib T, Wong PW, Homer RJ, Iwasaki A. Low ambient humidity impairs barrier function and innate resistance against influenza infection. Proceedings Of The National Academy Of Sciences Of The United States Of America 2019, 116: 10905-10910. PMID: 31085641, PMCID: PMC6561219, DOI: 10.1073/pnas.1902840116.Peer-Reviewed Original ResearchConceptsInfluenza infectionImpair barrier functionImpairs host defenseSeasonal influenza virusesInfluenza virus infectionLungs of miceImpairs mucociliary clearanceTissue repairInduction of IFNInnate antiviral defenseViral burdenMucociliary clearanceDisease outcomeRespiratory challengeVirus infectionSevere diseaseViral infectionCongenic miceHost responseViral transmissionHost defenseSingle-cell RNA sequencingInnate resistanceDisease pathologyInfluenza virus
2018
Regional Differences in Airway Epithelial Cells Reveal Tradeoff between Defense against Oxidative Stress and Defense against Rhinovirus
Mihaylova VT, Kong Y, Fedorova O, Sharma L, Dela Cruz CS, Pyle AM, Iwasaki A, Foxman EF. Regional Differences in Airway Epithelial Cells Reveal Tradeoff between Defense against Oxidative Stress and Defense against Rhinovirus. Cell Reports 2018, 24: 3000-3007.e3. PMID: 30208323, PMCID: PMC6190718, DOI: 10.1016/j.celrep.2018.08.033.Peer-Reviewed Original ResearchConceptsRIG-I stimulationAntiviral responseRhinovirus infectionBronchial airway epithelial cellsAcute respiratory infectionsEpithelial cellsRobust antiviral responseAirway epithelial cellsPrimary human nasalAirway damageRespiratory infectionsAirway microenvironmentAsthma attacksNasal mucosaLeading causeNrf2 knockdownNasal cellsNrf2 activationHuman nasalEpithelial defenseHost defenseBronchial cellsInfectionOxidative stressRhinovirus
2014
A Promiscuous Lipid-Binding Protein Diversifies the Subcellular Sites of Toll-like Receptor Signal Transduction
Bonham KS, Orzalli MH, Hayashi K, Wolf AI, Glanemann C, Weninger W, Iwasaki A, Knipe DM, Kagan JC. A Promiscuous Lipid-Binding Protein Diversifies the Subcellular Sites of Toll-like Receptor Signal Transduction. Cell 2014, 156: 705-716. PMID: 24529375, PMCID: PMC3951743, DOI: 10.1016/j.cell.2014.01.019.Peer-Reviewed Original ResearchConceptsToll-like receptorsToll-like receptor signal transductionSignal transductionDifferent organellesProinflammatory cytokine expressionSubcellular sitesInnate immune signal transductionInnate immune systemPhosphoinositide-binding domainsImmune signal transductionLipid binding proteinMultiple subcellular locationsReceptor signal transductionCytokine expressionLipid targetsImmune systemInnate immunityHost defenseProtein complexesSubcellular locationPlasma membraneAdaptor TIRAPTIRAPNatural activatorFamily members
2010
Regulation of Adaptive Immunity by the Innate Immune System
Iwasaki A, Medzhitov R. Regulation of Adaptive Immunity by the Innate Immune System. Science 2010, 327: 291-295. PMID: 20075244, PMCID: PMC3645875, DOI: 10.1126/science.1183021.Peer-Reviewed Original ResearchConceptsInnate immune recognitionB lymphocyte-mediated immune responsesImmune responsePattern recognition receptorsImmune recognitionAntigen-specific adaptive immune responsesLymphocyte-mediated immune responsesMicrobial pathogensInnate immune systemAdaptive immune responsesRecognition receptorsHost defenseField of immunologyAdaptive immunityImmune systemFundamental questionsReceptorsRegulationPathwayPathogensInvasionDefenseInjuryInfectionDiscovery
2008
T helper dependent CTL migration into the vaginal mucosa
Nakanishi Y, Lu B, Gerard C, Iwasaki A. T helper dependent CTL migration into the vaginal mucosa. The FASEB Journal 2008, 22: 852.5-852.5. DOI: 10.1096/fasebj.22.1_supplement.852.5.Peer-Reviewed Original ResearchCD4 helpCTL migrationVaginal mucosaIFN-inducible chemokinesIFN-γ productionSecretion of IFNChemokine receptor CXCR3Site of infectionAntiviral host defenseMucosal sitesChemokine secretionReceptor CXCR3T helpT lymphocytesVirus infectionVaginal epitheliumHelpless miceMouse modelMucosal tissuesHost defenseVirus 2InfectionInfection siteMucosaSecretion