2021
Diverse functional autoantibodies in patients with COVID-19
Wang EY, Mao T, Klein J, Dai Y, Huck JD, Jaycox JR, Liu F, Zhou T, Israelow B, Wong P, Coppi A, Lucas C, Silva J, Oh JE, Song E, Perotti ES, Zheng NS, Fischer S, Campbell M, Fournier JB, Wyllie AL, Vogels CBF, Ott IM, Kalinich CC, Petrone ME, Watkins AE, Dela Cruz C, Farhadian S, Schulz W, Ma S, Grubaugh N, Ko A, Iwasaki A, Ring A. Diverse functional autoantibodies in patients with COVID-19. Nature 2021, 595: 283-288. PMID: 34010947, DOI: 10.1038/s41586-021-03631-y.Peer-Reviewed Original ResearchConceptsPeripheral immune cell compositionSARS-CoV-2 infectionCOVID-19Effects of autoantibodiesTissue-associated antigensSpecific clinical characteristicsInnate immune activationImmune cell compositionCOVID-19 exhibitCOVID-19 manifestsAnalysis of autoantibodiesSARS-CoV-2Functional autoantibodiesMouse surrogateClinical characteristicsVirological controlClinical outcomesImmune activationMild diseaseAsymptomatic infectionAutoantibody reactivityDisease progressionHealthcare workersHigh prevalenceAutoantibodies
2015
Tissue instruction for migration and retention of TRM cells
Iijima N, Iwasaki A. Tissue instruction for migration and retention of TRM cells. Trends In Immunology 2015, 36: 556-564. PMID: 26282885, PMCID: PMC4567393, DOI: 10.1016/j.it.2015.07.002.Peer-Reviewed Original ResearchConceptsTissue-resident memory T cellsMemory lymphocyte clustersTRM cellsT cellsCD4 tissue-resident memory T cellsRobust local immune responseCD8 TRM cellsEffector T cellsLocal immune responseMemory T cellsNon-lymphoid tissuesLymphocyte clustersImmune responseInfectious agentsIncoming pathogensCell homingRecent findingsCellsInfectionFindings
2014
Epigenetic Reprogramming of the Type III Interferon Response Potentiates Antiviral Activity and Suppresses Tumor Growth
Ding S, Khoury-Hanold W, Iwasaki A, Robek MD. Epigenetic Reprogramming of the Type III Interferon Response Potentiates Antiviral Activity and Suppresses Tumor Growth. PLOS Biology 2014, 12: e1001758. PMID: 24409098, PMCID: PMC3883642, DOI: 10.1371/journal.pbio.1001758.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsApoptosisCell Line, TumorCell ProliferationCpG IslandsCricetinaeCytomegalovirusDNA MethylationEpigenesis, GeneticHepatocytesHerpesvirus 1, HumanHistone Deacetylase InhibitorsHistone DeacetylasesHost-Pathogen InteractionsHumansInterferon-gammaMiceNIH 3T3 CellsOrgan SpecificityPromoter Regions, GeneticReceptors, CytokineReceptors, InterferonRNA, Small InterferingSignal TransductionVesiculovirusConceptsHDAC inhibitorsPro-apoptotic activityRepression machineryExpression programsTranscriptional silencingEpigenetic reprogrammingEpigenetic rewiringUbiquitous expressionMolecular mechanismsCell typesSpecific mannerSuppress tumor growthReceptor subunitsPotential antitumor strategyNonresponsive cellsIFN responseAntiviral immunityViral pathogensExpressionReceptor expressionType III interferonsAntitumor strategyΒ receptorTumor growthEpithelial origin
2013
Cell type-dependent requirement of autophagy in HSV-1 antiviral defense
Yordy B, Iwasaki A. Cell type-dependent requirement of autophagy in HSV-1 antiviral defense. Autophagy 2013, 9: 236-238. PMID: 23095715, PMCID: PMC3552887, DOI: 10.4161/auto.22506.Peer-Reviewed Original ResearchMeSH KeywordsAnimalsAutophagyGanglia, SpinalHerpesvirus 1, HumanHumansImmunity, InnateMiceMutationNeuronsOrgan SpecificityVirus ReplicationConceptsDRG neuronsAntiviral programI interferonHSV-1Dorsal root ganglion neuronsRobust type I IFN responseType I IFN responseMost viral infectionsAntiviral immune mechanismsAntiviral defenseHSV-1 infectionI IFN responseType I interferonInnate antiviral responseType IGanglion neuronsImmune mechanismsViral controlLess cell deathViral infectionAntiviral responseIFN responseInfection modelAntiviral defense mechanismNeurons
2007
Vaginal epithelial dendritic cells renew from bone marrow precursors
Iijima N, Linehan MM, Saeland S, Iwasaki A. Vaginal epithelial dendritic cells renew from bone marrow precursors. Proceedings Of The National Academy Of Sciences Of The United States Of America 2007, 104: 19061-19066. PMID: 18006657, PMCID: PMC2141908, DOI: 10.1073/pnas.0707179104.Peer-Reviewed Original ResearchMeSH KeywordsAdoptive TransferAnimalsAnimals, CongenicAntigens, CDAntigens, SurfaceBone Marrow CellsCell LineageDiestrusEpidermal CellsEpithelial CellsFemaleHerpes GenitalisLectins, C-TypeLymph NodesMannose-Binding LectinsMiceMice, Inbred C57BLMice, TransgenicMucous MembraneMultipotent Stem CellsOrgan SpecificityRadiation ChimeraVaginaConceptsEpithelial dendritic cellsDendritic cellsLangerhans cellsKey professional antigen-presenting cellsProfessional antigen-presenting cellsSkin Langerhans cellsAntigen-presenting cellsPrimary immune responseEpidermal Langerhans cellsMucosal epithelial liningBone marrow precursorsSquamous epithelial layerStratified squamous epithelial layerHSV-2Sex hormonesImmune responseOral cavityVaginal mucosaEpithelial liningMarrow precursorsActivation statusSpecialized subsetCytometric analysisEpithelial layerCells