Autoreactivity in naïve human fetal B cells is associated with commensal bacteria recognition
Chen JW, Rice TA, Bannock JM, Bielecka AA, Strauss JD, Catanzaro JR, Wang H, Menard LC, Anolik JH, Palm NW, Meffre E. Autoreactivity in naïve human fetal B cells is associated with commensal bacteria recognition. Science 2020, 369: 320-325. PMID: 32675374, DOI: 10.1126/science.aay9733.Peer-Reviewed Original ResearchConceptsB cell toleranceB cellsCell toleranceEarly human fetal lifeHuman fetal B cellsPolyreactive B cellsHuman fetal lifeApoptotic cellsFetal B cellsHuman fetal liverB cell specificitySingle B cellsAbundant autoantibodiesGut microbiota assemblyNewborn seraFetal lifeBone marrowFetal developmentHealthy adultsCommensal bacteriaRepertoire breadthMicrobiota assemblyFetal liverPreimmune repertoireCell specificityEnteric Nervous System-Derived IL-18 Orchestrates Mucosal Barrier Immunity
Jarret A, Jackson R, Duizer C, Healy ME, Zhao J, Rone JM, Bielecki P, Sefik E, Roulis M, Rice T, Sivanathan KN, Zhou T, Solis AG, Honcharova-Biletska H, Vélez K, Hartner S, Low JS, Qu R, de Zoete MR, Palm NW, Ring AM, Weber A, Moor AE, Kluger Y, Nowarski R, Flavell RA. Enteric Nervous System-Derived IL-18 Orchestrates Mucosal Barrier Immunity. Cell 2020, 180: 50-63.e12. PMID: 31923399, PMCID: PMC7339937, DOI: 10.1016/j.cell.2019.12.016.Peer-Reviewed Original ResearchConceptsEnteric nervous systemSingle-cell sequencingMucosal barrier immunitySingle-molecule fluorescenceIL-18Non-redundant roleSitu mRNA hybridization studiesEpithelial cellsUnbiased RNA sequencingRNA sequencingProtein responseBarrier immunityNervous systemConfocal microscopyCytokine IL-18Hybridization studiesInvasive bacterial infectionsSalmonella typhimurium infectionSequencingProfound consequencesIntestinal neuronsEnteric neuronsIntestinal immunityMucosal barrierTyphimurium infection