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A conserved Bacteroidetes antigen induces anti-inflammatory intestinal T lymphocytes.

Djenet BousbaineLaura I FischMariya LondonPreksha BhagchandaniTiago Rezende de CastroMark MimeeScott W OlesenBernardo Sgarbi ReisLibusha KellyJuliana BortolattoMathilde PoyetRoss W ChelohaJohn SidneyJingjing LingAaron GuptaTimothy K LuAlessandro SetteEric John AlmJames J MoonGabriel D VictoraDaniel MucidaHidde L PloeghAngelina M Bilate
Published in: Science (New York, N.Y.) (2022)
The microbiome contributes to the development and maturation of the immune system. In response to commensal bacteria, intestinal CD4 + T lymphocytes differentiate into functional subtypes with regulatory or effector functions. The development of small intestine intraepithelial lymphocytes that coexpress CD4 and CD8αα homodimers (CD4IELs) depends on the microbiota. However, the identity of the microbial antigens recognized by CD4 + T cells that can differentiate into CD4IELs remains unknown. We identified β-hexosaminidase, a conserved enzyme across commensals of the Bacteroidetes phylum, as a driver of CD4IEL differentiation. In a mouse model of colitis, β-hexosaminidase-specific lymphocytes protected against intestinal inflammation. Thus, T cells of a single specificity can recognize a variety of abundant commensals and elicit a regulatory immune response at the intestinal mucosa.
Keyphrases
  • immune response
  • transcription factor
  • mouse model
  • nk cells
  • dendritic cells
  • high grade
  • peripheral blood
  • regulatory t cells