Abstract
In the gut, various subsets of intraepithelial T cells (IELs) respond to self or non-self-antigens derived from the body, diet, commensal and pathogenic microbiota. Dominant subset of IELs in the small intestine are TCRαβCD8αα(+) cells, which are derived from immature thymocytes that express self-reactive TCRs. Although most of TCRαβCD8αα(+) IELs are thymus-derived, their repertoire adapts to microbial flora. Here, using high throughput TCR sequencing we examined how clonal diversity of TCRαβCD8αα(+) IELs changes upon exposure to commensal-derived antigens. We found that fraction of CD8αα(+) IELs and CD4(+) T cells express identical αβTCRs and this overlap raised parallel to a surge in the diversity of microbial flora. We also found that an opportunistic pathogen (Staphylococcus aureus) isolated from mouse small intestine specifically activated CD8αα(+) IELs and CD4(+) derived T cell hybridomas suggesting that some of TCRαβCD8αα(+) clones with microbial specificities have extrathymic origin. We also report that CD8ααCD4(+) IELs and Foxp3CD4(+) T cells from the small intestine shared many αβTCRs, regardless whether the later subset was isolated from Foxp3(CNS1) sufficient or Foxp3(CNS1) deficient mice that lacks peripherally-derived Tregs. Overall, our results imply that repertoire of TCRαβCD8αα(+) in small intestine expends in situ in response to changes in microbial flora.