Homeostatic intestinal immunity is dominated by microbiota-independent cytotoxic Th1 cells

Abstract

Abstract Barrier tissues such as the skin and gut form the first line of defense against pathogens and establish an immune dialogue with the resident microbiota. To that end, they harbor immune populations geared towards barrier function, tolerance, and repair. Of particular interest are the large numbers of T cells. Some are specific towards commensal microbes or recognize previously encountered pathogens. However, the origin, antigen specificity, and function of most barrier tissue-resident T cells remains elusive. We have identified a dominant CD4 T cell population in the small intestine lamina propria characterized by the expression of T-bet. Surprisingly, this population is present in both germ-free and conventionally reared (SPF) mice at homeostasis, and accounts for almost half of T cells at this site. Bulk and single-cell transcriptome analysis revealed that this population has cytotoxic potential. Furthermore, single-cell TCR sequencing showed parallel T cell repertoires in germ-free and SPF mice, suggesting shared antigen specificity. To explore the ontogeny of this population, we have identified clonally expanded TCRs and are generating low frequency retrogenic mice. Additionally, we have generated several T cell hybridomas from small intestine Th1 cells. Interestingly, preliminary results suggest that small intestinal Th1 TCRs exhibit some degree of self-reactivity, which may determine their development and differentiation in a foreign antigen-independent manner. Collectively, these studies will shed light on the function of a dominant intestinal T cell population and reveal novel insights into homeostatic tissue immune networks. This research was supported by the Intramural Research Program of NIAID, NIH.