Human T cells in barrier sites exhibit site-specific characteristics and clonal compartmentalization

Abstract

Abstract The skin, gut, and lung are critical physical and immune barriers that protect from pathogen entry. Within these sites, T cell memory is largely maintained by populations of tissue resident memory T cells (TRMs), capable of rapid protective responses. The degree of interconnection between these TRMs from various sites of residence is poorly understood, particularly in humans. Here, we analyze how tissue specificity affects transcriptional heterogeneity and the T cell receptor (TCR) repertoire across 9 tissue sites within individual donors, including barrier sites (skin, gut, and lung) and associated lymph nodes, as well as blood and lymphoid organs (blood, bone marrow, spleen). Cytometry by time-of-flight (CyTOF) and single cell RNA sequencing reveal phenotypic and transcriptomic features unique to skin or gut T cells, which are distinct from T cells in lymphoid sites or blood. These results were reflected in both bulk sequencing of TRBV gene rearrangement and single cell TCR sequencing, where skin and gut T cells exhibited site-specific clonal expansions that were not present in other sites. Conversely, lung T cells showed clonal overlap and transcriptional similarity to T cells in lymphoid and blood rich sites. Site-specific expansions were mediated by TRMs, while clones disseminated across tissues exhibit large clonal expansions and a CD8 terminal effector (TEMRA) phenotype. Together, these results reveal that TRMs in barrier sites are maintained in situ, while memory T cells in the lung, blood-rich and lymphoid sites are more interconnected. Blood T cells are not representative of barrier T cell clonal space. These results have important implications for monitoring and promoting barrier immunity through site-specific targeting. Supported by grants from NIH (P01 AI106697)