Abstract

Abstract T-cells are a critical facet of the adaptive immune system and have been shown in both human and animal studies to be essential for control of Mycobacterium tuberculosis (Mtb) infection. T-cells recognize foreign antigens presented by infected cells via a unique T-cell receptor (TCR). Understanding the specific TCRs that mediate recognition and clearance of Mtb-infected cells is essential to inform vaccine design. We recently described a cohort of Ugandan household contacts of tuberculosis cases that appear to ‘resist’ Mtb infection (RSTRs) and showed that these individuals harbor IFN-γ independent T-cell responses to Mtb peptide antigens. The role of unconventional T-cells that recognize non-peptide antigens, such as gd T-cells, CD1-restricted and MR1-restricted T-cells (MR1T), in “resistance” is unknown. In this study, we aimed to characterize the frequencies, functional programs, and repertoire of unconventional T-cells in RSTRs in comparison with latently infected (LTBI) controls. We used multi-parameter flow cytometry, single cell RNA and TCR sequencing and immunosequencing to address these gaps. We observed a 1.65-fold increase in frequency of circulating MR1T cells among RSTRs in comparison with LTBI (p=0.03). Single-cell RNA-sequencing of 18,251 sorted MR1T cells revealed 5,150 clonotypes expressing a common transcriptional program, the majority of which were private. Immunosequencing of the TCR-α/d repertoire revealed several TCRα clonotypes that were expanded in RSTRs (p <0.01), including at least two MR1T clonotypes. Overall, our data reveal unexpected donor-specific diversity in the TCR repertoire of human MR1T cells as well as associations between MR1 clonotypes and ‘resistance’ to Mtb infection. This work was supported by grants from the NIH (R01-AI124348 to Boom, Stein, and Hawn; R01-AI125189 and R01-AI146072 to Seshadri) and the Bill & Melinda Gates Foundation (OPP1151836 and OPP1109001 to Hawn and GH-VAP-IS-ID5 to Seshadri).

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