Synergistic role of riboflavin-auxotrophic Enterococcus for MR1 expression and intra-tumoral mucosal associated invariant T (MAIT) cell activation

The role of mucosal invariant T cells (MAITs), in the lung tumor microenvironment re-mains poorly understood, especially in the setting of immune checkpoint inhibitors. We identified intratumoral MAIT cells from paired single cell RNA and TCR sequencing datasets of tumor infil-trating CD3 T cells isolated from non-small cell lung cancer tumors in patients receiving neoadju-vant PD-1 blockade therapy. MAIT cells were subclustered to identify conventional MAIT-associ-ated TCR clonotypes predicted to recognize intratumoral bacteria, which we then tested for func-tional recognition using a MAIT TCR capture functional assay. Strikingly, although not directly recognized by MAIT cells, previously identified probiotic Enterococcus spp and detected in the intratumoral microbiome of lung cancer patients, selectively synergized with exogenous riboflavin biosynthesis-derived metabolites to induce expression of MR1 by antigen presenting cells, includ-ing dendritic cells, B cells and mononuclear phagocytes. Boosting of MR1 cell surface expression resulted from perturbation of endo-lysosomal vacuolar pathway by Enterococcus and recycling of early endosomal MR1 to the cytoplasmic membrane. Riboflavin auxotrophic Enterococcus spp may therefore exercise their beneficial immunomodulatory functions upon immune checkpoint blockade treatment, at least in part, by promoting intratumoral MR1 expression and innate like T cell activation. Our results indicate that composition of the intratumoral microbiome during im-mune checkpoint inhibitor treatment has the potential to impact the function of human intratumoral MAIT cells.