Nucleobase adducts bind MR1 and stimulate MR1-restricted T cells

Recognition of MR1-antigen complexes by TCR Vγ9Vδ2

The TCR-mediated activation of T cells expressing the TCR Vγ9Vδ2 relies on an innate-like mechanism involving the butyrophilin 3A1, 3A2 and 2A1 molecules and phospho-antigens, without the participation of classical antigen-presenting molecules. Whether TCR Vγ9Vδ2 cells also recognize complexes composed of antigens and antigen-presenting molecules in an adaptive-like manner is unknown. Here, we identify MR1-autoreactive cells expressing the TCR Vγ9Vδ2. This MR1-restricted response is antigen- and CDR3δ-dependent and butyrophilin-independent. TCR gene transfer reconstitutes MR1-antigen recognition, and engineered TCR Vγ9Vδ2 tetramers interact with soluble MR1-antigen complexes in an antigen-dependent manner. These cells are present in healthy individuals with low frequency and are mostly CD8+ or CD4-CD8 double negative. We also describe a patient with autoimmune symptoms and TCR γδ lymphocytosis in which ~10% of circulating T cells are MR1-self-reactive and express a TCR Vγ9Vδ2. These cells release pro-inflammatory cytokines, suggesting a possible participation in disease pathogenesis. Thus, MR1-self-antigen complexes can interact with some TCRs Vγ9Vδ2, promoting full cell activation and potentially contributing to diseases.

The carbonyl nucleobase adduct M3Ade is a potent antigen for adaptive polyclonal MR1-restricted T cells

The major histocompatibility complex (MHC) class I-related molecule MHC-class-I-related protein 1 (MR1) presents metabolites to distinct MR1-restricted T cell subsets, including mucosal-associated invariant T (MAIT) and MR1T cells. However, self-reactive MR1T cells and the nature of recognized antigens remain underexplored. Here, we report a cell endogenous carbonyl adduct of adenine (8-(9H-purin-6-yl)-2-oxa-8-azabicyclo[3.3.1]nona-3,6-diene-4,6-dicarbaldehyde [M3Ade]) sequestered in the A' pocket of MR1. M3Ade induced in vitro MR1-mediated stimulation of MR1T cell clones that bound MR1-M3Ade tetramers. MR1-M3Ade tetramers identified heterogeneous MR1-reactive T cells ex vivo in healthy donors, individuals with acute myeloid leukemia, and tumor-infiltrating lymphocytes from non-small cell lung adenocarcinoma and hepatocarcinoma. These cells displayed phenotypic, transcriptional, and functional diversity at distinct differentiation stages, indicating their adaptive nature. They were also polyclonal, with some preferential T cell receptor (TCRαβ) pair usage. Thus, M3Ade is an MR1-presented self-metabolite that enables stimulation and tracking of human-MR1T cells from blood and tissue, aiding our understanding of their roles in health and disease.

MR1 presents vitamin B6-related compounds for recognition by MR1-reactive T cells

The major histocompatibility complex class I related protein (MR1) presents microbially derived vitamin B2 precursors to mucosal-associated invariant T (MAIT) cells. MR1 can also present other metabolites to activate MR1-restricted T cells expressing more diverse T cell receptors (TCRs), some with anti-tumor reactivity. However, knowledge of the range of the antigen(s) that can activate diverse MR1-reactive T cells remains incomplete. Here, we identify pyridoxal (vitamin B6) as a naturally presented MR1 ligand using unbiased mass spectrometry analyses of MR1-bound metabolites. Pyridoxal, and the related compound, pyridoxal 5-phosphate bound to MR1 and enabled cell surface upregulation of wild type MR1*01 and MR1 expressing the Arg9His polymorphism associated with the MR1*04 allotype in a manner dependent on Lys43-mediated Schiff-base formation. Crystal structures of MR1*01 in complex with pyridoxal and pyridoxal 5-phosphate showed how these ligands were accommodated within the A-pocket of MR1. T cell lines transduced with the 7.G5 TCR, which has reported "pan-cancer" specificity, were specifically activated by pyridoxal presented by antigen-presenting cells expressing MR1*01 and MR1 allotypes bearing the less common Arg9His polymorphism. 7.G5 T cells also recognized, to a lesser extent, pyridoxal 5-phosphate and, importantly, recognition of both vitamers was blocked by an anti-MR1 antibody. 7.G5 TCR reactivity toward pyridoxal was enhanced when presented by the Arg9His polymorphism-bearing MR1 allotypes. Vitamin B6, and vitamers thereof, have been associated with various cancers, and here we describe a link between this ligand, MR1, and its allomorphs, and the pan-cancer 7.G5 TCR. This work identifies an MR1 ligand that can activate a diverse MR1-restricted TCR.

Characterization of Tumor-Infiltrating Lymphocyte-Derived Atypical TCRs Recognizing Breast Cancer in an MR1-Dependent Manner

The MHC class I-related 1 (MR1) molecule is a non-polymorphic antigen-presenting molecule that presents several metabolites to MR1-restricted T cells, including mucosal-associated invariant T (MAIT) cells. MR1 ligands bind to MR1 molecules by forming a Schiff base with the K43 residue of MR1, which induces the folding of MR1 and its reach to the cell surface. An antagonistic MR1 ligand, Ac-6-FP, and the K43A mutation of MR1 are known to inhibit the responses of MR1-restricted T cells. In this study, we analyzed MR1-restricted TCRs obtained from tumor-infiltrating lymphocytes (TILs) from breast cancer patients. They responded to two breast cancer cell lines independently from microbial infection and did not respond to other cancer cell lines or normal breast cells. Interestingly, the reactivity of these TCRs was not inhibited by Ac-6-FP, while it was attenuated by the K43A mutation of MR1. Our findings suggest the existence of a novel class of MR1-restricted TCRs whose antigen is expressed in some breast cancer cells and binds to MR1 depending on the K43 residue of MR1 but without being influenced by Ac-6-FP. This work provides new insight into the physiological roles of MR1 and MR1-restricted T cells.