A miniaturized MR1 metabolite display system with native-like protein features

Major histocompatibility complex class I–related protein 1 (MR1) presents metabolite-derived antigens to mucosal-associated invariant T (MAIT) cells and other MR1-restricted T cells, playing a critical role in immune surveillance during infection and disease. Biochemical and structural studies of MR1 have been limited by the intrinsic instability of the molecule, which requires both ligand binding and association with beta-2-microglobulin (β ₂ m) for proper folding and stability. Here, we adapt MR1 to the SMART protein platform to generate a minimalistic system for studying MR1 ligand presentation and T cell receptor (TCR) recognition. SMART-MR1 consists of the MR1 α ₁ /α ₂ ligand-binding platform fused to a helical stabilizing domain that functionally replaces the α ₃ and β ₂ m domains, resulting in a truncated protein that preserves the architecture of the antigen-binding groove. We show that SMART-MR1 can be efficiently produced recombinantly and retains the ability to bind chemically diverse classes of MR1 ligands. The reduced size of SMART-MR1 enables amide-based solution NMR experiments, and its simplified structure allows for ligand screening using fluorescence polarization. Importantly, SMART-MR1 maintains binding to the MAIT-derived A-F7 TCR, as confirmed by isothermal titration calorimetry. Finally, cryo-EM structural analysis of SMART-MR1/5-OP-RU bound to A-F7 revealed that ligand presentation and TCR recognition are nearly identical to those observed in native MR1. Together, these results establish SMART-MR1 as a minimal yet native-like system, expanding the experimental toolkit available for studying MR1 interactions and facilitating future efforts aimed at targeting MR1 pathways.