A polymorphic residue in the amino terminal alpha 1 hemi-domain of the mouse Ld class I molecule affects its assembly and surface expression

Evidence for MR1 antigen presentation to mucosal-associated invariant T cells

The novel class Ib molecule MR1 is highly conserved in mammals, particularly in its alpha1/alpha2 domains. Recent studies demonstrated that MR1 expression is required for development and expansion of a small population of T cells expressing an invariant T cell receptor (TCR) alpha chain called mucosal-associated invariant T (MAIT) cells. Despite these intriguing properties it has been difficult to determine whether MR1 expression and MAIT cell recognition is ligand-dependent. To address these outstanding questions, monoclonal antibodies were produced in MR1 knock-out mice immunized with recombinant MR1 protein, and a series of MR1 mutations were generated at sites previously shown to disrupt the ability of class Ia molecules to bind peptide or TCR. Here we show that 1) MR1 molecules are detected by monoclonal antibodies in either an open or folded conformation that correlates precisely with peptide-induced conformational changes in class Ia molecules, 2) only the folded MR1 conformer activated 2/2 MAIT hybridoma cells tested, 3) the pattern of MAIT cell activation by the MR1 mutants implies the MR1/TCR orientation is strikingly similar to published major histocompatibility complex/alphabetaTCR engagements, 4) all the MR1 mutations tested and found to severely reduce surface expression of folded molecules were located in the putative ligand binding groove, and 5) certain groove mutants of MR1 that are highly expressed on the cell surface disrupt MAIT cell activation. These combined data strongly support the conclusion that MR1 has an antigen presentation function.

Polymorphism and conservation of the genes encoding Qa1 molecules

To evaluate the polymorphism and conservation of the major histocompatibility complex class Ib molecule Qa1 in wild mouse populations, we determined the nucleotide sequence of exons 1-3 of Qa1 of eight mouse haplotypes derived from wild mice, including Mus musculus domesticus, M. m. castaneus, M. m. bactrianus, and M. spretus, as well as two t haplotypes. Our data identify eight new alleles of Qa1. Taken together with previously published data on Qa1 among the common laboratory inbred strains, and in agreement with cytotoxic T-lymphocyte, serological, and biochemical data, these results further confirm the existence of two families of Qa1 molecules, Qa1(a)-like and Qa1(b)-like, and illuminate the extreme conservation of the peptide-binding region of these molecules, even across species.

Polymorphism at position 97 in MHC class I molecules affects peptide specificity, cell surface stability, and affinity for beta2-microglobulin

The two mouse MHC class I alleles, L(d) and L(q), share complete amino acid sequence identity except in the alpha2 domain, where they differ at six positions. Despite their similarity, L(q) has a stronger association with beta2-microglobulin (beta2m), is expressed at higher levels on the cell surface, demonstrates an increased cell surface half-life, and has fewer open forms on the cell surface than L(d). To determine the basis for their phenotypic differences, L(d) molecules containing chimeric L(d)-L(q) alpha2 domains were characterized, and these analyses implicated residue 97 (L(d)Trp and L(q)Arg) as the polymorphic site responsible for the disparity in beta2m association between the two alleles. Single substitution analysis at this site (L(d)W97R and L(q)R97W) confirmed this. Furthermore, the L(d)W97R mutant molecule has a longer cell surface half-life than either L(q) or L(d), and fewer open forms of L(d)W97R are observed on the cell surface. In addition, both L(d)W97R and L(q) possess decreased binding affinity for the L(d)-restricted tum(-) P91A(14-22) peptide compared with L(d). Collectively, these results and the known location of Trp(97) in the peptide binding cleft of L(d) strongly suggest that the substitution of Arg for Trp(97) in L(d) alters the peptide binding cleft, increasing its affinity for endogenous peptides, which results in greater cell surface stability and better retention of beta2m. Furthermore, these results imply that Trp(97) plays an important role in the ability of L(d) to efficiently participate in alternative MHC class I Ag presentation pathways.

H2-M3, a full-service class Ib histocompatibility antigen

H2-M3 is an MHC class Ib molecule of the mouse with a unique preference for N-formylated peptides, which may come from the N-termini of endogenous, mitochondrial proteins or foreign, bacterial proteins. The crystal structure of M3 revealed a hydrophobic peptide-binding groove with an occluded A pocket and the peptide shifted one residue relative to class Ia structures. The formyl group is held by a novel hydrogen bonding network, involving His9 on the bottom of the groove, and the side chain of the P1 methionine is lodged in the B pocket. M3 is a full-service histocompatibility (H) antigen, i.e. self-M3 can present endogenous peptides as minor H antigens and foreign, bacterial antigens in a defensive immune response to infection; and foreign M3 complexed with endogenous self-peptides.