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Crystal Structures of Two Rat MHC Class Ia (RT1-A) Molecules that are Associated Differentially with Peptide Transporter Alleles TAP-A and TAP-B

2002; Elsevier BV; Volume: 324; Issue: 5 Linguagem: Inglês

10.1016/s0022-2836(02)01095-1

1089-8638

M.G. Rudolph, James Stevens, Jeffrey A. Speir, John Trowsdale, Geoffrey W. Butcher, Etienne Joly, Ian A. Wilson,

Immunotherapy and Immune Responses

Antigenic peptides are loaded onto class I MHC molecules in the endoplasmic reticulum (ER) by a complex consisting of the MHC class I heavy chain, β2-microglobulin, calreticulin, tapasin, Erp57 (ER60) and the transporter associated with antigen processing (TAP). While most mammalian species transport these peptides into the ER via a single allele of TAP, rats have evolved different TAPs, TAP-A and TAP-B, that are present in different inbred strains. Each TAP delivers a different spectrum of peptides and is associated genetically with distinct subsets of MHC class Ia alleles, but the molecular basis for the conservation (or co-evolution) of the two transporter alleles is unknown. We have determined the crystal structures of a representative of each MHC subset, viz RT1-Aa and RT1-A1c, in association with high-affinity nonamer peptides. The structures reveal how the chemical properties of the two different rat MHC F-pockets match those of the corresponding C termini of the peptides, corroborating biochemical data on the rates of peptide–MHC complex assembly. An unusual sequence in RT1-A1c leads to a major deviation from the highly conserved β3/α1 loop (residues 40–59) conformation in mouse and human MHC class I structures. This loop change contributes to profound changes in the shape of the A-pocket in the peptide-binding groove and may explain the function of RT1-A1c as an inhibitory natural killer cell ligand.