Binding of peptides naturally presented by HLA–B27 to the differentially disease–associated B*2704 and B*2706 subtypes, and to mutants mimicking their polymorphism

Abstract

B*2704 and B*2706 are closely related HLA–B27 subtypes of which the former but not the latter is associated to ankylosing spondylitis. Their peptide specificity relative to other disease–associated subtypes was analyzed by testing binding of self–peptides naturally presented by B*2705 or B*2702, and synthetic analogs, to B*2704, B*2706, and site–specific mutants mimicking their changes. Peptides with basic, aliphatic or aromatic C–terminal residues bound to B*2705 with similar affinity. In B*2704 C–terminal aliphatic/aromatic residues were preferred. B*2706 discriminated drastically between polar and nonpolar C–terminal residues, showing strong preference for Leu and Phe, and less than B*2704 for basic and Tyr residues. Loss of single acidic charges (D>S77, D>Y116) increased preference for C–terminal Leu and Phe, but allowed efficient binding of peptides with basic residues or Tyr. Their gain (V>E152, H>D114) maintained wide C–terminal specificity, but severely impaired binding, presumably by disrupting interactions with internal peptide residues. This was compensated by Y116 in the double Dl 14Y116 mutant. The specificity of B*2704 and B*2706 was explained only partially by the separate effects of single mutations, indicating that novel properties arise from concomitant changes at various positions. For instance, specificity of B*2706 for nonpolar C-terminal residues required simultaneous removal of Asp⁷⁷ and Asp116. B*2706 differed from B*2705, B*2702, and B*2704 in its lower suitability for C-terminal Tyr, suggesting that this feature might be relevant for HLA–B27 association to spondyloarthropathy.