HLA-DR3 molecules can bind peptides carrying two alternative specific submotifs.

Three different HLA-DR3-specific peptide binding motifs have been proposed. These motifs shared a major hydrophobic anchor at the N-terminus, but differed in the C-terminal anchor residues. In the present study, the structural requirements for peptide binding to HLA-DR3 were examined in further detail by using quantitative HLA-DR3-specific binding assays and sets of single substitution analogues of DR3 binding peptides (Lol pollen amino acids 171-190 and sperm whale myoglobin amino acids 132-151). We found that the requirements for binding to HLA-DR3 vary among different DR3 binding peptides; the absence of an anchor or the presence of only a weak anchor residue at either position n or n + 3 can be compensated for by the presence of a strong, positively charged anchor residue at position n + 5. These results explain several of the previously reported differences between DR3-specific peptide binding motifs. To evaluate the predictive value of the thus-refined motif, the DR3 binding capacity of an overlapping set of peptides, spanning the entire sequence of the 65-kDa heat shock protein of Mycobacterium tuberculosis was investigated and correlated with the occurrence of the different DR3 motifs. A strong correlation was found between the presence of the refined DR3 motif and peptide binding to purified HLA-DR3 molecules.