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Previous studies have identified several residues lining the groove of the HLA-A2.1 molecule that are critical for Ag presentation. However, it is not clear whether these residues are critical for binding of the peptide epitope per se or for determining the appropriate conformation of bound peptide. To distinguish between these possibilities, mutations at eight of these residues have been tested for their effects on the ability of the molecule to bind and present two known peptide epitopes--one derived from the influenza A matrix protein, the other from HIV pol. With only one exception, the mutations were found to affect the binding of the two peptides similarly. Most of the mutations resulted in intermediate deleterious effects on binding, with the B pocket mutant F9Y having the most dramatic negative effect on binding for both peptides. Two of the mutations significantly enhanced binding of both peptides and a peptide-specific effect on binding was seen with the substitution, Y99H, which enhanced binding of the matrix peptide yet diminished binding of the pol peptide. In contrast to the effects on binding, the effects of the mutations on presentation differed considerably for the two peptides. The most striking difference was seen with two alpha 2 alpha helix mutants that are fully recognized by pol peptide-specific CTL but not recognized by matrix peptide-specific CTL even though levels of binding were comparably diminished for the two peptides. These results suggest that some interactions, although not critical for binding per se, are critical for functional binding and the importance of these interactions differs among peptide epitopes.

Type

Journal article

Journal

Journal of immunology (Baltimore, Md. : 1950)

Publication Date

02/1994

Volume

152

Pages

1213 - 1221

Addresses

Institute of Molecular Medicine, John Radcliffe Hospital, Oxford, UK.

Keywords

Antigen-Presenting Cells, T-Lymphocytes, Cytotoxic, Humans, Peptides, Gene Products, pol, HLA-A2 Antigen, HIV Antigens, Binding Sites, Amino Acid Sequence, Protein Structure, Tertiary, Structure-Activity Relationship, Molecular Sequence Data, In Vitro Techniques