In vitro processing of insulin for recognition by murine T cells results in the generation of A chains with free CysSH.

Studies on the processing of insulin as an Ag for the presentation to MHC class II-restricted T cells revealed that the amino acid residues 1-14 of the insulin A chain are recognized by insulin-specific T cells. An A1-14 peptide containing three cys-residues that were protected by S-sulfonate groups still needed processing by APC for efficient presentation similar to native insulin. We suspected that reductive deblocking or opening of disulfide bonds that generates CysSH-residues may be an essential processing step for these Ag. Due to the instability of SH-groups it was not possible to test A chain peptides with free SH-groups in the usual way for processing-independent presentation by fixed APC. However, under acidic conditions (pH 5) during APC pulsing with the Ag we could demonstrate that the freshly reduced A1-14 fragment as well as reduced insulin are able to bind to Ia Ag and to stimulate appropriate T cells without further processing. Various substitutions of cys-residues by Ser within this peptide revealed that only CysA7 is critical for Ia binding and/or T cell recognition. In intact insulin, this residue links the A chain containing the T cell epitope to the B chain. Therefore, we propose that insulin processing is not dependent on proteolysis or on the generation of a conformational determinant but on the separation of A and B chains resulting in A chains whose cys-residues are converted into CysSH.