Fully synthetic immunogens. Part II. Studies on parallel dimerization of the human IgG1 hinge-fragment 225-232 with N- or C-terminal gastrin related extensions.

The bis-cysteinyl hinge-fragment 225-232 of human IgG1 has been extended at the N- or C-terminus with Nle15-desamido-human-little-gastrin-[5-17] and Nle15-human-little-gastrin-[5-17]-NH2, respectively. Thermodynamically controlled air oxidation of the resulting bis-cysteinyl-peptides led to the predominant formation of the corresponding dimers in parallel alignment despite the incorporation of the immunoglobulin-unrelated gastrin-sequences. These surprising results confirm the high degree of structural information inherent in the hinge-sequence and its intrinsic tendency to fold into the correct structure in terms of cysteine pairings. This protein subdomain-the hinge-peptide-is therefore well suited as core molecule for the design of fully synthetic immunogens with multiple attachment of antigenic determinants.