The assembly and immunological properties of non-linear synthetic immunogens containing T-cell and B-cell determinants

For the rational design of synthetic vaccines, a potential immunogen must contain the appropriate helper T-cell and B-cell determinants to elicit a strong and relevant immune response. In this study we describe a method for the assembly of antigenic determinants from influenza virus hemagglutinin onto a lysine-based support, resulting in dimeric and trimeric constructs bearing both T-cell and B-cell determinants. A panel of synthetic immunogens was constructed incorporating peptides representing: (i) the B-cell determinant TLKLATG and the T-cell determinant PKYVKQNTLKLA which overlaps this sequence in the heavy chain (HA(1)) of the hemagglutinin; and (ii) the same B-cell determinant with an alternate T-cell determinant ALNNRFQIKGVELKS from the light chain (HA(2)). With these peptides we were able to investigate the effects of altering the source of T-cell help, increasing the copy number of B-cell determinants as well as comparing the presentation of determinants in either linear tandem or branched geometries. In general, peptides incorporating the non-native helper T-cell determinant in a branched conformation were superior immunogens, eliciting higher titres of both peptide-specific and virus-specific antibody. Increasing the copy number of the B-cell determinant also proved to be an advantage in terms of increasing antibody titres. Other evidence was obtained indicating that presentation of determinants to T cells may be different for linear peptide constructs compared to branched immunogens bearing the same determinants. (C) 1996 Elsevier Science Ltd.