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  • Title: Expression of hepatitis B virus antigens in attenuated Salmonellae for oral immunization.
    Author: Schödel F, Will H.
    Journal: Res Microbiol; 1990; 141(7-8):831-7. PubMed ID: 2101472.
    Abstract:
    The aim of our work is to identify hepatitis B virus antigens that can be stably expressed in attenuated Salmonellae and elicit protective immune responses as live oral route vaccines. As a first carrier system, we expressed T-cell and B-cell epitopes of hepatitis B virus as fusion proteins with the non-toxic subunit B (LT-B) in attenuated Salmonellae. These recombinant Salmonellae elicited anti-LT-B T- and B-cell immune responses and anti-HBV nucleocapsid antigen (HBcAg) T-cell responses when fed to mice. To combine the protective potential and the high immunogenicity of HBc with the induction of virus neutralizing antibodies to HBV surface antigen, we constructed vectors expressing hybrid HBc/pre-S particles in which the pre-S epitopes were surface-exposed. With one of these vectors, stable constitutive high level expression of hybrid HBc/pre-S2 particles was achieved in several attenuated Salmonella strains. When recombinant Salmonellae expressing such hybrid HBc/pre-S2 fusion proteins were fed to mice, the animals developed high titres of anti-HBcAg-specific serum IgG after a single or multiple oral immunizations, depending on the strain used as a carrier. In addition, lower titered antibodies against the pre-S2 antibody-binding sites were elicited. This is the first HBV antigen eliciting high-titered immune responses after a single oral immunization in recombinant Salmonellae. The immunogenicity of periplasmic LT-B and cytoplasmic HBc/pre-S2 shows that surface exposure of a foreign antigen is not a prerequisite for its immunogenicity in live attenuated Salmonellae.
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