Macrophage-inducible expression of a model antigen in Salmonella typhimurium enhances immunogenicity.

Abstract

Attenuated Salmonella are useful oral vaccine vectors capable of carrying multiple heterologous antigen genes, but optimal expression of foreign antigens has not yet been achieved. We hypothesized that Salmonella phoP-activated genes, which are transcriptionally activated within antigen-processing macrophages, could prove useful for delivery of heterologous antigens to the immune system. We have created a suicide vector that allows the stable chromosomal insertion of heterologous antigen genes within the phoP-activated gene C (pagC) of Salmonella and permits the expression of heterologous antigens as fusion proteins between the first 84 amino acids of PagC and the chosen antigen. The Escherichia coli phoA gene encoding alkaline phosphatase was cloned into this vector; the resultant plasmid was used to construct Salmonella typhimurium strains that express PagC-alkaline phosphatase fusion proteins from a single chromosomal gene copy. Such strains were administered orally and i.p. as vaccines to BALB/c mice and compared with control strains expressing alkaline phosphatase constitutively. After 3 weeks, mouse sera were analyzed for IgG responses to S. typhimurium lipopolysaccharide and alkaline phosphatase. Remarkably, though all mice had comparable antibody responses to lipopolysaccharide, only mice immunized with strains bearing phoP-activated fusion genes had antibody responses to the heterologous antigen. We conclude that expression of a heterologous antigen from an S. typhimurium in vivo-induced promoter that is activated within macrophages markedly enhances the immunogenicity of a model antigen expressed from a single chromosomal gene copy.