Human immunodeficiency virus is known to enter the host at parenteral and mucosal sites and consequently an effective vaccine should stimulate immunity at both routes of entry. One approach toward stimulating HIV-specific mucosal and systemic immunity is the use of candidate live oral Salmonella typhi vector vaccine, strain CVD 908, which has been shown to stimulate mucosal and systemic immunity in volunteers. Using recombinant DNA techniques we constructed an expression cassette which comprises the lpp promoter (Plpp) and sequences encoding recombinant gp120 (rgp120). When the Plpp-rgp120 expression cassette is integrated into the chromosome of CVD 908 in the delta aroC allele, high levels of recombinant gp120 expression are observed. It is likely that effective immunity against HIV in humans will require immunization with multiple HIV antigens. Hence, a second expression cassette encoding two additional HIV antigens with vaccine potential, p24 (a HIV-1 gag gene product) and Nef (a putative regulator of HIV-1 gene expression) has been constructed. We plan to integrate the p24-Nef-encoding expression cassette into the aroD locus in the chromosome of CVD 908 delta aroC::rgp120 in a stable manner to produce a CVD 908-HIV vector vaccine that expresses multiple HIV antigens.