Auxotrophic live oral Shigella flexneri vaccine protects monkeys against challenge with S. flexneri of different serotypes.

The aromatic-dependent live Shigella flexneri Y strain SFL114, attenuated by a Tn10-inactivated aroD gene, was given as an oral vaccine to 14 Macaca fascicularis monkeys. A significant clinical attenuation of SFL114 was seen (p = 0.0058) as all vaccinated monkeys tolerated 2 x 10(10)-1 x 10(11) bacteria of SFL114, whereas four out of seven monkeys orally given 1 x 10(11) of the virulent parent strain SFL1 developed shigellosis. The average excretion time for SFL114 and SFL1 were 2 and 18 days, respectively. As seen endoscopically SFL1 caused colonic lesions, whereas SFL114 did not. Histopathologic examination of colonic biopsies showed that SFL114 induced only slight acute inflammation, whereas SFL1 caused severe acute inflammation (p less than 0.01). The vaccine strain SFL114 elicited significant species-specific serum immune responses (p less than 0.005) as seen in enzyme immune assays using lipopolysaccharides from S. flexneri serotypes Y, 1b, and 2a and Escherichia coli K-12 as antigens. The titres were comparable to those seen in monkeys given virulent S. flexneri strains. Western blot analyses showed that many prevaccination sera contained antibodies directed against the invasion plasmid-coded polypeptides. However, after vaccination with SFL114 increased amounts of such anti-polypeptide antibodies were seen, particularly in sera from monkeys having a low prevaccination antibody level. SFL114 also elicited a significant species-specific (p less than 0.025) local intestinal sIgA response against the homologous lipopolysaccharide antigen. Vaccinated monkeys were clinically protected against an oral challenge with 1-2 x 10(11) live, virulent S. flexneri strains of any of serotypes Y (strain SFL1), 1b (strain SFL27), or 2a (strain M4243).(ABSTRACT TRUNCATED AT 250 WORDS)

An auxotrophic live oral Shigella flexneri vaccine: development and testing.

Through transduction, a wild-type strain of Shigella flexneri serotype Y (SFL1) was rendered auxotrophic and dependent on aromatic metabolites that are not available in mammalian tissues. Monkeys that were orally vaccinated with 10(11) bacteria of the transductant strain SFL114 remained healthy when challenged with 10(11) bacteria of wild-type strains of S. flexneri serotypes Y, 1b, and 2a. The safety and immunogenicity of SFL114 were next studied in volunteers who were given either 10(9) or 10(10) SFL114 bacteria orally. Mild intestinal discomfort that lasted for 1-2 days was reported by three (12%) of 25 volunteers given 10(9) live SFL114 bacteria and by 13 (54%) of 24 volunteers given 10(10) live SFL114 bacteria. A local intestinal secretory IgA response to the S. flexneri O-antigen was recorded. The in vitro and in vivo results suggest that the aroD transductant SFL114 possesses properties that are desirable in an oral live candidate vaccine.

Construction of an auxotrophic Shigella flexneri strain for use as a live vaccine.

A virulent Shigella flexneri serotype Y strain, SFL1, was made auxotrophic for aromatic metabolites, including p-aminobenzoic acid, which is not available in mammalian tissues, by transduction of a Tn10-inactivated aroD gene from Escherichia coli K-12 NK5131. One transductant, SFL114, selected for further studies, had the same biochemical and serological characteristics as the parent strain and the O-antigen patterns of the two strains were identical in SDS-PAGE and Western blot experiments. SFL114 was as invasive for cultured epithelial cells as SFL1, and both strains could escape from the phagocytic vacuole into the cytoplasm of the infected cells. However, the ability of SFL114 to multiply intracellularly was considerably reduced. When applied to the conjunctival sac of guinea pigs, the parent strain gave rise to keratoconjunctivitis, i.e. was Serény-positive, in 13 of 16 animals. By contrast, SFL114 was Serény-negative in all 11 guinea pigs tested. These in vitro and in vivo results suggest that the aromatic-dependent transductant S. flexneri SFL114 is attenuated and possesses properties desirable for a live vaccine.

Development of an auxotrophic oral live Shigella flexneri vaccine.

An oral live attenuated Shigella flexneri vaccine candidate strain was constructed by making it auxotrophic and dependent on aromatic metabolites not available in mammalian tissues. An aroD gene of Escherichia coli K12 strain NK 5131, inactivated by insertion in it of the Tn 10 transposon, was transduced using phage P1 into a virulent S. flexneri serotype Y strain (Sfl 1) isolated from a patient with bacillary dysentery. One of the transductant strains Sfl 114 was found to invade HeLa cells in vitro, to cause plaque formation in HeLa monolayers (i.e. maintain intracellular multiplication in vitro), but to be unable to cause keratoconjunctivitis in guinea-pig eyes. When the strain was fed to Macacca fascicularis monkeys it was well tolerated, excreted for 1-4 days, and found to elicit a local intestinal sIgA and serum IgA, IgM and IgG responses. Monkeys challenged with 100 ID50 dose (1 X 10(11) bacteria) of the virulent parent Sfl 1 strain were completely protected from development of diarrhoea. Coloscopy of the monkeys and the sampling of intestinal biopsies showed that the vaccine protected against the surface epithelial erosions and ulcerations seen in unimmunized monkeys. Killing of invading virulent shigellae apparently took place intracellularly in the mucosa suggesting that cellular immune mechanisms played a role in the elicited host defence. The constructed S. flexneri Sfl 114 strain has the properties of a promising shigella vaccine and will next be the subject of studies with human volunteers.