Background: We created a live, attenuated, oral Shigella vaccine by constructing a lineage of guanine auxotrophs and conducted a double-blind, placebo-controlled trial to ascertain (1) the attenuation profile of Delta guaBA Shigella flexneri 2a, which harbors deletions in the guanine nucleotide synthesis pathway (CVD 1204); (2) additional attenuation conferred by deletions in set and sen genes encoding Shigella enterotoxins (ShETs) 1 and 2, respectively (CVD 1208); and (3) the relative immunogenicity of these constructs.
Methods: Inpatient volunteers received a single oral dose of CVD 1204, CVD 1208 (10(7), 10(8), or 10(9) cfu), or placebo. Clinical, immunologic, and microbiologic responses were evaluated.
Results: Reactogenicity occurred in 8 of 23 recipients of CVD 1204, characterized by diarrhea (30%), fever (22%), and/or dysentery (17%), but in only 1 (5%) of 21 recipients of CVD 1208 (brief fever) (P=.02, Fisher's exact test). Antilipopolysaccharide responses, as measured by antibody-secreting cell, serum, or fecal antibody levels, occurred in 67%, 71%, and 100% of recipients of CVD 1204 and in 86%, 43%, and 100% of recipients of CVD 1208 at doses of 10(7), 10(8), and 10(9) cfu, respectively.
Conclusions: We conclude that 1 or both ShETs are virulence determinants in humans; their inactivation, in combination with Delta guaBA, leads to a well-tolerated and immunogenic Shigella vaccine candidate.