Investigation of the Roles of Toxin-Coregulated Pili and Mannose-Sensitive Hemagglutinin Pili in the Pathogenesis of Vibrio cholerae O139 Infection

In this study, adult volunteers were fed tcpA and mshA deletion mutants of V. cholerae O139 strain CVD 112 to determine the role of toxin-coregulated pili (TCP) and mannose-sensitive hemagglutinin (MSHA) in intestinal colonization. Eight of 10 volunteers who received CVD 112 or CVD 112 ΔmshA shed the vaccine strains in their stools; the geometric mean peak excretion for both groups was 1.4 × 105 CFU/g of stool. In contrast, only one of nine recipients of CVD 112 ΔtcpA shed vibrios in his stool (P \u3c 0.01); during the first 24 h after inoculation, 3 × 102 CFU/g was recovered from this volunteer. All recipients of CVD 112 and 8 (80%) of the recipients of CVD 112 ΔmshA developed at least a fourfold rise in vibriocidal titer after immunization. In contrast, only one (11%) of the nine recipients of CVD 112 ΔtcpA developed a fourfold rise in vibriocidal titer (P \u3c 0.01). We conclude that TCP are an important colonization factor of V. cholerae O139 and probably of El Tor V. cholerae O1. In contrast, MSHA does not appear to promote intestinal colonization in humans

Onset and Duration of Protective Immunity in Challenged Volunteers afterVaccination with Live Oral Cholera Vaccine CVD l03-HgR

CVD 103-HgR is a liveoral cholera vaccinethat, in phase I and II studies to date, has been well tolerated and immunogenic. In challenge studies of US volunteers conducted 4-5 weeks after vaccination, CVD 103-HgR provided significant protection against experimental cholera due to classical and El Tor Vibrio cholerae O1. To determine the onset and duration of protection, two volunteer challenge studies were conducted: the first, 6 months after vaccination and the second, 8 days after vaccination. In both studies, CVD 103-HgR was 100% protective against diarrhea and significantly reduced the rate of shedding of vibrios after challenge with V.cholerae classical Inaba strain 569B, the virulent parent strain of CVD 103-HgR. Previously vaccinated subjects were less likely than naive controls to develop rises in titer of vibriocidal antibodies after challenge (P = .002), and the mean peak titer of vibriocidalantibodies was less than among controls. CVD 103-HgR can provide homologous protective immunity as soon as 8 days after vaccination and protection can persist for at least 6 month

Safety and Immunogenicity of Live Oral Cholera Vaccine Candidate CVD 110, a ΔctxA ctxAzot zotace Derivative of El Tor Ogawa Vibrio cholerae

The current pandemic of cholera is caused primarily by Vibrio cholerae O1 of the El Tor biotype. Live attenuated classical biotype V. cholerae vaccinestrains prevent severeand moderate cholera due to either biotype in challenged volunteers but may provide less protection against mild cholera due to El Tor organisms. CVD 110, a new ctxA-deleted vaccine strain derived from an El Tor Ogawa parent, lacks zona occludens toxin (Zot), accessorycholera enterotoxin (Ace), and hemolysin/enterotoxin. Ten healthy adult volunteers were given 108 cfu of CVD 110 with buffer;7 developed diarrhea (mean stool volume, 861 mL). Vaccine organisms wereshed in stool by all vaccinees and were recovered from duodenal fluid in three-quarters of vaccinees. After vaccination, the geometric mean peak reciprocal vibriocidal titer among vaccinees was 17,829. CVD 110 is a powerful immunogen but insufficiently attenuated despite the absence of known potential enterotoxins of V. cholerae. Another unrecognized toxin or colonization alone may be responsible for diarrhea after ingestion of this strai

Dengue virus-specific, human CD4+ cytotoxic T lymphocytes generated in short-term culture

We previously reported cytotoxic activity of dengue virus-specific CD4+ CD8- T cell clones established in long-term in vitro culture. In the present experiments we tried to determine whether dengue virus-specific CD4+ CD8- CTL3 are present in short-term bulk cultures. Peripheral blood mononuclear cells (PBMC)3 from a donor who had been immunized with an experimental live attenuated dengue 1 vaccine 8 months earlier were used. PBMC were incubated with noninfectious dengue 1 antigen (Ag)3 for 7 days, and were examined for dengue 1-specific cytotoxic activity. PBMC cultured with dengue 1 Ag lysed autologous lymphoblastoid cell line (LCL)3 pulsed with noninfectious dengue 1 Ag, but did not lyse LCL pulsed with Ag of other dengue serotype, West Nile virus, or yellow fever virus, or control Ag. Treatment of cultured PBMC with monoclonal antibody to CD3 or CD4 and complement abrogated the cytotoxic activity but treatment with a monoclonal antibody to CD8 and complement did not. A time course study showed that dengue 1 Ag-specific CTL were first detected in 5 day cultures. Lysis of target cells by these CD4+ CTL were restricted by HLA class II, and HLA DQw1 and HLA DRw52 were determined to be the restriction molecules. These results indicate that dengue virus-specific CD4+ CD8- CTL are generated in short-term bulk cultures as well as in long-term-cultured cell lines, and support the concept that CD4+ CTL may be generated in vivo during infection

Phase 1 Safety and Pharmacokinetic Study of Chimeric Murine-Human Monoclonal Antibody cαStx2 Administered Intravenously to Healthy Adult Volunteers

Hemolytic-uremic syndrome (HUS) is a serious complication of infection by Shiga toxin-producing Escherichia coli. Shiga toxin type 2 (Stx2) is responsible for the renal toxicity that can follow intestinal infection and hemorrhagic colitis due to E. coli. A chimeric mouse-human antibody, designated cαStx2, that has neutralizing activity in a mouse model was produced and tested in healthy adult volunteers. In this phase I dose escalation study, cαStx2 was generally well tolerated. Pharmacokinetic studies indicated that clearance was stable over the dose range of 1.0 to 10 mg/kg of body weight (0.249 ± 0.023 ml/kg/h) but was higher for the 0.1-mg/kg dose (0.540 ± 0.078 ml/kg/h), suggesting saturable elimination. A similar nonlinear trend was observed for the volume of distribution, where average values ranged from 0.064 ± 0.015 liter/kg for the 1.0- to 10-mg/kg doses and 0.043 ± 0.005 for the 0.01-mg/kg dose. The relatively small volume of distribution suggests that the antibody is limited to the vascular (plasma) compartment. The mean half-life was 165 ± 66 h, with lowest values observed for the 0.1-mg/kg dose (56.2 ± 9.7 h) and the highest values reported for the 10.0-mg/kg dose (206.4 ± 12.4 h). Future studies are needed to confirm the safety of this cαStx2, and innovative clinical trials will be required to measure its efficacy in preventing or treating HUS