The excellent safety of the vaccine-adjuvant combinations demonstrated in this trial will facilitate follow-on studies to optimize dmLT-vaccine formulations. MEV also induced systemic IgA and IgG Libraries responses to LTB in serum in almost all vaccinated volunteers, with the highest response rate (97%) in the group receiving vaccine plus 10 μg dmLT. Indeed, the combination of MEV with 10 μg dmLT gave rise to comparable anti-LTB responses, both in IgA and IgG, as induced by a fourfold higher dose of LCTBA in a previous study [11]. Interestingly, the anti-LTB responses determined
by ELISA were closely mirrored by increases in LT neutralizing titers, supporting that anti-LTB responses reflect functional LT immunity. dmLT may also be capable of enhancing systemic anti-toxin immune responses, as suggested by
BIBF 1120 datasheet the finding (see Supplementary material) that MEV plus 10 μg dmLT induced significantly higher LT neutralizing learn more as well as anti-LT IgA and IgG antibody responses in serum than the first-generation ETEC vaccine containing a comparable dose of CTB. As in previous studies of oral, inactivated as well as live ETEC vaccines in Swedish and American volunteers [5] and [24], IgA antibody responses against all of the different CFs in serum were infrequent and low. Serum IgA antibody responses induced by MEV against O78 LPS were, however, frequent. Fecal and ALS IgA responses against O78 LPS were also observed in a majority of vaccinees. Although O78 LPS is only expressed by about 10% of clinical ETEC isolates [25], these responses may add to the protective coverage of the vaccine since we have previously shown that anti-O antibodies may provide protection against ETEC expressing the homologous serogroup [5]. A combination of LT and CF antigens seems to be required for
broad protective coverage. It has been estimated that a vaccine containing LT antigen and the most prevalent CF antigens, as those in MEV and in an oral, live ETEC candidate vaccine, ACE527, recently evaluated in humans [26], may have the below potential to protect against at least 80% of all ETEC strains causing disease in humans [1] and [5]. In contrast, a vaccine based on LT antigen alone will not offer protection against ST-only ETEC strains and is likely to provide shorter duration of protective immunity [27]. Based on the excellent safety profile and capacity of MEV to induce highly significant mucosal immune responses against the most prevalent ETEC virulence factors, studies are planned to evaluate the safety and immunogenicity of the vaccine alone and in combination with different dosages of dmLT in descending-age groups in Phase I/II trials in Bangladesh and for protective efficacy in visitors to ETEC-endemic areas. AMS and AL were the principal investigators. AMS, AL, JH, LB, RW, JC, NC and BG participated in the design of the studies and interpretation of results.