Similar synergetic effects were recently demonstrated for other meningococcal antigens in sera from humans and mice [55, 57]. The similar and distinct OPA titres with sera from mice, immunized with the recombinant and control vaccines, suggested that Omp85 antibodies were not opsonic. Neither was any difference in OPA titres obtained after adsorption of the same sera with recombinant Omp85 coupled to magnetic beads. Although it cannot be excluded that this antigen failed to adsorb antibodies to conformational epitopes, the results corresponded to those with the unadsorbed sera. Similar unpublished results from our group showed that this adsorption method, which removed Omp85
antibodies as detected on blots, did not affect the opsonic or bactericidal titres of sera from humans vaccinated with the 44/76 OMV vaccine or from patients convalescing from meningococcal disease. In contrast selleck to our findings, the recombinant Omp85 homolog from Burkholderia pseudomallei was reported to induce partially protective antibodies in mice with bactericidal and opsonic activities [58], although the protocols for the functional assays were rather different from
those in our study. However, other studies showed that this facultative intracellular bacterium was resistant to serum bactericidal activity [59] and that protection depended on a strong cell-mediated immune response and not on antibody levels [60], implying click here that Omp85 antibodies were less likely to be of functional importance for this organism. Oxymatrine In conclusion, the detergent-extracted meningococcal OMV vaccine with overexpressed Omp85 induced high but strain-dependent Omp85 antibody levels in inbred and outbred mouse strains. The Omp85 antibodies showed the same levels of opsonic and bactericidal activities as those obtained with the wt control vaccine, implying that Omp85 is a less attractive vaccine candidate, at least if not combined with other vaccine antigens. We are grateful to Martine Bos, Utrecht University, The Netherlands, for supplying the pFP10 plasmid with omp85,
to JoAnne Dillon, University of Ottawa, Canada for the use of the plasmid, and to Kari Tovslid, Norwegian Institute of Public Health, for technical support. Preparation of the outer membrane vaccines and the immunizations were supported by EC-grant QLRT-CT-1999-00359. Parts of this study were presented as an abstract (P114) at the 16th International Pathogenic Neisseria Conference in 2008 in Rotterdam, The Netherlands. “
“Pemphigus vulgaris is a rare life-threatening autoimmune bullous disease caused by immunoglobulin G (IgG) autoantibodies directed against desmogleins 1 and 3. Previously, we showed that intravenous immunoglobulin (IVIG) ameliorates anti-desmoglein-induced experimental pemphigus vulgaris in newborn naive mice.