Many potential vaccine candidates for serogroup B Neisseria meningitidis (NMB) have been identified by reverse vaccinology, a genome-based approach. However, some candidates may be unseen owing to uncertain annotation or their peculiar properties. In this study, we describe the preparation and identification of a novel lipoprotein expressed in all meningococcal strains tested. mAb were first prepared from mice immunized with a meningococcal B strain isolated in Taiwan. Total proteins from the immunizing strain were separated by 2-DE in duplicate. Clone 4-7-3, which crossreacted to 174 tested meningococcal isolates, was used as the primary antibody for Western blotting. The immunoreactive spot was identified by LC-mass spectrometric analysis of the corresponding spot from the silver-stained gel and confirmed by molecular biology approach to be a novel lipoprotein encoded by the hypothetical NMB1468 gene. The potential use of this protein, designated Ag473/NMB1468, as a vaccine component was evaluated using the recombinant protein produced in Escherichia coli. Immunized mice were found to be protected from developing meningococcal disease after intraperitoneal inoculation with a lethal dose of meningococcal strain Nm22209, suggesting that Ag473/NMB1468 may be a promising vaccine candidate. This study also demonstrates the usefulness of the immunoproteomic approach in identification of novel vaccine candidates.
Outer membrane vesicle (OMV)- based vaccines have been used to provide strain-specific protection against capsular group B
Neisseria meningitidis
infections, but the full breadth of the immune response against the components of the OMV has not been established. Sera from adults vaccinated with an OMV vaccine were used to screen 91 outer membrane proteins (OMPs) incorporated in an antigen microarray panel. Antigen-specific IgG levels were quantified pre-vaccination, and after 12 and 18 weeks. These results were compared with IgG levels from mice vaccinated with the same OMV vaccine. The repertoires of highly responding antigens in humans and mice overlapped, but were not identical. The highest responding antigens to human IgG comprised four integral OMPs (PorA, PorB, OpcA and PilQ), a protein which promotes the stability of PorA and PorB (RmpM) and two lipoproteins (BamC and GNA1162). These observations will assist in evaluating the role of minor antigen components within OMVs in providing protection against meningococcal infection. In addition, the relative dominance of responses to integral OMPs in humans emphasizes the importance of this subclass and points to the value of maintaining conformational epitopes from integral membrane proteins in vaccine formulations.
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