The antibody kinetics in sera from 27 adults after three doses of the Norwegian group B meningococcal outer membrane vesicle (OMV) vaccine was studied. The vaccinees received the third dose 4 to 5 years after the first two. Antibody responses against outer membrane proteins (OMPs) and lipopolysaccharides were studied by enzyme-linked immunosorbent assay and immunoblotting and with serum bactericidal assays (SBA) with three variants of the vaccine strain, 44/76. Six weeks after the second injection, the geometric mean (GM) of the levels of immunoglobulin G (IgG) against OMVs was about sevenfold higher than that of prevaccination levels, and 74% of the vaccinees developed a greater-than-twofold rise in SBA titer. After 6 months, the GM of IgG levels declined to about threefold higher, and after 4 to 5 years it declined to about twofold higher, than that before vaccination. The third dose induced a rapid increase in SBA titers in 96% of the vaccinees, and the GM of levels of IgG against OMVs rose to about 14-fold the prevaccination level. One year later, the IgG antibody levels had dropped to 4.6-fold the prevaccination level, but 88% of the vaccinees still showed bactericidal activity. The response after the two first doses was higher in individuals with prevaccination antibodies, but no such effect was found after three doses. The use of defined mutants in SBA and linear multiple regression analyses indicated that among the major OMPs, antibodies to the Opc and class 1 proteins made the most important single contributions to the bactericidal activity against the vaccine strain, but it also demonstrated the importance of antibodies against other antigens. After three doses, 68% of the vaccinees showed a significant SBA response against a strain lacking both the Opc and the class 1 proteins. Three doses converted almost all subjects to SBA responders and gave higher antibody levels and relatively less serosubtype-specific bactericidal activity than did two doses, probably indicating a broader cross-protection against heterologous strains.
Enolase represents one of the anchorless surface proteins of Streptococcus pneumoniae and has previously been identified as a plasminogen-binding protein, endowing this pathogen with host proteolytic activity. In this study the mAb 245,C-6 (IgG1) was produced in a BALB/c mouse after immunizing with a protein fraction from S. pneumoniae. The mAb reacted with recombinant pneumococcal enolase both under non-denaturing and denaturing conditions. The epitope for the mAb was mapped to residues 55 DKSRYGGLG 63 of pneumococcal enolase using a peptide array. By applying the previously reported structure of enolase, this epitope was localized in a surface-exposed loop in each of the monomers of the octameric enolase. Previous immunoelectron microscopic studies, using polyclonal rabbit antibodies against enolase, depicted enolase on the cell surface but did not quantify the amount of surface-exposed enolase on viable pneumococci. Here, flow cytometry revealed no binding of mAb 245,C-6 to viable pneumococci, including TIGR4 and its non-encapsulated isogenic mutant, and only a minor increase of fluorescence intensity was measured when the polyclonal anti-enolase antibodies were used. In contrast, control antibodies recognizing the choline-binding proteins (CBPs) PspA and PspC showed high reactivities. The non-encapsulated TIGR4 did not show increased levels of antibody binding for mAb 245,C-6 or polyclonal anti-enolase antibodies, but revealed increased binding of polyclonal antibodies reacting with PspA or PspC. These results suggest that, compared to other surface-exposed proteins such as CBPs, the amount of enolase under the selected conditions is low. Flow cytometry, however, with FITC-labelled plasminogen demonstrated that the amount of surface-exposed enolase is important for plasminogen binding and, therefore, is also important for pneumococcal pathogenesis. INTRODUCTIONStreptococcus pneumoniae is an important human pathogen causing a variety of diseases including pneumonia, meningitis, sepsis and otitis media. A prerequisite for invasive pneumococcal diseases (infections) is the ability of the bacteria to colonize the mucosal surface and penetrate the mucosal barriers. During these processes binding of bacterial factors such as adhesins are essential for the interactions with receptors on host cells. Among the bacterial factors that mediate direct adherence to human cells are phosphorylcholine (Cundell et al., 1995) and the choline-binding protein PspC, also known as SpsA and CbpA (Brooks-Walter et al., 1999;Hammerschmidt et al., 1997;Rosenow et al., 1997). The PspC protein binds to the secretory component of the polymeric Ig receptor or secretory IgA and this interaction mediates transmigration of pneumococci through mucosal epithelial cells (Elm et al., 2004;Zhang et al., 2000). In addition, PspC and the PspClike protein Hic have been shown to interact with complement factor H (Dave et al., 2004;Janulczyk et al., 2000). Many pathogenic bacteria also produce receptors for Abbreviations: GAPDH, glyceraldehyde-3-phos...
Mouse monoclonal antibodies (MoAbs) of the four IgG isotypes, all specific for the P1.16 epitope on the meningcoccal PorA protein, were tested for functional activities. The avidities of the antibodies, measured by NH 4 SCN elution in enzyme-linked immunosorbent assay, showed similar values for all the MoAbs. The serum bactericidal activity (SBA) defined as the lowest concentration of antibodies giving 50% reduction in the number of meningococcal colonyforming units using human serum as complement, showed a hierarchy of IgG3 >> IgG2b > IgG2a >> IgG1. For the opsonophagocytosis (OP), the hierarchy was IgG3 > IgG2b ¼ IgG2a >> IgG1. OP was measured in flow cytometry using log-phase live meningococci as target cells, normal human peripheral blood polymorphonuclear cells (PMNs) as effector cells and human serum as a complement source. The mouse MoAbs were negative in OP when using human PMNs in the absence of complement. The results demonstrate the importance of choosing the right isotype of mouse MoAbs when using them to judge the potential vaccine importance of their corresponding antigen. If such MoAbs should be used for passive vaccination against infectious diseases, the isotype would presumably play an important role for their anticipated clinical effects.
The sequence diversity of 45 Opa outer membrane proteins fromNeisseria meningitidis, Neisseria gonorrhoeae,Neisseria sicca, and Neisseria flava indicates that horizontal genetic exchange of opa alleles has been rare between these species. A two-dimensional structural model containing four surface-exposed loops was constructed based on rules derived from porin crystal structure and on conservation of sequence homology within transmembrane β-strands. The minimal continuous epitopes recognized by 23 monoclonal antibodies were mapped to loops 2 and 3. Some of these epitopes are localized on the bacterial cell surface, in support of the model.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
customersupport@researchsolutions.com
10624 S. Eastern Ave., Ste. A-614
Henderson, NV 89052, USA
This site is protected by reCAPTCHA and the Google Privacy Policy and Terms of Service apply.
Copyright © 2024 scite LLC. All rights reserved.
Made with 💙 for researchers
Part of the Research Solutions Family.