Differences between culture & non-culture confirmed invasive meningococci with a focus on factor H-binding protein distribution.

OBJECTIVES: To compare the distribution of capsular groups and factor H-binding protein (fHBP) variants among meningococcal isolates and non-culture clinical specimens and to assess the representativeness of group B isolates amongst group B cases as a whole. METHODS: A PCR sequencing assay was used to characterise fHBP from non-culture cases confirmed from January 2011 to December 2013. These were compared to genotypic data derived from whole genome analysis of isolates received during the same period. RESULTS: Group W and Y strains were more common among isolates than non-culture strains. The distribution of fHBP variants among group B non-culture cases generally reflected that seen in the corresponding isolates. Nonetheless, the non-culture subset contained a greater proportion of fHBP variant 15/B44, associated with the ST-269 cluster sublineage. CONCLUSIONS: Differences in capsular group and fHBP distribution among culture and non-culture cases may be indicative of variation in strain viability, diagnostic practice, disease severity and/or clinical presentation. Future analyses combining clinical case information with laboratory data may help to further explore these differences. Group B isolates provide a good representation of group B disease in E&W and, therefore, can reliably be used in fHBP strain coverage predictions of recently-licensed vaccines.

13-valent pneumococcal conjugate vaccine immune sera protects against pneumococcal serotype 1, 3, and 5 bacteremia in a neonatal rat challenge model.

PCV7 was first licensed in the United States in 2000 based on clinical efficacy studies. Since the introduction, PCV7 has demonstrated protective effectiveness for each of the vaccine serotypes. More recently, PCV13 has been licensed in more than 60 countries based on serological noninferiority to PCV7 for the shared serotypes and noninferiority to the least immunogenic serotypes of PCV7 for the additional 6 serotypes in PCV13. To evaluate whether the functional antibody responses to serotypes 1, 3, and 5 were sufficient to protect animals challenged with virulent strains of these serotypes, rhesus macaques were immunized with three clinical doses of PCV13. The macaques mounted robust anti-capsular polysaccharide IgG and opsonophagocytic killing (OPA) responses to each serotype contained in the vaccine. Pooled pre-immunization sera and post-immunization serum pools were tested in a neonatal rat bacteremia model. Passive transfer of pooled post-immunization sera, but not pre-immunization sera, protected neonatal rats from lethal IP challenge with serotype 1, 3, or 5 strains. The functional activity of PCV13 immune sera against a virulent type 3 strain was further evaluated using sera from human children immunized with 4 doses of PCV7 or PCV13. Pooled sera from children immunized with PCV13, but not pooled sera from children immunized with PCV7, which does not contain the serotype 3 polysaccharide conjugate, protected neonatal rats from lethal IP challenge with a highly encapsulated and virulent serotype 3 strain. These data suggest that PCV13 will provide protection against pneumococcal serotype 1, 3, and 5 disease in human populations, even at relatively low OPA titers.

Avidity of the immunoglobulin G response to a Neisseria meningitidis group C polysaccharide conjugate vaccine as measured by inhibition and chaotropic enzyme-linked immunosorbent assays.

Antibody avidity, the strength of the multivalent interaction between antibodies and their antigens, is an important characteristic of protective immune responses. We have developed an inhibition enzyme-linked immunosorbent assay (ELISA) to measure antibody avidity for the capsular polysaccharide (PS) of Neisseria meningitidis group C (MnC) and determined the avidity constants (K(D)s) for 100 sera from children immunized with an MnC PS conjugate vaccine. The avidity constants were compared to the avidity indices (AI) obtained for the same sera using a chaotropic ELISA protocol. After the primary immunization series, the geometric mean (GM) K(D) was 674 nM and did not change in the months following immunization. However, the GM avidity did increase after the booster dose (GM K(D), 414 nM 1 month after booster immunization). In contrast, the GM AI increased from an initial value of 118 after the primary immunization series to 147 6 months after the completion of the primary immunization series and then further increased to 178 after booster immunization. At the individual subject level, the avidity constant and AI correlated after the primary immunization series and after booster immunization but not prior to boosting. This work suggests that the AI, as measured by the chaotropic ELISA, in contrast to the K(D), reflects changes that render antibody populations less susceptible to disruption by chaotropic agents without directly affecting the strength of the binding interactions.