Functional opsonic activity of human serum antibodies to inner core lipopolysaccharide (galE) of serogroup B meningococci measured by flow cytometry.

A recently described flow cytometric opsonophagocytic assay (OPA) was adapted to quantify the functional activity of serum antibodies specifically directed against serogroup B inner core lipopolysaccharide (LPS) of Neisseria meningitidis. The percentage of human peripheral polymorphonuclear leukocytes and monocytes (PMNms) ingesting fluorescently labeled, ethanol-fixed N. meningitidis organisms (phagocytic activity) in the presence of human sera was measured to reflect the serum opsonic activity against the bacterium. The contribution to opsonophagocytic activity of antibodies to inner core LPS was estimated by comparing the opsonic activities of adult and infant sera before and after adsorbing anti-LPS antibodies from the sera using purified LPS extracted from an LPS mutant (galE) of N. meningitidis strain MC58 (B:15:P1.7,16:L3). The specificity of the assay was further investigated using monoclonal antibody (MAb) B5, which binds to an inner core LPS epitope of N. meningitidis. A dose-dependent decrease in phagocytic activity was observed when MAb B5 was incubated with LPS from an inner core LPS (galE) mutant. Similarly, the number of PMNms ingesting fluorescently labeled polystyrene beads coated with inner core (galE) LPS decreased in a dose-dependent fashion when MAb B5 was incubated with various concentrations of the homologous inner core LPS. Strong correlations were found between the concentration of serum antibodies to inner core LPS (galE) versus the phagocytic activity using healthy adult sera (r(2) = 0.89). There was a correlation between phagocytic ingestion and initiation of intracellular oxidative burst (r(2) = 0.99) using polystyrene beads coated with inner core LPS and opsonized with the same sera using the oxidative burst indicator system dihydrorhodamine123/rhodamine 123. OPA results were also found to correlate closely with the results of the serum bactericidal assay using MAb B5 against the N. meningitidis MC58 galE mutant in the presence of human complement (r(2) = 0.994, P = 0.003, two-tailed test). These studies demonstrate that functional antibodies are produced in humans against meningococcal inner core LPS and that the OPA is a useful approach to study the opsonic activity of antibodies to inner core LPS in health and disease.

Analysis of the human Ig isotype response to lactoferrin binding protein A from Neisseria meningitidis.

An effective vaccine for serogroup B meningococci has yet to be developed and attention has turned to subcapsular antigens of the meningococcus as possible vaccine candidates. Iron binding proteins are being studied, with most interest focused on the transferrin binding proteins (TbpA and TbpB) and the ferric binding protein (FbpA). This study describes the purification of lactoferrin binding protein A (LbpA) from two meningococcal strains and assesses the human isotype-specific serum antibody response to these proteins in patients with proven meningococcal disease due to a range of phenotypes. Overall, fewer than 50% of sera contained IgG that recognised LbpA isolated from either strain and this antibody response was not uniform between the two proteins. There was some evidence that the antibody response varied between meningococcal phenotypes. This study demonstrates that LbpA does not induce a highly cross-reactive antibody response, indicating that it is unlikely to be an effective vaccine antigen.

The role of B/T costimulatory signals in the immunopotentiating activity of neisserial porin.

A T cell-dependent immune response to group C meningococcal capsular polysaccharide (CPS) can be elicited when CPS is conjugated to the class 3 neisserial porin (CPS-porin). Treatment of CPS-porin-immunized mice with B7-2 blocking monoclonal antibody (MAb) caused a dramatic reduction in the CPS-specific IgG response, treatment with anti-B7-1 MAb had no effect, and concurrent blockade of B7-1 and B7-2 resulted in a synergistic abrogation of the CPS-specific IgG response while the CPS IgM response was unaffected. Anti-CD40L MAb treatment caused a significant reduction of both CPS-specific IgG and IgM levels. In contrast, blockade of CTLA4 interactions resulted in increases in both CPS IgG and IgM responses in CPS-porin-immunized mice. These data support the hypothesis that the ability of neisserial porins to improve the immune response to poorly immunogenic antigens (e.g., polysaccharides) is related to porin-induced increases in B7-2 expression on antigen-presenting cells and enhanced B/T cell interactions.

The contrasting mechanisms of serum resistance of Neisseria gonorrhoeae and group B Neisseria meningitidis.

Neisseria gonorrhoeae and Neisseria meningitidis have evolved intricate mechanisms to evade complement-mediated killing. Sialylation of gonococcal lipooligosaccharide (LOS) results in conversion of previously serum sensitive strains to unstable serum resistance, which is mediated by factor H binding. Porin (Por) is also instrumental in mediating stable serum resistance in gonococci. The 5th loop of certain gonococcal PorlAs binds factor H, which efficiently inactivates C3b to iC3b. Factor H glycan residues may be essential for factor H binding to certain Por1A strains. Por1A strains can also regulate the classical pathway by binding to C4b-binding protein (C4bp) probably via the 1st loop of the Por molecule. Certain serum resistant Por1 B strains can also regulate complement by binding C4bp through a loop other than loop 1. Purified C4b can inhibit binding of C4bp to Por 1B, but not Por1A, suggesting different binding sites on C4bp for the two Por types. Unlike serum resistant gonococci, resistant meningococci have abundant C3b on their surface, which is only partially processed to iC3b. The main mechanism of complement evasion by group B meningococci is inhibition of membrane attack complex (MAC) insertion by their polysaccharide capsule. LOS structure may act in concert with capsule to prevent MAC insertion. Meningococcal strains with Class 3 Por preferentially bind factor H, suggesting Class 3 Por acts as a receptor for factor H.

Demonstration of lipooligosaccharide immunotype and capsule as virulence factors for Neisseria meningitidis using an infant mouse intranasal infection model.

Using an infant mouse intranasal infection model, we have compared the virulence of 17 epidemiologically related isolates of Neisseria meningitidis associated with an outbreak of meningococcal disease in Gloucestershire, UK, and one German isolate. The isolates were all of serotype 15 subtype P1:7, 16 and were identical by restriction fragment length polymorphism analysis, but differed in either (i) whether they were isolated from a case or a carrier, (ii) the presence or absence of group B capsule, or (iii) their lipooligosaccharide (LOS) immunotype. The results indicate that capsule is a major virulence determinant and is required for colonization and hence for invasion. In addition, the LOS L3,7,9 immunotype, when compared to the L1,8,10 immunotype, is a secondary virulence factor which enhances colonization of nasal passages and invasion of the blood stream by both case and carrier isolates. Two case isolates which were unusual in possessing the L1,8,10 immunotype, established invasive infection, but this was associated with a switch to the L3,7,9 immunotype. The results confirm that LOS is a virulence factor for N. meningitidis and that immunotype L3,7,9 is associated with invasive disease.

Intranasal infection of infant mice with Neisseria meningitidis.

In human meningococcal infection the mechanism of the transition from asymptomatic carriage to invasive disease is unknown, partly due to the lack of an effective animal model that mimics all stages of the human disease. Therefore, we have endeavoured to develop a model for the human infection by instilling a suspension of Neisseria meningitidis into the nostrils of infant mice and subsequently determining the numbers of organisms in the nasal passages, lungs, blood and brains. Intranasal (i.n.) instillation resulted in consistent nasal colonisation which usually developed into a lung infection. In many cases the lung infection preceded bacteraemia, which occasionally resulted in death of the mice. The severity of the infection and the transition to bacteraemia were enhanced by intraperitoneal (i.p.) treatment of the mice with iron dextran or human transferrin. A N. meningitidis strain that was avirulent in an i.p. infection was also avirulent following i.n. infection. The requirement for lung colonisation to precede bacteraemia and the need for i.p. injection of iron compounds limit the use of i.n. infection of the infant mouse as a model for human meningococcal disease. However, various aspects of meningococcal virulence can be examined using this model.