Candidacy of LPS-based glycoconjugates to prevent invasive meningococcal disease: Developmental chemistry and investigation of immunological responses following immunization of mice and rabbits

Glycoconjugates were prepared by covalently linking the immunogenic protein carrier CRM197 to O-deacylated lipopolysaccharide (LPS) derived from Neisseria meningitidis (strain H44/76), immunotype L3 galE LPS. This mutant strain elaborates a truncated LPS structure that displays immunological epitopes characteristic of 76% of Group B meningococcal (NmB) strains. CRM197 was covalently linked either to the reducing glucosamine residue of the lipid A region of the O-deacylated LPS or to a 2-keto-3-deoxy-octulosonic acid (Kdo) residue in the inner core region of the O-deacylated LPS. In both rabbits and mice a much stronger IgG response to the immunising antigen was generated in those animals that received conjugates linked via the lipid A region. Sera from mice that were immunized with these conjugates were assayed for their reactivity with LPS, both mutant and wild-type, of several homologous and heterologous NmB strains. Sera obtained from mice immunized with conjugates in which the carrier protein was linked via the Kdo moiety were only able to react with O-deacylated, but not fully acylated (native), LPS from the homologous strain. However, sera obtained from mice that were immunized with conjugates, in which the carrier protein was coupled to the lipid A region, reacted predominately with inner core epitopes that contained phosphoethanolamine at the same 3-position of the distal heptose residue (HepII) of the inner core LPS as was present on the immunising antigen. Additionally it was observed that sera from rabbits immunised with lipid A linked conjugates, unlike the mice responses, were generally not as specific for LPS antigens that contained phosphoethanolamine at the same 3-position as was present on the immunising antigen, but showed a broader inner core recognition, whereas those rabbits that received the Kdo-linked conjugates gave only a very weak non-specific response to all immunotypes. Finally, the sera from two out of six mice that had received lipid A linked conjugates had bactericidal activity against L3 wild-type NmB strain 8047 and one of these was able to passively protect against meningococcal infection in an infant rat model. This study demonstrates evidence towards the proof-in-principle that by using Nm inner core LPS conjugates coupled via the lipid A region with an intact phosphoethanolamine at the O-3 position of the HepII of the inner core LPS, it is possible to elicit functional and protective antibodies against meningococcal infection. (c) 2005 Elsevier Ltd. All rights reserved.