LP2086 is a family of outer membrane lipoproteins fromNeisseria meningitidis, which elicits bactericidal antibodies and are currently undergoing human clinical trials in a bivalent formulation where each antigen represents one of the two known LP2086 subfamilies. Here we report the NMR structure of the recombinant LP2086 variant B01, a representative of the LP2086 subfamily B. The structure reveals a novel fold composed of two domains: a "taco-shaped" N-terminal -sheet and a C-terminal -barrel connected by a linker. The structure in micellar solution is consistent with a model of LP2086 anchored to the outer membrane bilayer through its lipidated N terminus. A long flexible chain connects the folded part of the protein to the lipid anchor and acts as spacer, making both domains accessible to the host immune system. Antibodies broadly reactive against members from both subfamilies have been mapped to the N terminus. A surface of subfamily-defining residues was identified on one face of the protein, offering an explanation for the induction of subfamily-specific bactericidal antibodies.Neisseria meningitidis is a Gram-negative bacterial pathogen, which colonizes the upper respiratory tract, occasionally invading the bloodstream, causing sepsis, and crossing the blood-brain barrier, resulting in meningitis. Despite the availability of effective antibiotic treatment, the rapid progression of meningococcal disease still results in substantial morbidity and mortality (1). Five meningococcal serogroups, categorized according to the chemical structure of the bacterial capsular polysaccharides, A, B, C, Y, and W135, account for most of the disease (2). Although a vaccine against four of the five major serogroups of meningococci is currently available, a vaccine for the prevention of serogroup B disease is still an unmet clinical need (3). The development of vaccines against serogroup B meningococci has focused on subcapsular antigens, in order to avoid the risk of autoimmunity arising from structural similarities between the capsular polysaccharides and the sialic acidmodified surface of developing human brain (1,4,5).Recently, a new family of lipidated outer membrane proteins, LP2086, was identified as a potential vaccine target (6). Members of the LP2086 family have been divided into two subfamilies, subfamily A and B, based on their genetic variation (6, 7). Since recombinant LP2086 (rLP2086) 3 elicits a bactericidal response that is largely subfamily-specific, a bivalent vaccine containing one protein from each subfamily will offer protection against serogroup B meningococci (6, 8 -11). LP2086 lipoproteins are lipidated at the N-terminal Cys with a tripalmitoyl lipid tail, which anchors the protein to the bacterial membrane (12). More recently, LP2086 was found to induce serum resistance via binding with human Factor H, a key regulator of the alternative complement pathway that prevents autologous complement attack (13).Our work seeks to understand the structural elements of LP2086 responsible for inducing the subf...
Neisseria meningitidis is a major cause of meningitis. Although protective vaccination is available against some pathogenic serogroups, serogroup B meningococci have been a challenge for vaccinologists. A family of outer membrane lipoproteins, LP2086 (or factor H binding proteins, fHbp), has been shown to elicit bactericidal antibodies and is currently part of a cocktail vaccine candidate. The NMR structure of the variant LP2086-B01 in micellar solution provided insights on the topology of this family of proteins on the biological membrane. Based on flow cytometry experiments on whole meningococcal cells, binding experiments with monoclonal antibodies, and the NMR structure in micellar solution, we previously proposed that LP2086-B01 anchors the outer bacterial membrane through its lipidated N-terminal cysteine, while a flexible 20 residue linker positions the protein above the layer of lipo-oligosaccharides that surrounds the bacteria. This topology was suggested to increase the antigen exposure to the immune system. In the present work, using micellar solution as a membrane mimicking system, we characterized the backbone dynamics of the variant LP2086-B01 in both its lipidated and unlipidated forms. In addition, binding experiments with a Fab fragment derived from the monoclonal MN86-1042-2 were also performed. Our data suggests that due to the length and flexibility of the N-terminal linker, the antigen is not in contact with the micelle, thus making both N- and C-domains highly available to the host immune system. This dynamic model, combined with the binding data obtained with MN86-1042-2, supports our previously proposed arrangement that LP2086-B01 exposes one face to the extracellular space. Binding of MN86-1042-2 antibody shows that the N-domain is the primary target of this monoclonal, providing further indication that this domain is immunologically important for this family of proteins.
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