Journal of Biological Chemistry 2009-02-13

The fine structure of Neisseria meningitidis lipooligosaccharide from the M986 strain and three of its variants.

Chao-Ming Tsai, Ewa Jankowska-Stephens, Rahman M Mizanur, John F Cipollo

Index: J. Biol. Chem. 284(7) , 4616-25, (2009)

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Abstract

Neisseria meningitidis is a cause of fatal sepsis and epidemic meningitis. A major virulence factor is cell wall lipooligosaccharide (LOS). The M986 strain has been used extensively in immunological and vaccine research. Yet, the LOS repertoire of this strain is not known. Here we have investigated the LOS structures of M986 and three of its variants OP1, OP2-, and OP2+. This strain and its variants present a series of related LOS families that are increasingly truncated in their listed order. The major structural differences are seen in the lacto-N-neotetraose alpha-chain. The gamma-chain Hep II contains two phosphoethanolamine (PEA) substitutions at C3 and C6/7. These substitutions were seen in all strains except OP2+ where the canonical core Hep II is missing. The PEA disubstitution was present in nearly stoichiometric amounts with only minor amounts of monosubstitution observed, and no glycomers devoid of PEA were seen. This was also the case in LOS with a complete lacto-N-neotetraosyl alpha-chain even though previous reports suggested that the presence of an extended alpha-chain hinders C3 PEA substitution of Hep II. Approximately 50% of gamma-chain GlcNAc was present in its 3-OAc-substituted form. Because Hep II C3 PEA substitution and gamma-chain GlcNAc OAc addition have been reported to negatively interact, the co-existence of these two modifications in these strains is unique. The LOS structures of M986 and three of its variants have been determined, which better defines these strains as tools for immunological and vaccine research.