The structure of aC. neoformanspolysaccharide motif recognized by protective antibodies: A combined NMR and MD study

Abstract

AbstractCryptococcus neoformansis a fungal pathogen responsible for cryptococcosis and cryptococcal meningitis. TheC. neoformanscapsular polysaccharide and shed exopolysaccharide functions both as a key virulence factor and to protect the fungal cell from phagocytosis. Currently, a glycoconjugate of these polysaccharides is being explored as a vaccine to protect againstC. neoformansinfection. In this combined NMR and MD study, experimentally determined NOEs andJ-couplings support a structure of the synthetic decasaccharide, GXM10-Ac3, obtained by MD. GXM10-Ac3was designed as an extension of glucuronoxylomannan (GXM) polysaccharide motif (M2) which is common in the clinically predominant serotype A strains and is recognized by protective forms of GXM-specific monoclonal antibodies. The M2 motif is characterized by a 6-residue α-mannan backbone repeating unit, consisting of a triad of α-(1→3)-mannoses, modified by β-(1→2)-xyloses on the first two mannoses and a β-(1→2)-glucuronic acid on the third mannose. The combined NMR and MD analyses reveal that GXM10-Ac3adopts an extended structure, with xylose/glucuronic acid branches alternating sides along the α-mannan backbone.O-acetyl esters also alternate sides and are grouped in pairs. MD analysis of a twelve M2-repeating unit polymer supports the notion that the GXM10-Ac3structure is uniformly represented throughout the polysaccharide. This experimentally consistent GXM model displays high flexibility while maintaining a structural identity, yielding new insights to further explore intermolecular interactions between polysaccharides, interactions with anti-GXM mAbs, and the cryptococcal polysaccharide architecture.Significance StatementThis study utilized a combined NMR and MD approach to elucidate the structure of aCryptococcus neoformansGXM synthetic decasaccharide (GXM10-Ac3), recognized by protective anti-GXM mAbs. The data revealed an extended structure in which the xylose/glucuronic acid branches and pairs of 6-O-acetyl esters predominantly alternate sides along the α-mannan backbone. MD analysis of a GXM polysaccharide predicts that the decasaccharide structure is uniformly represented in the polysaccharide. Additionally, the GXM exhibits high flexibility while maintaining structural identity. These findings lay the foundation for future studies aimed at understanding anti-GXM antibody-polysaccharide interactions.