Description:
<jats:title>Abstract</jats:title>
<jats:p>
<jats:italic>Group B Streptococcus</jats:italic> type III (GBSIII) is the most relevant serotype among GBS strains causing infections and the potential of its capsular polysaccharide conjugated to a protein carrier as vaccine is well documented. Polysaccharide from GBSIII (PSIII) can form helical structures in solution where negatively charged sialic acid residues would be disposed externally providing stabilization to the helix. A peculiar high affinity to specific monoclonal antibodies (mAbs) has been reported for PSIII, and fragments of diverse size bind to mAbs in a length dependent manner. These data have been rationalized in terms of conformational epitopes that would be formed by fragments with >4 saccharidic repeating units. Saturation Transfer Difference NMR experiments have demonstrated that the sialic acid residue is not involved in antibody recognition. However the molecular basis of the interaction between PSIII and mAbs has not been fully elucidated. An important prerequisite to achieve this would be the availability of the three possible sugar sequences representing the pentasaccharide PSIII repeating unit. Herein we established a [2+3] convergent approach leading to these three pentasaccharides (<jats:bold>1–3</jats:bold>) with the end terminal sugar bearing a linker for possible conjugation. The PSIII fragments were coupled to the genetically detoxified diphtheria toxin CRM<jats:sub>197</jats:sub> to prove by ELISA that the three pentasaccharides are recognized by polyclonal anti-PSIII serum. The presence of the branching formed by a Glc residue β-(1→6) linked to GlcNAc was proven an important motif for antibody recognition.</jats:p>