Oligosaccharide recognition by antibodies: Synthesis and evaluation of talose oligosaccharide analogues

Abstract

A series of monosaccharide (4–6), disaccharide (3,7–12), and trisaccharide (13–15) analogs of the native ligand 2, which fills the binding site of monoclonal antibody Se 155.4, have been synthesized and their bioactivity measured by solid- and solution-phase assays. The syntheses of disaccharide analogs sought to replace galactose by various alkyl groups at the O-2 position of mannose. The activity of one of these O-2 alkyl analogs was 75% of that observed for the trisaccharide and points to only weak net bonding between the solvent exposed galactose residue and the antibody binding site. The synthesis of talose analogs 13 and 14, where the mannose or galactose residues of 2 were replaced by talose produced ligands with activities from one-third to one-half of that seen for the native ligand 2. These activity changes did not exhibit discernable correlations with the ability of talose to disrupt water of solvation.Key words: abequose, 3,6-dideoxy-D-xylo-hexose, talose disaccharide and trisaccharide, antibody oligosaccharide interactions, molecular recognition of carbohydrates, water in antibody complexes, Salmonella LPS, monoclonal antibody Se 155.4, bacterial O-antigen.