Synthesis of N-acetyllactosamine derivatives with variation in the aglycon moiety for the study of inhibition of sialyl Lewis x expression.

Herein we describe an inhibition study of the sialyl Lewis x (sLe(x)) expression on a human monocytic cell line (U937), using a series of peracetylated N-Acetyllactosamine (LacNAc) analogues with variation at the aglycon moiety. It was found that the extent of inhibition was related to the hydrophobicity and structure of the aglycon. In general, peracetylated LacNAc analogues with a naphthyl or biphenyl aglycon (3, 4, 6, and 7) were better in suppression of sLe(x) expression than a benzyl derivative (2). Steady-state kinetic experiments with human alpha-1,3-fucosyltransferases IV and VI (FucT IV and VI, EC 2.4.1.65) revealed that the deacetylated LacNAc-aglycons with naphthyl (18, 19, and 20) or biphenyl (17) moieties exhibited higher affinity to the fucosyltransferases than aglycon moieties with smaller hydrophobic groups (14, 15, and 16). These results are in agreement with the findings of the U937 cell-based experiments, and suggest that the higher enzyme affinity LacNAc-aglycons make better acceptor decoys and, hence, the observed differences in LacNAc-aglycon inhihitory effects on sLe(x) expression.

A new reactivity-based one-pot synthesis of N-acetyllactosamine oligomers.

Poly-N-acetyllactosamine oligomer is a type-2 glycan core from which a number of important bioactive glycoconjugates are assembled in vivo. Development of an effective synthesis of N-acetyllactosamine oligomers will therefore provide a new chemoenzymatic entry to this class of complex saccharides. This paper describes the design and synthesis of thioglycoside building blocks, determination of their relative reactivity values, and demonstration of their use in the programmable one-pot synthesis of various N-acetyllactosamine oligomers. Through a combination of segment condensation, the strategy allows for the preparation of larger oligosaccharides with minimal protecting group manipulation, as illustrated in the synthesis of an octasaccharide in a very short period of time.