Synthesis of glycosyl halides and glycosides via 1- O-sulfonyl derivatives

Abstract

The reaction of an aldose derivative containing a free anomeric hydroxyl group with trifluoromethanesulfonic anhydride or methanesulfonic anhydride, in the presence of halide ion and s-collidine, furnishes a glycosyl halide; if an alcohol is then introduced, glycoside synthesis is effected in an overall, “one-pot” reaction. Several α- d-glucopyranosides, including disaccharides, have been prepared in high yield by using 2,3,4,6-tetra- O-benzyl- d-glucose as the aldose, and generating the corresponding glycosyl bromide(s) in situ. As a halide-exchange step is incorporated in the reaction sequence, orthoacetate formation was favored in reactions of 2,3,4,6-tetra- O-acetyl- d-glucose, such as occurs with per- O-acetylglycosyl halides. Methanesulfonic anhydride promotes glycosidation or orthoester formation in the absence of halide ion, as well as in its presence, whereas formation of an intermediate glycosyl halide appears to be necessary in order to moderate the more vigorous reactions of the trifluoro derivative. The analogous reaction of methanesulfonyl chloride with an aldose provides a ready route to glycosyl chlorides. Under the conditions employed for these various syntheses, acid-sensitive protecting groups may be used, including cyclic and acyclic acetals and O-trityl substituents.