Enzyme-labile protecting groups in peptide synthesis: development of glucose- and galactose-derived urethanes.

Abstract

The development of the tetra-O-acetyl-D-glucopyranosyloxycarbonyl (AGlOC) and tetra-O-acetyl-beta-D-galactopyranosyloxycarbonyl (AGalOC) protecting groups, which are fully enzyme-labile, carbohydrate-derived urethanes, is described. The protected amino acids were easily synthesized and subsequently converted into a series of model dipeptides through classical peptide couplings. Cleavage of an alpha/beta-anomeric mixture of a model AGlOC dipeptide was achieved with a "one-pot" procedure in good yield. To gain a better understanding of the enzymatic deprotection reaction, the AGalOC group was removed through a two step biotransformation (lipase catalyzed deacetylation, followed by beta-galactosidase catalyzed glycosidic bond fragmentation). Under these very mild reaction conditions (aq. buffer pH7.0, 37 degrees C), the desired N-terminal, unprotected dipeptide conjugates were obtained. The methodology was further utilized for the synthesis of an advanced tetrapeptide model system.