Divergent Heparin Oligosaccharide Synthesis with Preinstalled Sulfate Esters

Traditional chemical synthesis of heparin oligosaccharides first involves assembly of the full length oligosaccharide backbone followed by sulfation. Herein, we report an alternative strategy in which the O‐sulfate was introduced onto glycosyl building blocks as a trichloroethyl ester prior to assembly of the full length oligosaccharide. This allowed divergent preparation of both sulfated and non‐sulfated building blocks from common advanced intermediates. The O‐sulfate esters were found to be stable during glycosylation as well as typical synthetic manipulations encountered during heparin oligosaccharide synthesis. Furthermore, the presence of sulfate esters in both glycosyl donors and acceptors did not adversely affect the glycosylation yields, which enabled us to assemble multiple heparin oligosaccharides with preinstalled 6‐O‐sulfates. Put it first: O‐Sulfates were installed onto glycosyl building blocks as trichloroethyl esters prior to assembly of the full‐length heparin oligosaccharides (see scheme). This enabled divergent synthesis of multiple heparin oligosaccharides from two common disaccharide intermediates.