Synthesis of C-5 analogs of N-acetylneuraminic acid via indium-mediated allylation of N-substituted 2-amino-2-deoxymannoses

This paper presents a short synthesis of new analogs of N-acetylneuraminic acid (Neu5Ac) varied structurally at C-5. The synthetic strategy includes indium-mediated coupling reactions between ethyl 2-(bromomethyl)acrylate and N-derivatized mannosamines, and the ozonolysis of the resulting enoates. The main advantage of this indium-mediated allylation for the synthesis of neuraminic acids comes from the efficient, stereoselective C-C bond formation, which affords predominantly the correct diastereomer having a three relationship between the newly generated hydroxyl group and the C-2 amide group of mannosamine. By this approach, Neu5Boc (4a), Neu5Gly (4b), Neu5-(6-NHCbz)hexanoyl (4c), and Neu5(1-naphthyl)acetyl (4d) were prepared in three steps (overall similar to 50%). In addition, several N-substituted neuraminic acids were synthesized by N-acylation of the amino functionality of neuraminic acid (5b), which was obtained by deprotecting the N-Boc group of Neu5Boc (4a). These analogs include Neu5BrAc (6a), Neu5acryloyl (6b), Neu5benzoyl (6c) and Neu5benzoyl-4-benzoyl (6d). The N-acylation method is especially suited for synthesis of neuraminic acids bearing substituents that can not tolerate ozonolysis or that are unstable (photo)-chemically. Finally, we illustrate the utility of synthetic neuraminic acids by converting 4c to a derivative of 2-deoxy-2,3-didehydroneuraminic acid (8c), a precursor to inhibitors of neuraminidases.