Authors
Marjoke F Debets, Omur Y Tastan, Simon P Wisnovsky, Stacy A Malaker, Nikolaos Angelis, Leonhard KR Moeckl, Junwon Choi, Helen Flynn, Lauren JS Wagner, Ganka Bineva-Todd, Aristotelis Antonopoulos, Anna Cioce, William M Browne, Zhen Li, David C Briggs, Holly L Douglas, Gaelen T Hess, Anthony J Agbay, Chloe Roustan, Svend Kjaer, Stuart M Haslam, Ambrosius P Snijders, Michael C Bassik, WE Moerner, Vivian SW Li, Carolyn R Bertozzi, Benjamin Schumann
Publication date
2020/10/13
Journal
Proceedings of the National Academy of Sciences
Volume
117
Issue
41
Pages
25293-25301
Publisher
National Academy of Sciences
Description
Protein glycosylation events that happen early in the secretory pathway are often dysregulated during tumorigenesis. These events can be probed, in principle, by monosaccharides with bioorthogonal tags that would ideally be specific for distinct glycan subtypes. However, metabolic interconversion into other monosaccharides drastically reduces such specificity in the living cell. Here, we use a structure-based design process to develop the monosaccharide probe N-(S)-azidopropionylgalactosamine (GalNAzMe) that is specific for cancer-relevant Ser/Thr(O)–linked N-acetylgalactosamine (GalNAc) glycosylation. By virtue of a branched N-acylamide side chain, GalNAzMe is not interconverted by epimerization to the corresponding N-acetylglucosamine analog by the epimerase N-acetylgalactosamine–4-epimerase (GALE) like conventional GalNAc–based probes. GalNAzMe enters O-GalNAc glycosylation but does …
Scholar articles
MF Debets, OY Tastan, SP Wisnovsky, SA Malaker… - Proceedings of the National Academy of Sciences, 2020