Abstract
Hydrogen deuterium exchange mass spectrometry (HDX-MS) is widely used for epitope analysis of the antibodies. However, epitope analysis of glycoproteins is challenging because of the heterogeneity of attached N-linked glycans. Recent studies have reported methods where N-linked glycans were removed at low pH following hydrogen deuterium exchange reactions, but the methods for glycoproteins remain controversial. Here, we demonstrate the utility of using antigens with uniformed N-linked glycans in glycoprotein epitope analysis by HDX-MS. By treating HEK293 cells with kifunensine, we were able to prepare antigens mainly with N-linked high-mannose-type glycans. Analysis of epitopes of a monoclonal antibody S309 using antigens prepared with this method allowed us to identify an epitope that included the previously reported N-linked glycan attachment sites for this anti-body. We propose that using antigens with uniformed glycans should be effective for epitope analysis of glycoproteins, such as virus spike proteins covered by glycan shields. Moreover, we believe that this approach accelerates research on vaccines and neutralizing antibodies against viruses that escape host immunity through glycan shields or mutations.
Competing Interest Statement
The authors have declared no competing interest.
Footnotes
I updated the dataset identifier in the Binding Site Analysis of the Experimental Section. I also changed the information of the Corresponding Author.