Characterization of Monoclonal Antibody N-Glycan Conformations by Novel Hydrophilic Interaction Liquid Chromatography (HILIC) with Trapped Ion Mobility Mass Spectrometry (TIMS) and Fluorescence Detection (FLD)

Abstract

Monoclonal antibodies (mAbs) have become prevalent in the pharmaceutical sector for treating various diseases and have a significant market presence. The determination of these molecules is complex and challenging. It is necessary to employ high-throughput technologies to characterize these pharmaceuticals in order to characterize sequencing, structure, composition, conformation, and mass. It is important to perform an N-glycosylation study on these macromolecules as their N-glycan profiles have a significant impact on their effectiveness. However, the conformational features of the N-glycans on mAb are not adequately addressed in commonly used methods. This study incorporated ion-mobility mass spectrometry as an additional dimension to established hydrophilic liquid chromatography trapped ion mobility spectrometry with fluorescence detection ((HILIC)LC/TIMS/FLD) in order to enhance the characterization of N-glycan structures. The N-glycans derived from two distinct mAbs and an immunoglobulin G (IgG) protein were labeled with procainamide and determined by (HILIC)LC/FLD with TIMS. The N-glycan profiles obtained from mAbs and IgG were examined in terms of conformation. The alterations in the N-glycan conformations were ascertained with the insertion of distinct monosaccharide units, such as galactose, into the structure. This method can be employed to clarify the intricate structures of N-glycans and offer insights into the conformational features of monoclonal antibodies throughout their production.