Multi-Attribute Monitoring of Complex Erythropoetin Beta Glycosylation by GluC Liquid Chromatography-Mass Spectrometry Peptide Mapping

Recombinant human erythropoetin (EPO) is an important biopharmaceutical mainly used for the treatment of anemia. It is highly heterogeneous because of common amino acid chemical degradations known to occur in protein therapeutics (e.g., oxidation and deamidation) and its complex glycosylation profile. Recently, multi-attribute monitoring (MAM), i.e., the quantification of multiple post-translational and chemical modifications in a single peptide mapping liquid chromatography-mass spectrometry (LC-MS)-based method, has received increased attention for the analysis of antibody-like biotherapeutic proteins. In this study, an MAM method for examination of residue-specific glycan profiles of EPO was established. The MAM method, by virtue of the increased sensitivity and selectivity provided with LC-MS, yielded additional site-specific information not afforded by the conventional quality control (QC) methods. Low abundant glycans as well as additional post-translational and chemical modifications could also be simultaneously detected by the MAM method. Our results demonstrate that desialylated N-oligosaccharides (DeNO) and N-acetylneuraminic acids (NeuSAc) could be monitored by the developed MAM approach with data readout highly comparable to QC methods, while differences were observed for charge isoform distribution. In summary, the comparative data obtained demonstrate that MAM by LC-MS peptide mapping can, in principle, adequately replace selected QC methods and would add value to the in-process control and release testing strategy of EPO.