Therapeutic antibodies are a major class of pharmaceutical drugs used to treat a wide variety of diseases. They have several advantages including the high specificity and binding affinity to their molecular targets, and generally low immunotoxicity and mild adverse effects. The characterization of therapeutic antibodies is crucial to ensure drug efficacy and safety. Charge variant analysis can be used to examine the charge variant forms of therapeutic antibodies, which may reflect modifications that impact the drug quality. Native capillary electrophoresis-mass spectrometry (nCE-MS) analysis by an integrated ZipChip CE-MS system is an alternative and complementary method to cation-exchange chromatography and imaged capillary isoelectric focusing to support the characterization of charge variants. In this study, we performed nCE-MS analysis to evaluate the charge variants and impurities in therapeutic antibodies including immunoglobin G (IgG) monoclonal antibodies (mAbs), bispecific antibodies (bsAbs), and alternative formats such as therapeutic antibodies with addition or removal of antigen-binding domain. With the ZipChip CE-MS system, high-resolution charge variant separation was achieved for different types of therapeutic antibodies. Moreover, ZipChip nCE-MS analysis enabled high-sensitivity detection and identification of species with low abundance, including proteolytic cleavage and fragmentation in mAb, monospecific mAb impurities in bsAb, and O-glycosylation in alternative formats to support biopharmaceutical development and investigations.
Keywords: Charge variant analysis; Mass spectrometry; Microfluidic capillary electrophoresis; Monoclonal antibody; Native intact analysis; Post-translational modifications.
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