Using differential scanning calorimetry for the development of non-reduced capillary electrophoresis sodium dodecyl sulfate methods for monoclonal antibodies

Abstract

Analysis of non-reduced and reduced monoclonal antibodies (mAbs) by capillary electrophoresis-sodium dodecyl sulfate (CE-SDS) is routinely used to detect product size variants and process-related impurities. Levels of high molecular weight (HMW) forms obtained from this method usually trend comparably to those obtained by orthogonal methods such as size-exclusion ultra-high performance liquid chromatography (SE-UHPLC). However, in the presented case study, comparison of CE-SDS data for three IgG1 mAbs (trastuzumab, mAb1, and mAb2) showed a discrepancy between amounts of observed HMW forms in mAb2 compared with its native forms determined by SE-UHPLC (~17% vs. ~0.5%, respectively).SDS chemical denaturation, as measured by differential scanning calorimetry, demonstrated that the high thermal stability of mAb2 caused an unidentified HMW peak observed by non-reduced (NR)-CE-SDS, which was the result of improper denaturing, resulting in a partially folded species. More so, this strategy enabled the rapid identification of optimal SDS concentration and temperature conditions needed for suitable denaturation for mAb2. This case study presents an alternative option for quick optimization of NR-CE-SDS methods when characterizing mAbs or other thermally stable proteins. Also, this strategy can be used to understand basic biophysical mechanisms of protein unfolding and investigate the higher-order structure imparted by specific sequences and understand how these sequences might affect the results of an analytical method such as CE-SDS.