Development and application of an analytical approach to assess an antibody's potential for disulfide reduction.

Monoclonal antibody (mAb) interchain disulfide bond reduction has been observed in a recent large-scale clinical manufacturing operation. A massive reduction/precipitation at post-clarification steps has occurred. This note presents the development of a novel analytical approach to identify the "potential reduction"-a unique approach to predict the propensity of a monomeric-profiled mAb to be reduced in the post-harvest stage, such as harvest clarification and/or purification steps. The core of this new approach includes comparing the non-reducing capillary electrophoresis profiles of pre- and post-vacuum treated mAb in harvest cell culture fluid (HCCF). Using this approach, the potential reductions of two in-house mAbs in the unclarified and clarified cell culture harvest were assessed.

Characterization of AEBSF-antibody modifications for a protease inhibitor supplementation strategy.

Application of a protease inhibitor, 4-(2-aminoethyl) benzenesulfonyl fluoride (AEBSF), during the cell culture process was demonstrated to effectively reduce proteolytic activity at a specific amino acid site during the production of an HIV-1 broadly neutralizing antibody (bNAb). However, the addition of AEBSF could potentially introduce some modifications to the bNAb protein. Experimental design from sample preparation to LC-MS characterization was performed using middle-up and bottom-up approaches to identify AEBSF-modified species for the bNAb using an AEBSF supplementation in the cell culture media. Modified species along with the unmodified control sample were also subjected to binding activity assessment. The results showed that two amino acids (Tyr177 and Lys250) were susceptible to AEBSF modification in the bNAb test articles but at a negligible level and not in the CDR regions, which therefore did not reduce the in vitro binding activity of the bNAb.

Quantification of residual AEBSF-related impurities by reversed-phase liquid chromatography.

During research of a broadly neutralizing antibody (bNAb) for HIV-1 infection, site-specific clipping was observed during cell culture incubation. Protease inhibitor, 4-(2-aminoethyl) benzenesulfonyl fluoride (AEBSF), was supplemented to the cell culture feeding to mitigate clipping as one of the control strategies. It led to the need and development of a new assay to monitor the free AEBSF-related impurities during the purification process. In this work, a reversed-phase liquid chromatography (RPLC-UV) method was developed to measure the total concentration of AEBSF and its major degradant product, 4-(aminoethyl) benzenesulfonic acid (AEBS-OH). This quantitative approach involved hydrolysis pre-treatment to drive all AEBSF to AEBS-OH, a filtration step to remove large molecules, followed by RPLC-UV analysis. The method was qualified and shown to be capable of measuring AEBS-OH down to 0.5 µM with good accuracy and precision, which was then applied for process clearance studies. The results demonstrated that a Protein A purification step in conjunction with a mock ultrafiltration/diafiltration (UF/DF) step could remove AEBSF-related impurities below the detection level. Overall, this study is the first to provide a unique approach for monitoring the clearance of free AEBSF and its related degradant, AEBS-OH, in support of the bNAb research.