Abstract
As significant improvements in volumetric antibody productivity have been achieved by advances in upstream processing over the last decade, and harvest material has become progressively more difficult to recover with these intensified upstream operations, the segregation of upstream and downstream processing has remained largely unchanged. By integrating upstream and downstream process development, product purification issues are given consideration during the optimization of upstream operating conditions, which mitigates the need for extensive and expensive clearance strategies downstream. To investigate the impact of cell culture duration on critical quality attributes, CHO-expressed IgG1 was cultivated in two 2L bioreactors with samples taken on days 8, 10, 13, 15, and 17. The material was centrifuged, filtered and protein A purified on a 1ml HiTrap column. Host cell protein (HCP) identification by mass spectrometry (MS) was applied to this system to provide insights into cellular behavior and HCP carryover during protein A purification. It was shown that as cultivation progressed from day 8 to 17 and antibody titer increased, product quality declined due to an increase in post-protein A HCPs (from 72 to 475 peptides detected by MS) and a decrease in product monomer percentage (from 98% to 95.5%). Additionally, the MS data revealed an increase in the abundance of several classes of post-protein A HCPs (e.g., stress response proteins and indicators of cell age), particularly on days 15 and 17 of culture, which were associated with significant increases in total overall HCP levels. This provides new insight into the specific types of HCPs that are retained during mAb purification and may be used to aid process development strategies.
Highlights
The host cells that are used for the expression of mAbs, produce the desired product, and co-express the endogenous proteins that enable the cells to live and grow
This shows that material was found to be progressively more difficult to clarify toward the end of cultivation, which could be due to the increasing cell density; a theory discussed in previous literature[23] is that apoptotic and nonviable cells suffer a gradual breakdown of the cells' lipid bi-layer as a result of cell
Reiterating the previously mentioned theory that apoptotic and nonviable cells suffer a gradual breakdown of cells' lipid bi-layer as a result of cell age resulting in increased porosity of the membrane and a loss of membrane integrity,[23] it can be concluded that the mass spectrometry (MS) data presented here supports this hypothesis as several Host cell protein (HCP) species were detected which are indicators of cell age and cellular membrane breakdown
Summary
The host cells that are used for the expression of mAbs, produce the desired product, and co-express the endogenous proteins that enable the cells to live and grow. Jin et al.[1] investigated the impact of media, temperature, feeding strategy, agitation speed, process duration and cell viability on composition of HCPs and found viability to have the most significant effect. Did they measure higher levels of HCPs on day 15 of culture—when viability was only 11%—but they discovered that low-molecular weight species were more abundant at this time in the culture process, suggesting the release of proteases and the associated degradation of proteins at low viability. The types of HCP species that are present in processed material from various harvest points are explored to investigate cellular behavior in the context of mAb process development
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