Short- And Long-Term Effects On Mab-Producing Cho Cell Lines After Cryopreservation

Cryopreservation provides the foundation for research, development, and manufacturing operations in the CHO-based biopharmaceutical industry. Despite its criticality, studies are lacking that explicitly demonstrate that the routine cell banking process and the potential stress and damage during cryopreservation and recovery from thaw have no lasting detrimental effects on CHO cells. Statistics are also scarce on the decline of cell-specific productivity (Q(p)) over time for recombinant CHO cells developed using the glutamine synthetase (GS)-based methionine sulfoximine (MSX) selection system. To address these gaps, we evaluated the impact of freeze-thaw on 24 recombinant CHO cell lines (generated by the GS/MSX selection system) using a series of production culture assays. Across the panel of cell lines expressing one of three monoclonal antibodies (mAbs), freeze-thaw did not result in any significant impact beyond the initial post-thaw passages. Production cultures sourced from cryopreserved cells and their non-cryopreserved counterparts yielded similar performance (growth, viability, and productivity), product quality (size, charge, and glycosylation distributions), and flow cytometric profiles (intracellular mAb expression). However, many production cultures yielded lower Q(p) at increased cell age: 17 of the 24 cell lines displayed >= 20% Q(p) decline after similar to 2-3 months of passaging, irrespective of whether the cells were previously cryopreserved. The frequency of Q(p) decline underscores the continued need for understanding the underlying mechanisms and for careful clone selection. Because our experiments were designed to decouple the effects of cryopreservation from those of cell age, we could conclusively rule out freeze-thaw as a cause for Q(p) decline. (C) 2018 American Institute of Chemical Engineers