中国仓鼠卵巢细胞
分泌物
卵巢
适应(眼睛)
鉴定(生物学)
抗体
细胞生物学
仓鼠
细胞
生物
计算生物学
化学
分子生物学
内分泌学
细胞培养
免疫学
生物化学
神经科学
遗传学
植物
作者
Ying Bai,Ivan Domenech Mercade,Ramy Elgendy,Giulia Lambiase,Sew‐Yeu Peak‐Chew,Catarina Franco,Steven Wingett,Tim J. Stevens,Luigi Grassi,Noah Hitchcock,Cristina Sayago Ferreira,Diane Hatton,Elizabeth A. Miller,Rajesh K. Mistry
标识
DOI:10.1101/2024.09.30.614046
摘要
The secretory capacity of Chinese hamster ovary (CHO) cells remains a fundamental bottleneck in the manufacturing of protein-based therapeutics. Unconventional biological drugs with complex structures and processing requirements are particularly problematic. Although engineered vector DNA elements can achieve rapid and high-level therapeutic protein production, a high metabolic and protein folding burden is imposed on the host cell. Cellular adaptations to these conditions include differential gene expression profiles that can in turn influence the productivity and quality control of recombinant proteins. In this study, we used quantitative transcriptomics and proteomics analyses to investigate how biological pathways change with antibody titre. Gene and protein expression profiles of CHO pools and clones producing a panel of different monoclonal and bispecific antibodies were analysed during fed-batch production. Antibody-expressing CHO pools were heterogeneous, resulting in few discernible genetic signatures. Clonal lines derived from these pools, selected for high and low production, yielded a small number of differentially expressed proteins that correlated with productivity and were shared across biotherapeutics. However, the dominant feature associated with higher protein production was transgene copy number and resulting mRNA expression level. Moreover, variability between clones suggested that the process of cellular adaptation is variable with diverse cellular changes associated with individual adaptation events.
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