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Merck
CN
  • Multi-omics profiling of CHO parental hosts reveals cell line-specific variations in bioprocessing traits.

Multi-omics profiling of CHO parental hosts reveals cell line-specific variations in bioprocessing traits.

Biotechnology and bioengineering (2019-05-09)
Meiyappan Lakshmanan, Yee Jiun Kok, Alison P Lee, Sarantos Kyriakopoulos, Hsueh Lee Lim, Gavin Teo, Swan Li Poh, Wen Qin Tang, Jongkwang Hong, Andy Hee-Meng Tan, Xuezhi Bi, Ying Swan Ho, Peiqing Zhang, Say Kong Ng, Dong-Yup Lee
摘要

Chinese hamster ovary (CHO) cells are the most prevalent mammalian cell factories for producing recombinant therapeutic proteins due to their ability to synthesize human-like post-translational modifications and ease of maintenance in suspension cultures. Currently, a wide variety of CHO host cell lines has been developed; substantial differences exist in their phenotypes even when transfected with the same target vector. However, relatively less is known about the influence of their inherited genetic heterogeneity on phenotypic traits and production potential from the bioprocessing point of view. Herein, we present a global transcriptome and proteome profiling of three commonly used parental cell lines (CHO-K1, CHO-DXB11, and CHO-DG44) in suspension cultures and further report their growth-related characteristics, and N- and O-glycosylation patterns of host cell proteins (HCPs). The comparative multi-omics and subsequent genome-scale metabolic network model-based enrichment analyses indicated that some physiological variations of CHO cells grown in the same media are possibly originated from the genetic deficits, particularly in the cell-cycle progression. Moreover, the dihydrofolate reductase deficient DG44 and DXB11 possess relatively less active metabolism when compared to K1 cells. The protein processing abilities and the N- and O-glycosylation profiles also differ significantly across the host cell lines, suggesting the need to select host cells in a rational manner for the cell line development on the basis of recombinant protein being produced.