Abstract
Recombinant protein production coopts the host cell machinery to provide high protein yields of industrial enzymes or biotherapeutics. However, since protein translation is energetically expensive and tightly controlled, it is unclear if highly expressed recombinant genes are translated as efficiently as host genes. Furthermore, it is unclear how the high expression impacts global translation. Here, we present the first genome-wide view of protein translation in an IgG-producing CHO cell line, measured with ribosome profiling. Through this we found that our recombinant mRNAs were translated as efficiently as the host cell transcriptome, and sequestered up to 15% of the total ribosome occupancy. During cell culture, changes in recombinant mRNA translation were consistent with changes in transcription, demonstrating that transcript levels influence specific productivity. Using this information, we identified the unnecessary resistance marker NeoR to be a highly transcribed and translated gene. Through siRNA knock-down of NeoR, we improved the production- and growth capacity of the host cell. Thus, ribosomal profiling provides valuable insights into translation in CHO cells and can guide efforts to enhance protein production.
Highlights
Late techniques and do not provide information regarding the exact ribosome positioning on a single transcript level or how a recombinant mRNA integrates into- and affects the translated endogenous mRNA pool
To emulate a production relevant growth setting, the CS13-1.0 Chinese hamster ovary (CHO) cell line was grown in a batch culture bioreactor system, and the cells were sampled at early and late growth phase for ribosome profiling to study the translatome during IgG-production
The recent advances in genomics and RNA sequencing technology enable in-depth analyses of mammalian cells producing recombinant proteins
Summary
Late techniques and do not provide information regarding the exact ribosome positioning on a single transcript level or how a recombinant mRNA integrates into- and affects the translated endogenous mRNA pool. In an antibody-producing cell line, the recombinant mRNAs were found to be the most abundant transcripts and sequestered a substantial amount of translating ribosomes (up to 15%). Improvements in bioprocess quality attributes were achieved by depleting the highly expressed and translated unnecessary NeoR mRNA by siRNA-mediated knock-down. This resulted in improved cellular growth, which was accompanied by an 18% increase in antibody titers. This study is the first to carefully map the translatome of the CHO cell to the nucleotide level and to demonstrate how recombinant expression affects the cell on the translational level
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