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Tracing production instability in a clonally derived CHO cell line using single‐cell transcriptomics

Ioanna Tzani, Nicholas P. Herrmann, Sara Carillo, Cathy A. Spargo, Ryan Hagan, Niall Barron, Jonathan Bones, W. Shannon Dillmore, Colin Clarke

2021Biotechnology and Bioengineering26 citationsDOI

Abstract

A variety of mechanisms including transcriptional silencing, gene copy loss, and increased susceptibility to cellular stress have been associated with a sudden or gradual loss of monoclonal antibody (mAb) production in Chinese hamster ovary (CHO) cell lines. In this study, we utilized single-cell RNA-seq (scRNA-seq) to study a clonally derived CHO cell line that underwent production instability leading to a dramatic reduction of the levels of mAb produced. From the scRNA-seq data, we identified subclusters associated with variations in the mAb transgenes and observed that heavy chain gene expression was significantly lower than that of the light chain across the population. Using trajectory inference, the evolution of the cell line was reconstructed and was found to correlate with a reduction in heavy and light chain gene expression. Genes encoding for proteins involved in the response to oxidative stress and apoptosis were found to increase in expression as cells progressed along the trajectory. Future studies of CHO cell lines using this technology have the potential to dramatically enhance our understanding of the characteristics underpinning efficient manufacturing performance as well as product quality.

Topics & Concepts

Chinese hamster ovary cellTranscriptomeBiologyGeneCell cultureGene expressionGene silencingCell biologyRNA interferenceTransgenePopulationRNA-SeqGeneticsMonoclonal antibodyImmunoglobulin light chainCellMolecular biologyRNAAntibodyDemographySociologyViral Infectious Diseases and Gene Expression in InsectsSingle-cell and spatial transcriptomicsGene Regulatory Network Analysis