Towards a cleaner CHO chassis: systematic knockout of host cell proteins for efficient biopharmaceutical manufacturing
Jannis Peter Marzluf, Jennifer Klein, Daniela Kirchmeier, Alexander Stärk, Daniel Ziegner, Markus Gehrung, Franziska Rauh, Merle Rattay, Christoph Zehe, Ann-Cathrin Leroux

TL;DR
Scientists engineered Chinese hamster ovary cells to reduce impurities in biopharmaceutical production, improving efficiency and safety.
Contribution
A proteomics-guided strategy for multiplex knockout of host cell proteins in CHO cells to reduce impurities.
Findings
Multiplex CRISPR editing reduced host cell protein impurities by 57–85% without affecting cell growth or productivity.
Proteomic analysis identified 36 candidate genes suitable for knockout to streamline biopharmaceutical manufacturing.
Modified cell lines showed improved purification and reduced impurity load in fed-batch cultures.
Abstract
Host cell proteins (HCPs) are major process‐related impurities in biopharmaceutical manufacturing, imposing metabolic burden on production hosts and complicating downstream purification, thereby impacting cost, product stability, and patient safety. Here, we engineered Chinese hamster ovary (CHO) cells toward a streamlined production chassis through multiplex CRISPR‐mediated knockout of abundant and difficult‐to‐remove HCPs. Proteomic profiling across multiple clones, products, and downstream purification steps identified a core set of highly abundant proteins that contributed disproportionately to total released HCP mass and showed limited removal by standard purification processes. Screening of 62 candidate genes using pooled and single‐cell knockout approaches identified targets compatible with cell growth and productivity, yielding 36 validated candidates suitable for host‐cell…
Genes, proteins, chemicals, diseases, species, mutations and cell lines named across the full text — each resolved to its canonical identifier and authoritative record.
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Taxonomy
TopicsViral Infectious Diseases and Gene Expression in Insects · CRISPR and Genetic Engineering · Protein purification and stability
