AI Article Synopsis
- Protein expression from stably transfected CHO clones is traditionally time-consuming for making therapeutic proteins, but newer methods like stable pools have improved significantly in speed and productivity.
- Researchers have found that stable pools can produce high-quality SARS-CoV-2 spike proteins comparable to traditional clones in just weeks, rather than months.
- The study suggests updating regulatory guidelines to allow the use of CHO pools for rapid development of clinical trial materials, especially important during urgent situations like pandemics.
Article Abstract
Protein expression from stably transfected Chinese hamster ovary (CHO) clones is an established but time-consuming method for manufacturing therapeutic recombinant proteins. The use of faster, alternative approaches, such as non-clonal stable pools, has been restricted due to lower productivity and longstanding regulatory guidelines. Recently, the performance of stable pools has improved dramatically, making them a viable option for quickly producing drug substance for GLP-toxicology and early-phase clinical trials in scenarios such as pandemics that demand rapid production timelines. Compared to stable CHO clones which can take several months to generate and characterize, stable pool development can be completed in only a few weeks. Here, we compared the productivity and product quality of trimeric SARS-CoV-2 spike protein ectodomains produced from stable CHO pools or clones. Using a set of biophysical and biochemical assays we show that product quality is very similar and that CHO pools demonstrate sufficient productivity to generate vaccine candidates for early clinical trials. Based on these data, we propose that regulatory guidelines should be updated to permit production of early clinical trial material from CHO pools to enable more rapid and cost-effective clinical evaluation of potentially life-saving vaccines.
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| http://dx.doi.org/10.1002/bit.28387 | DOI Listing |
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