AI Article Synopsis
- * Integrating chaperones and specialized tRNA into the E. coli genome enables consistent co-expression, enhancing the efficiency of continuous fermentation for large-scale manufacturing of protein therapeutics.
- * Results from experiments show that continuously fermented extracts yield higher quantities of quality IgG with nonnatural amino acids, matching the potency of antibody-drug conjugates produced from traditional batch methods, indicating a promising direction for biopharmaceutical production.
Article Abstract
Recent advances in cell-free protein synthesis have enabled the folding and assembly of full-length antibodies at high titers with extracts from prokaryotic cells. Coupled with the facile engineering of the Escherichia coli translation machinery, E. coli based in vitro protein synthesis reactions have emerged as a leading source of IgG molecules with nonnatural amino acids incorporated at specific locations for producing homogeneous antibody-drug conjugates (ADCs). While this has been demonstrated with extract produced in batch fermentation mode, continuous extract fermentation would facilitate supplying material for large-scale manufacturing of protein therapeutics. To accomplish this, the IgG-folding chaperones DsbC and FkpA, and orthogonal tRNA for nonnatural amino acid production were integrated onto the chromosome with high strength constitutive promoters. This enabled co-expression of all three factors at a consistently high level in the extract strain for the duration of a 5-day continuous fermentation. Cell-free protein synthesis reactions with extract produced from cells grown continuously yielded titers of IgG containing nonnatural amino acids above those from extract produced in batch fermentations. In addition, the quality of the synthesized IgGs and the potency of ADC produced with continuously fermented extract were indistinguishable from those produced with the batch extract. These experiments demonstrate that continuous fermentation of E. coli to produce extract for cell-free protein synthesis is feasible and helps unlock the potential for cell-free protein synthesis as a platform for biopharmaceutical production.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9297987 | PMC |
| http://dx.doi.org/10.1002/bit.27961 | DOI Listing |
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