Addressing amino acid-derived inhibitory metabolites and enhancing CHO cell culture performance through DOE-guided media modifications |
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| Authors: | Pranay Ladiwala Venkata Gayatri Dhara Jackson Jenkins Bingyu Kuang Duc Hoang Seongkyu Yoon Michael J Betenbaugh |
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| Institution: | 1. Department of Chemical and Biomolecular Engineering, Johns Hopkins University, Baltimore, Maryland, USA;2. Department of Chemical Engineering, University of Massachusetts Lowell, Lowell, Massachusetts, USA |
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| Abstract: | Previously, we identified six inhibitory metabolites (IMs) accumulating in Chinese hamster ovary (CHO) cultures using AMBIC 1.0 community reference medium that negatively impacted culture performance. The goal of the current study was to modify the medium to control IM accumulation through design of experiments (DOE). Initial over-supplementation of precursor amino acids (AAs) by 100% to 200% in the culture medium revealed positive correlations between initial AA concentrations and IM levels. A screening design identified 5 AA targets, Lys, Ile, Trp, Leu, Arg, as key contributors to IMs. Response surface design analysis was used to reduce initial AA levels between 13% and 33%, and these were then evaluated in batch and fed-batch cultures. Lowering AAs in basal and feed medium and reducing feed rate from 10% to 5% reduced inhibitory metabolites HICA and NAP by up to 50%, MSA by 30%, and CMP by 15%. These reductions were accompanied by a 13% to 40% improvement in peak viable cell densities and 7% to 50% enhancement in IgG production in batch and fed-batch processes, respectively. This study demonstrates the value of tuning specific AA levels in reference basal and feed media using statistical design methodologies to lower problematic IMs. |
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| Keywords: | amino acid metabolism Chinese hamster ovary design of experiments fed-batch bioprocessing inhibitory metabolites medium optimization |
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