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. 2024 Jan-Feb;40(1):e3403.
doi: 10.1002/btpr.3403. Epub 2023 Nov 20.

Effect of adenosine and cordycepin on recombinant antibody production yields in two different Chinease hamster ovary cell lines

Salinthip Jarusintanakorn  1   2   3 Kuntalee Rangnoi  3 Montarop Yamabhai  3 Enrico Mastrobattista  1
Affiliations

Effect of adenosine and cordycepin on recombinant antibody production yields in two different Chinease hamster ovary cell lines

Salinthip Jarusintanakorn et al. Biotechnol Prog. 2024 Jan-Feb.

Abstract

In this study, we investigated the effect of adenosine and its derivative cordycepin on the production yield of a recombinant human monoclonal antibody (adalimumab) in two commonly used Chinese Hamster ovary (CHO) cell lines that have different gene amplification systems, namely CHO-DHFR- and GS-CHO knockout (GS-KO CHO) cells and that were grown in batch culture, with and without glucose feeding. The results showed that adenosine suppressed the cell growth rate and increased the fraction of cells in S phase of the cell cycle for both CHO cell lines. Different concentrations and exposure times of adenosine feeding were tested. The optimal yield of adalimumab production was achieved with the addition of 1 mM adenosine on day 2 after start of the batch culture. Adenosine could significantly improve antibody titers and productivity in both CHO cell lines in cultures without glucose feeding. However, upon glucose feeding, adenosine did not improve antibody titers in CHO-DHFR- cells but extended culture duration and significantly increased antibody titers in GS-KO CHO cells. Therefore, adenosine supplementation might be useful for antibody production in GS-KO CHO cells in medium- to large-scale batches. In case of cordycepin, a derivative of adenosine, CHO-DHFR- cells required higher concentration of cordycepin than GS-KO CHO cells around 10 times to display the changes in cell growth and cell cycle. Moreover, cordycepin could significantly increase antibody titers only in CHO-DHFR- cell cultures without glucose feeding.

Keywords: CHO; adenosine; antibody titer; cell cycle arrest; cordycepin; productivity.

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Conflict of interest statement

The authors report no conflicts of interest.

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