Stable overexpression of native and artificial miRNAs for the production of differentially fucosylated antibodies in CHO cells

Patrick Schlossbauer; Lukas Naumann; Florian Klingler; Madina Burkhart; René Handrick; Kathrin Korff; Christian Neusüß; Kerstin Otte; Friedemann Hesse

doi:10.1002/elsc.202300234

Engineering in Life Sciences (Jun 2024)

Stable overexpression of native and artificial miRNAs for the production of differentially fucosylated antibodies in CHO cells

Patrick Schlossbauer,
Lukas Naumann,
Florian Klingler,
Madina Burkhart,
René Handrick,
Kathrin Korff,
Christian Neusüß,
Kerstin Otte,
Friedemann Hesse

Affiliations

Patrick Schlossbauer: Institute for Applied Biotechnology University of Applied Sciences Biberach Biberach Germany
Lukas Naumann: Department of Chemistry Aalen University Aalen Germany
Florian Klingler: Institute for Applied Biotechnology University of Applied Sciences Biberach Biberach Germany
Madina Burkhart: Institute for Applied Biotechnology University of Applied Sciences Biberach Biberach Germany
René Handrick: Institute for Applied Biotechnology University of Applied Sciences Biberach Biberach Germany
Kathrin Korff: Department of Chemistry Aalen University Aalen Germany
Christian Neusüß: Department of Chemistry Aalen University Aalen Germany
Kerstin Otte: Institute for Applied Biotechnology University of Applied Sciences Biberach Biberach Germany
Friedemann Hesse: Institute for Applied Biotechnology University of Applied Sciences Biberach Biberach Germany

DOI: https://doi.org/10.1002/elsc.202300234
Journal volume & issue: Vol. 24, no. 6
pp. n/a – n/a

Abstract

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Abstract Cell engineering strategies typically rely on energy‐consuming overexpression of genes or radical gene‐knock out. Both strategies are not particularly convenient for the generation of slightly modulated phenotypes, as needed in biosimilar development of for example differentially fucosylated monoclonal antibodies (mAbs). Recently, transiently transfected small noncoding microRNAs (miRNAs), known to be regulators of entire gene networks, have emerged as potent fucosylation modulators in Chinese hamster ovary (CHO) production cells. Here, we demonstrate the applicability of stable miRNA overexpression in CHO production cells to adjust the fucosylation pattern of mAbs as a model phenotype. For this purpose, we applied a miRNA chaining strategy to achieve adjustability of fucosylation in stable cell pools. In addition, we were able to implement recently developed artificial miRNAs (amiRNAs) based on native miRNA sequences into a stable CHO expression system to even further fine‐tune fucosylation regulation. Our results demonstrate the potential of miRNAs as a versatile tool to control mAb fucosylation in CHO production cells without adverse side effects on important process parameters.

Published in Engineering in Life Sciences

ISSN: 1618-0240 (Print); 1618-2863 (Online)
Publisher: Wiley-VCH
Country of publisher: Germany
LCC subjects: Technology: Chemical technology: Biotechnology
Website: https://onlinelibrary.wiley.com/journal/16182863

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