Nature Communications (Nov 2024)

Mammalian cell-based production of glycans, glycopeptides and glycomodules

  • Thapakorn Jaroentomeechai,
  • Richard Karlsson,
  • Felix Goerdeler,
  • Fallen Kai Yik Teoh,
  • Magnus Nørregaard Grønset,
  • Dylan de Wit,
  • Yen-Hsi Chen,
  • Sanae Furukawa,
  • Venetia Psomiadou,
  • Ramon Hurtado-Guerrero,
  • Elena Ethel Vidal-Calvo,
  • Ali Salanti,
  • Thomas J. Boltje,
  • Leendert J. van den Bos,
  • Christian Wunder,
  • Ludger Johannes,
  • Katrine T. Schjoldager,
  • Hiren J. Joshi,
  • Rebecca L. Miller,
  • Henrik Clausen,
  • Sergey Y. Vakhrushev,
  • Yoshiki Narimatsu

DOI
https://doi.org/10.1038/s41467-024-53738-9
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 16

Abstract

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Abstract Access to defined glycans and glycoconjugates is pivotal for discovery, dissection, and harnessing of a range of biological functions orchestrated by cellular glycosylation processes and the glycome. We previously employed genetic glycoengineering by nuclease-based gene editing to develop sustainable production of designer glycoprotein therapeutics and cell-based glycan arrays that display glycans in their natural context at the cell surface. However, access to human glycans in formats and quantities that allow structural studies of molecular interactions and use of glycans in biomedical applications currently rely on chemical and chemoenzymatic syntheses associated with considerable labor, waste, and costs. Here, we develop a sustainable and scalable method for production of glycans in glycoengineered mammalian cells by employing secreted Glycocarriers with repeat glycosylation acceptor sequence motifs for different glycans. The Glycocarrier technology provides a flexible production platform for glycans in different formats, including oligosaccharides, glycopeptides, and multimeric glycomodules, and offers wide opportunities for use in bioassays and biomedical applications.