Synthesis of cholera toxin B subunit glycoconjugates using site-specific orthogonal oxime and sortase ligation reactions

Jonathan P. Dolan, Darren C. Machin, Simone Dedola, Robert A. Field, Michael E. Webb, W. Bruce Turnbull

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Abstract

The chemoenzymatic synthesis of a series of dual N- and C-terminal–functionalized cholera toxin B subunit (CTB) glycoconjugates is described. Mucin 1 peptides bearing different levels of Tn antigen glycosylation [MUC1(Tn)] were prepared via solid-phase peptide synthesis. Using sortase-mediated ligation, the MUC1(Tn) epitopes were conjugated to the C-terminus of CTB in a well-defined manner allowing for high-density display of the MUC1(Tn) epitopes. This work explores the challenges of using sortase-mediated ligation in combination with glycopeptides and the practical considerations to obtain high levels of conjugation. Furthermore, we describe methods to combine two orthogonal labeling methodologies, oxime- and sortase-mediated ligation, to expand the biochemical toolkit and produce dual N- and C-terminal–labeled conjugates.
Original languageEnglish
Article number958272
JournalFrontiers in Chemistry
Volume10
DOIs
Publication statusPublished - 14 Sep 2022

Keywords

  • glycoconjugates
  • glycopeptide
  • neoglycoproteins
  • oxime ligation
  • protein modification
  • sortase
  • transpeptidase

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