Optimizing the Semisynthesis towards glycosylated interferon-β-polypeptide by utilizing bacterial protein expression and chemical modification?
Organic & Biomolecular Chemistry Pub Date: 2022-02-06 DOI: 10.1039/D1OB02391H
Abstract
The synthesis of a sufficient amount of homogeneous glycoprotein is of great interest because natural glycoproteins show considerable heterogeneity in oligosaccharide structures, making the studies on glycan structure–function relationship difficult. Herein, we report optimized methods that can accelerate the semisynthesis of homogeneous glycoproteins based on recombinant expression and chemical conversion. Peptide thioesters and peptides with Cys residues at their N-terminals are necessary intermediates to perform native chemical ligation. We successfully performed thioesterification for a peptide prepared in E. coli via Cys-cyanylation at its C-terminal followed by hydrazinolysis and acidic thiolysis. These optimized conditions could tolerate an acid labile Thz protected Cys at the N-terminal of a peptide-hydrazide and specific cyanylation of the C-terminal Cys to yield a peptide thioester. To reduce the amount of precious oligosaccharide that is required in the conventional SPPS method, an improved liquid phase glycopeptide coupling was also optimized in a good yield (46% over four steps). Lastly, chemoselective protection of the internal cysteines and activation of the N-terminal cysteine were optimized toward a long peptide prepared in E. coli. By using these strategies, a full-length interferon-β glycosyl polypeptide as a model was successfully obtained.
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Journal Name:Organic & Biomolecular Chemistry
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CAS no.: 89640-58-4