Peptide macrocyclisation intramolecular interception of visible-light-mediated desulfurisation

Synthetic methods that enable the macrocyclisation of peptides facilitate the development of effective therapeutic and diagnostic tools. Herein we report a peptide cyclisation strategy based on intramolecular interception of visible-light-mediated cysteine desulfurisation. This method allows cyclisa...

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Veröffentlicht in:Chemical science (Cambridge) 2024-06, Vol.15 (25), p.9612-9619
Hauptverfasser: Smith, Frances R, Meehan, Declan, Griffiths, Rhys C, Knowles, Harriet J, Zhang, Peiyu, Williams, Huw E. L, Wilson, Andrew J, Mitchell, Nicholas J
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Zusammenfassung:Synthetic methods that enable the macrocyclisation of peptides facilitate the development of effective therapeutic and diagnostic tools. Herein we report a peptide cyclisation strategy based on intramolecular interception of visible-light-mediated cysteine desulfurisation. This method allows cyclisation of unprotected peptides in an aqueous solution via the installation of a hydrocarbon linkage. We explore the limits of this chemistry using a range of model peptides of increasing length and complexity, including peptides of biological/therapeutic relevance. The method is applied to replace the native disulfide of the peptide hormone, oxytocin, with a proteolytically/redox-stable hydrocarbon, and internal macrocyclisation of an MCL-1-binding peptide. Herein, we report a peptide cyclisation strategy via intramolecular interception of cysteine desulfurisation. This method enables the cyclisation of unprotected peptides in aqueous solution via the installation of a hydrocarbon linkage.
ISSN:2041-6520
2041-6539
DOI:10.1039/d3sc05865d