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Triscysteine disulfide-directing motifs enabling design and discovery of multicyclic peptide binders

Zengping Duan, Chuilian Kong, Shihui Fan and Chuanliu Wu ()
Additional contact information
Zengping Duan: Xiamen University
Chuilian Kong: Xiamen University
Shihui Fan: Xiamen University
Chuanliu Wu: Xiamen University

Nature Communications, 2024, vol. 15, issue 1, 1-14

Abstract: Abstract Peptides are valuable for therapeutic development, with multicyclic peptides showing promise in mimicking antigen-binding potency of antibodies. However, our capability to engineer multicyclic peptide scaffolds, particularly for the construction of large combinatorial libraries, is still limited. Here, we study the interplay of disulfide pairing between three biscysteine motifs, and designed a range of triscysteine motifs with unique disulfide-directing capability for regulating the oxidative folding of multicyclic peptides. We demonstrate that incorporating these motifs into random sequences allows the design of disulfide-directed multicyclic peptide (DDMP) libraries with up to four disulfide bonds, which have been applied for the successful discovery of peptide binders with nanomolar affinity to several challenging targets. This study encourages the use of more diverse disulfide-directing motifs for creating multicyclic peptide libraries and opens an avenue for discovering functional peptides in sequence and structural space beyond existing peptide scaffolds, potentially advancing the field of peptide drug discovery.

Date: 2024
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DOI: 10.1038/s41467-024-51723-w

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