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Structure-Based Design of Non-natural Macrocyclic Peptides That Inhibit Protein-Protein Interactions.


ABSTRACT: Macrocyclic peptides can interfere with challenging biomolecular targets including protein-protein interactions. Whereas there are various approaches that facilitate the identification of peptide-derived ligands, their evolution into higher affinity binders remains a major hurdle. We report a virtual screen based on molecular docking that allows the affinity maturation of macrocyclic peptides taking non-natural amino acids into consideration. These macrocycles bear large and flexible substituents that usually complicate the use of docking approaches. A virtual library containing more than 1400 structures was screened against the target focusing on docking poses with the core structure resembling a known bioactive conformation. Based on this screen, a macrocyclic peptide 22 involving two non-natural amino acids was evolved showing increased target affinity and biological activity. Predicted binding modes were verified by X-ray crystallography. The presented workflow allows the screening of large macrocyclic peptides with diverse modifications thereby expanding the accessible chemical space and reducing synthetic efforts.

SUBMITTER: Kruger DM 

PROVIDER: S-EPMC5682607 | biostudies-literature | 2017 Nov

REPOSITORIES: biostudies-literature

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Structure-Based Design of Non-natural Macrocyclic Peptides That Inhibit Protein-Protein Interactions.

Krüger Dennis M DM   Glas Adrian A   Bier David D   Pospiech Nicole N   Wallraven Kerstin K   Dietrich Laura L   Ottmann Christian C   Koch Oliver O   Hennig Sven S   Grossmann Tom N TN  

Journal of medicinal chemistry 20171027 21


Macrocyclic peptides can interfere with challenging biomolecular targets including protein-protein interactions. Whereas there are various approaches that facilitate the identification of peptide-derived ligands, their evolution into higher affinity binders remains a major hurdle. We report a virtual screen based on molecular docking that allows the affinity maturation of macrocyclic peptides taking non-natural amino acids into consideration. These macrocycles bear large and flexible substituent  ...[more]

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