γ-Amino acids can play important roles in the biological activities of natural products; however, the ribosomal incorporation of γ-amino acids into peptides is challenging. Here we report how a selection campaign employing a non-canonical peptide library containing cyclic γ 2,4 -amino acids resulted in the discovery of very potent inhibitors of the SARS-CoV-2 main protease (M pro ). Two kinds of cyclic γ 2,4 -amino acids, cis -3-aminocyclobutane carboxylic acid (γ 1 ) and (1 R ,3 S )-3-aminocyclopentane carboxylic acid (γ 2 ), were ribosomally introduced into a library of thioether-macrocyclic peptides. One resultant potent M pro inhibitor (half-maximal inhibitory concentration = 50 nM), GM4, comprising 13 residues with γ 1 at the fourth position, manifests a 5.2 nM dissociation constant. An M pro :GM4 complex crystal structure reveals the intact inhibitor spans the substrate binding cleft. The γ 1 interacts with the S1′ catalytic subsite and contributes to a 12-fold increase in proteolytic stability compared to its alanine-substituted variant. Knowledge of interactions between GM4 and M pro enabled production of a variant with a 5-fold increase in potency. In vitro screening of a ribosomally synthesized macrocyclic peptide library containing cyclic γ 2,4 -amino acids (cγAA) afforded the discovery of potent inhibitors of the SARS-CoV-2 main protease (M pro ). A co-crystal structure revealed the contribution of this cγAA to M pro binding and the proteolytic stability of these macrocycles.
【저자키워드】 translation, High-throughput screening, X-ray crystallography, peptides,