Development of Potent and Selective S. aureus Sortase A Inhibitors Based on Peptide Macrocycles.

Sortases are transpeptidase enzymes that anchor surface proteins, including virulence factors, to the cell wall of Gram-positive bacteria, and they are potential targets for the development of anti-infective agents. While several large compound libraries were searched by high-throughput screening, no high-affinity inhibitors of sortases could be developed to date. Here, we applied phage display to screen billions of peptide macrocycles against sortase A (SrtA) of Staphylococcus aureus (S. aureus). We were able to identify potent and selective inhibitors of SrtA that blocked SrtA-mediated anchoring of synthetic substrates to the surface of live S. aureus cells. A region present in all inhibitory peptides (Leu-Pro-Pro) resembled the natural substrates of SrtA (Leu-Pro-Xaa-Thr-Gly), suggesting that the macrocycles bind to the enzyme's active site and that they form similar molecular contacts as natural substrates. The evolved peptide macrocycles may be used as lead structures for the development of potent peptidomimetic SrtA inhibitors

De novo identification of lipid II binding lipopeptides with antibacterial activity against vancomycin-resistant bacteria

Creative strategies for identifying new antibiotics are essential to addressing the looming threat of a post-antibiotic era. We here report the use of a targeted peptide phage display screen as a means of generating novel antimicrobial lipopeptides. Specifically, a library of phage displayed bicyclic peptides was screened against a biomolecular target based on the bacterial cell wall precursor lipid II. In doing so we identified unique lipid II binding peptides that upon lipidation were found to be active against a range of Gram-positive bacteria including clinically relevant strains of vancomycin resistant bacteria. Optimization of the peptide sequence led to variants with enhanced antibacterial activity and reduced hemolytic activity. Biochemical experiments further confirm a lipid II mediated mode of action for these new-to-nature antibacterial lipopeptides.FWN – Publicaties zonder aanstelling Universiteit Leide

De novo identification of lipid II binding lipopeptides with antibacterial activity against vancomycin-resistant bacteria

Creative strategies for identifying new antibiotics are essential to addressing the looming threat of a post-antibiotic era. We here report the use of a targeted peptide phage display screen as a means of generating novel antimicrobial lipopeptides. Specifically, a library of phage displayed bicyclic peptides was screened against a biomolecular target based on the bacterial cell wall precursor lipid II. In doing so we identified unique lipid II binding peptides that upon lipidation were found to be active against a range of Gram-positive bacteria including clinically relevant strains of vancomycin resistant bacteria. Optimization of the peptide sequence led to variants with enhanced antibacterial activity and reduced hemolytic activity. Biochemical experiments further confirm a lipid II mediated mode of action for these new-to-nature antibacterial lipopeptides