Acyclic peptides incorporating the d‐Phe‐2‐Abz turn motif: Investigations on antimicrobial activity and propensity to adopt β‐hairpin conformations

Three linear peptides incorporating d ‐Phe‐2‐Abz as the turn motif are reported. Peptide 1 , a hydrophobic β‐hairpin, served as a proof of principle for the design strategy with both NMR and CD spectra strongly suggesting a β‐hairpin conformation. Peptides 2 and 3, designed as amphipathic antimicrobials, exhibited broad spectrum antimicrobial activity, with potency in the nanomolar range against Staphylococcus aureus. Both compounds possess a high degree of selectivity, proving non‐haemolytic at concentrations 500 to 800 times higher than their respective minimal inhibitory concentrations (MICs) against S. aureus. Peptide 2 induced cell membrane and cell wall disintegration in both S. aureus and Pseudomonas aeruginosa as observed by transmission electron microscopy. Peptide 2 also demonstrated moderate antifungal activity against Candida albicans with an MIC of 50 μM. Synergism was observed with sub‐MIC levels of amphotericin B (AmB), leading to nanomolar MICs against C. albicans for peptide 2 . Based on circular dichroism spectra, both peptides 2 and 3 appear to exist as a mixture of conformers with the β‐hairpin as a minor conformer in aqueous solution, and a slight increase in hairpin population in 50% trifluoroethanol, which was more pronounced for peptide 3 . NMR spectra of peptide 2 in a 1:1 CD₃CN/H₂O mixture and 30 mM deuterated sodium dodecyl sulfate showed evidence of an extended backbone conformation of the β‐strand residues. However, inter‐strand rotating frame Overhauser effects (ROE) could not be detected and a loosely defined divergent hairpin structure resulted from ROE structure calculation in CD₃CN/H₂O. The loosely defined hairpin conformation is most likely a result of the electrostatic repulsions between cationic strand residues which also probably contribute towards maintaining low haemolytic activity.