Tyrocidine A Analogues Bearing the Planar d‑Phe-2-Abz Turn Motif: How Conformation Impacts Bioactivity
datasetposted on 15.11.2017, 00:00 by Alan J. Cameron, Patrick J. B. Edwards, Elena Harjes, Vijayalekshmi Sarojini
The d-Phe-Pro β-turn of the cyclic β-hairpin antimicrobial decapeptide tyrocidine A, (Tyrc A) was substituted with the d-Phe-2-aminobenzoic acid (2-Abz) motif in a synthetic analogue (1). The NMR structure of 1 demonstrated that compound 1 retained the β-hairpin structure of Tyrc A with additional planarity, resulting in approximately 30-fold reduced hemolysis than Tyrc A. Although antibacterial activity was partially compromised, a single Gln to Lys substitution (2) restored activity equivalent to Tyrc A against S. aureus, enhanced activity against two Gram negative strains and maintained the reduced hemeloysis of 1. Analysis by transmission electron microscopy (TEM) suggested a membrane lytic mechanism of action for these peptides. Compound 2 also exhibits nanomolar antifungal activity in synergy with amphotericin B. The d-Phe-2-Abz turn may serve as a tool for the synthesis of structurally predictable β-hairpin libraries. Unlike traditional β-turn motifs such as d-Pro-Gly, both the 2-Abz and d-Phe rings may be further functionalized.
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compound 1Tyrcd-Phe-Pro β-Lys substitutionexhibits nanomolar antifungal activity2- Abzmembrane lytic mechanismConformation Impacts Bioactivityβ- hairpin librariesamphotericin BCompound 2TEMtransmission electron microscopyNMR structureβ- hairpin structuremotifAnalogues Bearingd-Phe ringsd-Phe -2-Abzactivity equivalentcyclic β- hairpin antimicrobial decapeptide tyrocidine