In keeping with recent efforts to generate compounds for antibiotic and microbicide development, we focused on the creation of non-natural organo-peptide hybrids of antimicrobial peptide amides (KLK(L)n KLK-NH2 ) derived from sapecin B and a self-assembling oligoglycine organo-peptide bolaphile containing an ω-amino fatty acid residue. The hybrid organo-peptide bolaphiles with two cationic KLK tripeptide motifs linked with an ω-amino acid residue (penta-, octa- or undecamethylene chain) maintained the self-assembling properties of the root oligoglycine bolaphile. Electron microscopy clearly revealed complex supramolecular architectures for both sapecin B-derived peptides and the hybrid analogues. FT-IR spectroscopy indicated that the supramolecular structures were composed primarily of β-sheets. CD revealed that the hybrid bolaphiles did not share the same secondary structures as the sapecin B peptides in solution. However, although secondary structures of antimicrobial peptides are central in the activity, the organo-peptide bolaphiles also retained the potent antimicrobial activity of the leader sapecin B-derived peptide against both Gram-positive and Gram-negative bacteria. In general, the hybrids were more selective than the sapecin B peptides, as they displayed little or no appreciable haemolytic activity. The results obtained herald a new approach for the design of purpose-built hybrid organo-peptide bolaphiles.
Keywords: antimicrobial activity; bolaphile; nanostructures; self-assembly.
Copyright © 2013 European Peptide Society and John Wiley & Sons, Ltd.