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Title: Structure-activity relationships of diastereomeric lysine ring size analogs of the antimicrobial peptide gramicidin S: mechanism of action and discrimination between bacterial and animal cell membranes. Author: Prenner EJ, Kiricsi M, Jelokhani-Niaraki M, Lewis RN, Hodges RS, McElhaney RN. Journal: J Biol Chem; 2005 Jan 21; 280(3):2002-11. PubMed ID: 15542606. Abstract: Structure-activity relationships were examined in seven gramicidin S analogs in which the ring-expanded analog GS14 [cyclo-(VKLKVdYPLKVKLdYP)] is modified by enantiomeric inversions of its lysine residues. The conformation, amphiphilicity, and self-association propensity of these peptides were investigated by circular dichroism spectroscopy and reversed phase high performance liquid chromatography. (31)P nuclear magnetic resonance spectroscopic and dye leakage experiments were performed to evaluate the capacity of these peptides to induce inverse nonlamellar phases in, and to permeabilize phospholipid bilayers; their growth inhibitory activity against the cell wall-less mollicute Acholeplasma laidlawii B was also examined. The amount and stability of beta-sheet structure, effective hydrophobicity, propensity for self-association in water, ability to disrupt the organization of phospholipid bilayers, and ability to inhibit A. laidlawii B growth are strongly correlated with the facial amphiphilicity of these GS14 analogs. Also, the magnitude of the parameters segregate these peptides into three groups, consisting of GS14, the four single inversion analogs, and the two multiple inversion analogs. The capacity of these peptides to differentiate between bacterial and animal cell membranes exhibits a biphasic relationship with peptide amphiphilicity, suggesting that there may only be a narrow range of peptide amphiphilicity within which it is possible to achieve the dual therapeutic requirements of high antibiotic effectiveness and low hemolytic activity. These results were rationalized by considering how the physiochemical properties of these GS14 analogs are likely to be reflected in their partitioning into lipid bilayer membranes.[Abstract] [Full Text] [Related] [New Search]