Modelin-5-CONH2, a synthetic antimicrobial peptide, was used to gain an insight into species-selective haemolytic activity. The peptide displayed limited haemolytic activity against sheep (12%), human (2%), and pig (2%) erythrocytes. Our results show that Modelin-5-CONH2 had a disordered structure in the presence of vesicles formed from sheep, human, and pig erythrocyte lipid extract (<26% helical) yet folded to form helices in the presence of a phosphatidylcholine (PC) membrane interface (e.g. >42% in the presence of 1,2-dimyristoyl-sn-glycero-3-phosphocholine). Monolayer studies showed a strong correlation between anionic lipid content and monolayer insertion and lysis inducing surface pressure changes of 9.17 mN m(-1) for 1,2-dimyristoyl-sn-glycero-3-phospho-L-serine compared with PC monolayers, which induced pressure changes of ca. 3 mN m(-1). The presence of cholesterol in the membrane is shown to increase the packing density as the PC:sphingomyelin (SM) ratio increases so preventing the peptide from forming a stable association with the membrane. The data suggests that the key driver for membrane interaction for Modelin-5-CONH2 is the anionic lipid attraction. However, the key factors in the species-specific haemolysis level for this peptide are the differing packing densities which are influenced by the SM:PC:cholesterol ratio.
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