Abstract
To understand how peptide organization in aqueous solution might affect the activity of antimicrobial peptides, the potency of various dermaseptin S4 analogs was assessed against human red blood cells (RBC), protozoa, and several Gram-negative bacteria. Dermaseptin S4 had weak antibacterial activity but potent hemolytic or antiprotozoan effects. K(4)K(20)-S4 was 2-3-fold more potent against protozoa and RBC, yet K(4)K(20)-S4 was more potent by 2 orders of magnitude against bacteria. K(4)-S4 had similar behavior as K(4)K(20)-S4, but K(20)-S4 and analogous negative charge substitutions were as active as dermaseptin S4 or had reduced activity. Binding experiments suggested that potency enhancement was not the result of increased affinity to target cells. In contrast, potency correlated well with aggregation properties. Fluorescence studies indicated that K(20)-S4 and all negative charge substitutions were as aggregated as dermaseptin S4, whereas K(4)-S4 and K(4)K(20)-S4 were clearly less aggregated. Overall, the data indicated that N-terminal domain interaction between dermaseptin S4 monomers is responsible for the peptide's oligomerization in solution and, hence, for its limited spectrum of action. Moreover, bell-shaped dose-response profiles obtained with bacteria but not with protozoa or RBC implied that aggregation can have dramatic consequences on antibacterial activity. Based on these results, we tested the feasibility of selectivity reversal in the activity of dermaseptin S4. Tampering with the composition of the hydrophobic domains by reducing hydrophobicity or by increasing the net positive charge affected dramatically the peptide's activity and resulted in various analogs that displayed potent antibacterial activity but reduced hemolytic activity. Among these, maximal antibacterial activity was displayed by a 15-mer version that was more potent by 2 orders of magnitude compared with native dermaseptin S4. These results emphasize the notion that peptide-based antibiotics represent a highly modular synthetic antimicrobial system and provide indications of how the peptide's physico-chemical properties affect potency and selectivity.
Highlights
Distributed in nature, antimicrobial peptides are an essential defense component of invertebrates and vertebrates, destined to control cell proliferation and invading pathogens (1–3)
This paper is available on line at http://www.jbc.org falciparum-infected red blood cells (RBC),1 dermaseptin S3 selectively killed the intraerythrocytic parasite unlike dermaseptin S4 that was toxic to both the parasite and its host cell
Characterization of Generation 1 of Dermaseptin S4 Analogs. This step involved investigation of dermaseptin S4 and six substitution analogs designed to assess the effect of charge on cytotoxicity
Summary
Antimicrobial peptides are an essential defense component of invertebrates and vertebrates, destined to control cell proliferation and invading pathogens (1–3). Dermaseptins are a large family of antimicrobial peptides (28 –34 amino acids) expressed in the skin of tree frogs belonging to the phyllomedusinae genus (13–15) They are linear polycationic peptides, structured in amphipathic ␣-helix in apolar solvents (16) with cytolytic activity in vitro against a broad spectrum of pathogenic microorganisms (bacteria, protozoa, yeast, and filamentous fungi). Investigation of the molecular basis for this selective cytotoxicity showed that both dermaseptin S3 and S4 were highly lipophilic as they bound with similar affinity to phosphatidylserine/phosphatidyl choline vesicles and were potent in permeabilizing them. Both NMR and fluorescence methods indicated that dermaseptin S4 was in a higher aggregation state in aqueous solutions, compared with dermaseptin S3. The results reported, support the notion that peptide aggregation in solution affects considerably cytotoxic properties
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