In Vitro Antiplasmodium Effects of Dermaseptin S4 Derivatives

Dagan, Arie; Efron, Leah; Gaidukov, Leonid; Mor, Amram; Ginsburg, Hagaï

doi:10.1128/aac.46.4.1059-1066.2002

Cited by 86 publications

(76 citation statements)

References 43 publications

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“…Increasing the lipophilicity of the peptide will render it more permeable through the host cell membrane and therefore more accessible to the parasite membrane. Because this feature also increases hemolytic activity (6,17), we have used aminoacyl moieties to reduce hydrophobicity and, hence, the risk for hemolysis.…”

Section: Figmentioning

confidence: 99%

“…Antimicrobial peptides have recently emerged as interesting tools for exploring new antimalarial targets (2)(3)(4)(5)(6). These ubiquitous peptides vary considerably in structure, size, amino acid sequence, and spectrum of action (7)(8)(9)(10)(11), but the most potent peptides always have a pronounced amphipathic and distinctly basic character (12)(13)(14)(15)(16).…”

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confidence: 99%

“…Although K 4 -S4(1-13) was less hemolytic to normal erythrocytes, it was deemed necessary to develop additional derivatives that could affect the parasite with minimal threat to erythrocytes. Recently, acyl derivatives of K 4 -S4(1-13) were shown to increase antiplasmodial activity, although the most potent antiparasitic peptides still displayed high hemolytic activity (6). In this study, a series of new dermaseptin S4 derivatives based on K 4 -S4(1-13) were produced and investigated for antiplasmodial and hemolytic properties.…”

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confidence: 99%

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Direct Interaction of Dermaseptin S4 Aminoheptanoyl Derivative with Intraerythrocytic Malaria Parasite Leading to Increased Specific Antiparasitic Activity in Culture

Efron

Dagan

Gaidukov

et al. 2002

Journal of Biological Chemistry

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Antiplasmodial activity of the dermaseptin S4 derivative K 4 S4(1-13) (P) was shown to be mediated by lysis of the host cells. To identify antiplasmodial peptides with enhanced selectivity, we produced and screened new derivatives based on P and singled out the aminoheptanoylated peptide (NC7-P) for its improved antiplasmodial properties. Compared with P, NC7-P displayed both increased antiparasitic efficiency and reduced hemolysis, including against infected cells. Antiplasmodial activity of P and its derivative was time-dependent and irreversible, implying a cytotoxic effect. But, whereas the dose dependence of growth inhibition and hemolysis of infected cells overlapped when treated with P, NC7-P exerted more than 50% growth inhibition at peptide concentrations that did not cause hemolysis. Noticeably, NC7-P but not P, dissipated the parasite plasma membrane potential and caused depletion of intraparasite potassium at nonhemolytic conditions. Confocal microscopy analysis of infected cells localized the rhodaminated derivative in association with parasite membranes and intraerythrocytic tubulovesicular structures, whereas in normal cells, the peptide localized exclusively at the plasma membrane. Overall, the data demonstrate that antimicrobial peptides can be engineered to act specifically on the membrane of intracellular parasites and support a mechanism whereby NC7-P crosses the host cell plasma membrane and disrupts the parasite membrane(s).

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Section: Figmentioning

confidence: 99%

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Direct Interaction of Dermaseptin S4 Aminoheptanoyl Derivative with Intraerythrocytic Malaria Parasite Leading to Increased Specific Antiparasitic Activity in Culture

Efron

Dagan

Gaidukov

et al. 2002

Journal of Biological Chemistry

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“…Many are active towards a wide range of microorganisms by a mode of action which is still not fully understood but is assumed to involve interaction with the bacterial membrane and its disruption. AMPs do not require interaction with a chiral center for activity, supporting a lower probability for microorganisms to develop efficient resistance mechanisms compared with conventional antibiotics (22,38).AMPs from the dermaseptin family were recently proposed as model peptides for investigating the effects of acyl conjugation (13,17,44). These amphibian-derived AMPs (35, 36) have been amply investigated during the past decade and shown to exert rapid cytolytic activity against a wide range of microorganisms, including gram-negative and gram-positive bacteria, protozoa, filamentous fungi (14,26,35,36), spores of pathogenic bacteria (29), yeasts (11), and intracellular parasites (13,17,30), as well as antiviral activity (5).…”

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Antibacterial Properties of Dermaseptin S4 Derivatives under Extreme Incubation Conditions

Rydlo

Rotem

Mor

2006

Antimicrob Agents Chemother

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Antibacterial properties of the frog-derived peptide dermaseptin S4 and a series of synthetic derivatives against the food pathogen Escherichia coli O157:H7 were investigated under extreme incubation conditions. The 28-mer analog K 4 K 20 S4 (P 28 ) displayed an MIC of 8 M and rapid bactericidal kinetics under standard culture conditions. Potent bactericidal properties were maintained at high salt concentrations, under acidic or basic conditions, and at extreme temperatures. The N-terminal 14-mer sequence (P 14 ) displayed higher potency (MIC, 4 M) but only within a narrow range of incubation conditions, pointing to the importance of the C-terminal domain of P 28 . The potency range was reextended upon conjugation of aminododecanoic acid to P 14 . The resulting lipopeptide was even more potent (MIC, 2 M) and affected bacterial viability under most of the conditions tested, including in commercial apple juice. The mechanistic implications of peptides' hydrophobicity, charge, structure, and binding to an idealized membrane were probed and are discussed here. Collectively, the data indicate interest in simple peptide-based compounds for design of antimicrobials that affect pathogens under a variable range of incubation conditions. Antimicrobial peptides (AMPs) are important components of innate immunity (23, 39, 52). Many are active towards a wide range of microorganisms by a mode of action which is still not fully understood but is assumed to involve interaction with the bacterial membrane and its disruption. AMPs do not require interaction with a chiral center for activity, supporting a lower probability for microorganisms to develop efficient resistance mechanisms compared with conventional antibiotics (22,38).AMPs from the dermaseptin family were recently proposed as model peptides for investigating the effects of acyl conjugation (13,17,44). These amphibian-derived AMPs (35, 36) have been amply investigated during the past decade and shown to exert rapid cytolytic activity against a wide range of microorganisms, including gram-negative and gram-positive bacteria, protozoa, filamentous fungi (14,26,35,36), spores of pathogenic bacteria (29), yeasts (11), and intracellular parasites (13,17,30), as well as antiviral activity (5).Due to its distinctive primary structure, dermaseptin S4 was used to identify structure-function relationships, which eventually led to potent derivatives (19,21,31,37,38). In recent work, we defined the activity of a single-amino-acid-substituted derivative, K 4 -S4, against Escherichia coli O157:H7 in terms of milieu dependencies (51). Extending that study, the present work is aimed at understanding the molecular elements in native dermaseptin S4 that are necessary for maintaining antimicrobial potency under extreme incubation conditions. We produced a set of derivatives that varied in length, composition, hydrophobicity, and net charge and investigated the effect of incubation conditions on the peptides' activity and bacterial susceptibility. In addition, we investigated the peptides' ...

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“…[12] Models proposed to explain the mechanism of microbial cytoplasmic membrane disruption by AMPs include the 'barrel-stave' model, the 'toroid pore' or 'wormhole' model, and the 'carpet' model. [7,[13][14][15] In general, the initial association of AMPs with the microbial membrane occurs Synthetic antimicrobial peptides have recently emerged as promising candidates against drug-resistant pathogens. We identified a novel hexapeptide, Orn-d-Trp-d-Phe-Ile-d-PheHis(1-Bzl)-NH 2 , which exhibits broad-spectrum antifungal and antibacterial activity.…”

Section: Introductionmentioning

confidence: 99%

New Antimicrobial Hexapeptides: Synthesis, Antimicrobial Activities, Cytotoxicity, and Mechanistic Studies

et al. 2009

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Synthetic antimicrobial peptides have recently emerged as promising candidates against drug‐resistant pathogens. We identified a novel hexapeptide, Orn‐D‐Trp‐D‐Phe‐Ile‐D‐Phe‐His(1‐Bzl)‐NH2, which exhibits broad‐spectrum antifungal and antibacterial activity. A lead optimization was undertaken by conducting a full amino acid scan with various proteinogenic and non‐proteinogenic amino acids depending on the hydrophobic or positive‐charge character of residues at various positions along the sequence. The hexapeptide was also cyclized to study the correlation between the linear and cyclic structures and their respective antimicrobial activities. The synthesized peptides were found to be active against the fungus Candida albicans and Gram‐positive bacteria such as methicillin‐resistant Staphylococcus aureus and methicillin‐resistant Staphylococcus epidermidis, as well as the Gram‐negative bacterium Escherichia coli; MIC values for the most potent structures were in the range of 1–5 μg mL−1 (IC50 values in the range of 0.02–2 μg mL−1). Most of the synthesized peptides showed no cytotoxic effects in an MTT assay up to the highest test concentration of 200 μg mL−1. A tryptophan fluorescence quenching study was performed in the presence of negatively charged and zwitterionic model membranes, mimicking bacterial and mammalian membranes, respectively. The results of the fluorescence study demonstrate that the tested peptides are selective toward bacterial over mammalian cells; this is associated with a preferential interaction between the peptides and the negatively charged phospholipids of bacterial cells.

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In Vitro Antiplasmodium Effects of Dermaseptin S4 Derivatives

Cited by 86 publications

References 43 publications

Direct Interaction of Dermaseptin S4 Aminoheptanoyl Derivative with Intraerythrocytic Malaria Parasite Leading to Increased Specific Antiparasitic Activity in Culture

Direct Interaction of Dermaseptin S4 Aminoheptanoyl Derivative with Intraerythrocytic Malaria Parasite Leading to Increased Specific Antiparasitic Activity in Culture

Antibacterial Properties of Dermaseptin S4 Derivatives under Extreme Incubation Conditions

New Antimicrobial Hexapeptides: Synthesis, Antimicrobial Activities, Cytotoxicity, and Mechanistic Studies

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