Structural and Functional Characteristics of the Proline-Rich Antimicrobial Peptide Minibactenecin from Leukocytes of Domestic Goat Capra hircus.

We performed structural and functional studies of minibactenecin mini-ChBac7.5Nα, a natural proline-rich cathelicidin from domestic goat Capra hircus. To identify the key residues important for the biological action of the peptide, a panel of its alanine-substituted analogues was produced. The development of E. coli resistance to the natural minibactenecin, as well as to its analogues carrying substitutions for hydrophobic amino acids in the C-terminal residues was studied. The data obtained indicate the possibility of rapid development of the resistance to this class of peptides. The main factors in the formation of the antibiotic resistance are various mutations leading to inactivation of the SbmA transporter.

Analysis of Antibacterial Action of Mammalian Host-Defense Cathelicidins and Induction of Resistance to Them in MßL-Producing Pseudomonas aeruginosa.

Recombinant analogs of a number of natural host-defense mammalian cathelicidins were obtained and predominant mechanism of their antibacterial action was studied. The ability of cathelicidins to suppress the growth of Pseudomonas aeruginosa producing metallo-ß-lactamases (MßL) was studied, and the possibility of appearance of cathelicidin-resistant bacteria was evaluated. Among peptides with different structures and mechanisms of action, only the strains resistant to ChMAP-28 were not obtained, which indicated minimum risk of the development of natural resistance to this cathelicidin. High antibacterial activity, wide spectrum of action, and the absence of cross-resistance effects allow considering ChMAP-28 peptide as a candidate to be developed further as a therapeutic agent against MßL-producing bacteria.

In Vitro Study of Antitumor Effect of Antimicrobial Peptide Tachyplesin I in Combination with Cisplatin.

We studied combined effect of ß-hairpin antimicrobial peptide tachyplesin I and cytotoxic agent cisplatin on tumor and normal human cell lines. MTT assay and flow cytometry showed that tachyplesin I selectively sensitized cancer cells to cisplatin in specified concentration ratios. In vitro experiments demonstrated that combined use of tachyplesin I and cisplatin allows decreasing the effective dose of the cytostatic thus reducing nonspecific toxicity.

Analysis of Synergistic Effects of Antimicrobial Peptide Arenicin-1 and Conventional Antibiotics.

We studied combined effects of antimicrobial peptide arenicin-1 from lugworm Arenicola marina and some conventional antibiotics. A number of drug combinations with pronounced synergistic effects were revealed. The influence of antibacterial activity assessment conditions was determined and the methodology excluding false-positive test results was developed.

Effect of N- and C-Terminal Modifications on Cytotoxic Properties of Antimicrobial Peptide Tachyplesin I.

We analyze the effects of N-terminal acetylation and C-terminal amidation on the cytotoxic properties of ß-hairpin antimicrobial peptide tachyplesin I. MTT-assay showed that modified tachyplesin I exhibited increased cytotoxicity toward both tumor and normal human cells. Hemolytic activity of modified tachyplesin I was also higher than that of the initial molecule. In contrast to non-modified tachyplesin I, the peptide with C- and N-terminal modifications is resistant to proteolytic degradation in fresh human serum. C- and N-terminal modifications make tachyplesin I more attractive prototype of anticancer drug due to its more potent cytotoxic effect and better pharmacokinetic properties.

Structure and Biological Functions of ß-Hairpin Antimicrobial Peptides.

Antimicrobial peptides (AMPs) are evolutionarily ancient factors of the innate immune system that serve as a crucial first line of defense for humans, animals, and plants against infection. This review focuses on the structural organization, biosynthesis, and biological functions of AMPs that possess a ß-hairpin spatial structure. Representatives of this class of AMPs are among the most active antibiotic molecules of animal origin. Due to their wide spectrum of activity and resistance to internal environmental factors, natural ß-hairpin AMPbased compounds might become the most promising drug candidates.

Lipid-protein nanodiscs offer new perspectives for structural and functional studies of water-soluble membrane-active peptides.

Lipid-protein nanodiscs (LPNs) are nanoscaled fragments of a lipid bilayer stabilized in solution by the apolipoprotein or a special membrane scaffold protein (MSP). In this work, the applicability of LPN-based membrane mimetics in the investigation of water-soluble membrane-active peptides was studied. It was shown that a pore-forming antimicrobial peptide arenicin-2 from marine lugworm (charge of +6) disintegrates LPNs containing both zwitterionic phosphatidylcholine (PC) and anionic phosphatidylglycerol (PG) lipids. In contrast, the spider toxin VSTx1 (charge of +3), a modifier of Kv channel gating, effectively binds to the LPNs containing anionic lipids (POPC/DOPG, 3 : 1) and does not cause their disruption. VSTx1 has a lower affinity to LPNs containing zwitterionic lipids (POPC), and it weakly interacts with the protein component of nanodiscs, MSP (charge of -6). The neurotoxin II (NTII, charge of +4) from cobra venom, an inhibitor of the nicotinic acetylcholine receptor, shows a comparatively low affinity to LPNs containing anionic lipids (POPC/DOPG, 3 : 1 or POPC/DOPS, 4 : 1), and it does not bind to LPNs/POPC. The obtained data show that NTII interacts with the LPN/POPC/DOPS surface in several orientations, and that the exchange process among complexes with different topologies proceeds fast on the NMR timescale. Only one of the possible NTII orientations allows for the previously proposed specific interaction between the toxin and the polar head group of phosphatidylserine from the receptor environment (Lesovoy et al., Biophys. J. 2009. V. 97. № 7. P. 2089-2097). These results indicate that LPNs can be used in structural and functional studies of water-soluble membrane-active peptides (probably except pore-forming ones) and in studies of the molecular mechanisms of peptide-membrane interaction.

Acipensins - Novel Antimicrobial Peptides from Leukocytes of the Russian Sturgeon Acipenser gueldenstaedtii.

Antimicrobial peptides (AMPs) play an important role in the innate defense mechanisms in humans and animals. We have isolated and studied a set of antimicrobial peptides from leukocytes of the Russian sturgeon Acipenser gueldenstaedtii belonging to a subclass of chondrosteans, an ancient group of bony fish. Structural analysis of the isolated peptides, designated as acipensins (Ac), revealed in leukocytes of the Russian sturgeon six novel peptides with molecular masses of 5336.2 Da, 3803.0 Da, 5173.0 Da, 4777.5 Da, 5449.4 Da, and 2740.2 Da, designated as Ac1-Ac6, respectively. Complete primary structures of all the isolated peptides were determined, and the biological activities of three major components - Ac1, Ac2, and Ac6 - were examined. The peptides Ac1, Ac2, Ac3, Ac4, and Ac5 were found to be the N-terminal acetylated fragments 1-0, 1-5, 1-9, 1-4, and 1-1 of the histone H2A, respectively, while Ac6 was shown to be the 62-5 fragment of the histone H2A. The peptides Ac1 and Ac2 displayed potent antimicrobial activity towards Gram-negative and Gram-positive bacteria (Escherichia coli ML35p, Listeria monocytogenes EGD, MRSA ATCC 33591) and the fungus Candida albicans 820, while Ac6 proved effective only against Gram-negative bacteria. The efficacy of Ac 1 and Ac2 towards the fungus and MRSA was reduced upon an increase in the ionic strength of the solution. Ac1, Ac2, and Ac6, at concentrations close to their minimum inhibitory concentrations, enhanced the permeability of the E.coli ML35p outer membrane to the chromogenic marker, but they did not affect appreciably the permeability of the bacterial inner membrane in comparison with a potent pore-forming peptide, protegrin 1. Ac1, Ac2, and Ac6 revealed no hemolytic activity against human erythrocytes at concentrations of 1 to 40 µM and had no cytotoxic effect (1 to 20 µM) on K-562 and U-937 cells in vitro. Our findings suggest that histone-derived peptides serve as important anti-infective host defense molecules.