Pilosulin 5, a novel histamine-releasing peptide of the Australian ant, Myrmecia pilosula (Jack Jumper Ant)

Venom of the Australian ant species Myrmecia pilosula contains a number of allergenic peptides including pilosulins. To obtain novel cDNA clones that encode the pilosulin-related bioactive peptides, mRNA of M. pilosula species complex was subjected to RT-PCR in which the forward primer corresponds to a nucleotide sequence in the leader sequences of pilosulins. We isolated a cDNA clone encoding the novel bioactive peptide pilosulin 5. Tandem mass analysis was entirely consistent with the cDNA derived sequence, and indicated that pilosulin 5 is connected by a single disulfide bridge to create a dimmer peptide of 8546 Da. Synthetic pilosulin 5 peptide caused a significant histamine release in a dose-dependent manner, and the mastoparan homologous region of pilosulin 5 was responsible for the activity.     

Identification and optimization of an antimicrobial peptide from the ant venom toxin pilosulin

A template based on positional residue frequencies in the N-terminal stretch of natural alpha-helical antimicrobial peptides was used to prepare sequence patterns and to scan the Swiss-Prot Database, using the ScanProsite tool. This search identified a segment in pilosulin 1, a cytotoxic peptide from the venom of the jumper ant Myrmecia pilosula, as a potential novel antimicrobial peptide sequence. This segment, corresponding to the 20 N-terminal residues, was synthesized and its structural properties and biological activities were investigated. It showed a potent and broad spectrum antimicrobial activity including standard and multi-drug resistant gram-positive and gram-negative bacteria and Candida albicans, confirming the validity of the search method. A rational redesign approach resulting in four amino acid substitutions yielded a variant with improved antibacterial and significantly reduced hemolytic activity.     

Molecular cloning and characterization of antimicrobial peptides from skin of the broad-folded frog, Hylarana latouchii

Seven cDNA sequences encoding antimicrobial peptide (AMP) precursors were cloned by screening the skin-derived cDNA library of the broad-folded frog, Hylarana latouchii. Seven of the deduced peptides are highly similar to AMPs in five families of brevinin-2 (brevinin-2LTa, brevinin-2LTb, and brevinin-2LTc), esculentin-1 (esculentin-1LTa), esculentin-2 (esculentin-2LTa), palustrin-2 (palustrin-2LTa), and temporin (temporin-LTe). The actual sequences and characteristics of mature AMPs were analyzed by RP-HPLC and LC–MS/MS-based proteomics approaches in combination of four different protein digestion processes and by LTQ XL in combination of gas-phase fractionation (GPF) analysis. Moreover, most of the peptides found in this study hardly display hemolytic activity in vitro, suggesting they are promising antimicrobial drug candidates.     

A novel family of antimicrobial peptides from the skin of Amolops loloensis

While conducting experiments to investigate antimicrobial peptides of amphibians living in the Yunnan-Sichuan region of southwest China, a new family of antimicrobial peptides was identified from skin secretions of the rufous-spotted torrent frog, Amolops loloensis. Members of the new peptide family named amolopins are composed of 18 amino acids with a unique sequence, for example, NILSSIVNGINRALSFFG. By BLAST search, amolopins did no show similarity to any known peptides. Among the tested microorganisms, native and synthetic peptides only showed antimicrobial activities against Staphylococcus aureus ATCC2592 and Bacillus pumilus, no effects on other microorganisms. The CD spectroscopy showed that it adopted a structure of random combined with beta-sheet in water, Tris-HCl or Tris-HCl-SDS. Several cDNAs encoding amolopins were cloned from the skin cDNA library of A. loloensis. The precursors of amolopin are composed of 62 amino acid residues including predicted signal peptides, acidic propieces, and mature antimicrobial peptides. The preproregion of amolopin precursor comprises a hydrophobic signal peptide of 22 residues followed by an 18 residue acidic propiece which terminates by a typical prohormone processing signal Lys-Arg. The preproregions of precursors are very similar to other amphibian antimicrobial peptide precursors but the mature amolopins are different from other antimicrobial peptide families. The remarkable similarity of preproregions of precursors that give rise to very different antimicrobial peptides in distantly related frog species suggests that the corresponding genes form a multigene family originating from a common ancestor.     

Isolation and biochemical characterization of peptides presenting antimicrobial activity from the skin of Phyllomedusa hypochondrialis

Amphibian antimicrobial peptides have been known for many decades and several of them have been isolated from anuran species. Dermaseptins are among the most studied antimicrobial peptides and are found in the skin secretion of tree frogs from the Phyllomedusinae subfamily. These peptides exert a lytic action on bacteria, protozoa, yeast, and filamentous fungi at micromolar concentrations, but unlike polylysines, present little hemolytic activity. In this work, two antimicrobial peptides were isolated from the crude skin secretion of Phyllomedusa hypochondrialis and tested against Gram-positive and Gram-negative bacteria, presenting no hemolytic activity at the tested concentrations. One of them was identified with the recently reported peptide PS-7 belonging to the phylloseptin family, and another was a novel peptide, named DPh-1, which was fully purified, sequenced by ‘de novo’ mass spectrometry and grouped into Dermaseptins (DPh-1).     

黄鳍金枪鱼抗菌肽YFGAP在大肠杆菌中融合表达及其活性检测

【目的】抗菌肽YFGAP由32个氨基酸组成,分子量为3.4 kD,对革兰氏阳性菌(G+)和革兰氏阴性菌(G?)表现出强效的抑制作用,不具有溶血活性。在大肠杆菌中表达抗菌肽YFGAP,分离纯化抗菌肽并鉴定其生物学活性。【方法】化学合成EK-YFGAP和L-EK-YFGAP基因序列,构建表达载体pET22b-ELP20-EK-YFGAP、pET22b-ELP40-EK-YFGAP和pET22b-ELP40-L-EK- YFGAP,分别转化至大肠杆菌BL21(DE3)中诱导表达,可逆相变循环纯化融合蛋白。肠激酶酶切,经Vivaspin Turbo纯化柱纯化,测定重组抗菌肽的抑菌活性和溶血活性。【结果】纯化出两种融合蛋白ELP40-EK-YFGAP和ELP40-L-EK-YFGAP,肠激酶酶切纯化后获得重组抗菌肽YFGAP,对4种病原菌均有抑制效果,溶血活性较低。【结论】以ELPs作为非色谱纯化标签,实现了抗菌肽YFGAP的融合表达,具有操作简单、成本低、易于扩大的优势,为重组抗菌肽的量化制备及应用提供了理论基础和技术支持。     

Molecular cloning and functional characterization of novel antimicrobial peptides from the skin of brown frog, Rana zhenhaiensis

Rana zhenhaiensis, a species of brown frog, is widely distributed in central and south China. In the present study, a total of 14 cDNA sequences encoding eight novel antimicrobial peptides (AMPs) were cloned from the synthesized cDNAs of R. zhenhaiensis skin. The eight novel AMPs belong to four families: brevinin-1 (four peptides), brevinin-2 (one peptide), ranatuerin-2 (one peptide) and chensinin-1 (two peptides), five AMPs from the four families (brevinin-1ZHa, brevinin-1ZHb, brevinin-2ZHa, ranatuerin-2ZHa and chensinin-1ZHa) were chemically synthesized, their antimicrobial and hemolytic activities were examined. The results indicated that the five AMPs possess different antimicrobial and hemolytic activities. Of these, brevinin-2ZHa exhibited the strongest and most broad-spectrum antimicrobial activity. Furthermore, scanning electron microscopy (SEM) experiment was carried out to investigate the potential antimicrobial mechanism of chensinin-1ZHa. The result indicated that chensinin-1ZHa may exert its function through disruption of the bacterial membrane.     

Purification and characterization of antimicrobial and vasorelaxant peptides from skin extracts and skin secretions of the North American pig frog Rana grylio

Eight peptides with differential growth–inhibitory activity against the gram-positive bacterium Staphylococcus aureus, the gram-negative bacterium Escherichia coli and the yeast, Candida albicans were isolated from an extract of the skin of the North American pig frog Rana grylio. The primary structures of these antimicrobial peptides were different from previously characterized antimicrobial peptides from Ranid frogs but on the basis of sequence similarities, the peptides may be classified as belonged to four previously characterized peptide families: the ranatuerin-1, ranatuerin-2 and ranalexin families, first identified in the North American bullfrog, Rana catesbeiana, and the temporin family first identified in the European common frog Rana temporaria. Peptides belonging to the brevinin-1, brevinin-2, esculentin-1, and esculentin-2 families, previously isolated from the skins of other species of Ranid frogs, were not identified in the extracts. The ranatuerin-1 and ranalexin peptides showed broadest spectrum of antimicrobial activity whereas the temporins were active only against S. aureus. Synthetic replicates of temporin-1Gb (SILPTIVSFLSKFL.NH₂) and temporin-1Gd (FILPLIASFLSKFL.NH₂) produced concentration-dependent relaxation of preconstricted vascular rings from the rat thoracic aorta (EC₅₀=2.4±0.1 μM for temporin-1Gb and 2.3±0.2 μM for temporin-1Gd). The antimicrobial peptides that were isolated in extracts of the skin R. grylio were present in the same molecular forms in electrically-stimulated skin secretions of the animal demonstrating that the peptides are stored in the granular glands of the skin in their fully processed forms.     

Structural determinants of host defense peptides for antimicrobial activity and target cell selectivity

Antimicrobial host defense peptides (HDPs) are a critical component of the innate immunity with microbicidal, endotoxin-neutralizing, and immunostimulatory properties. HDPs kill bacteria primarily through non-specific membrane lysis, therefore with a less likelihood of provoking resistance. Extensive structure–activity relationship studies with a number of HDPs have revealed that net charge, amphipathicity, hydrophobicity, and structural propensity are among the most important physicochemical and structural parameters that dictate their ability to interact with and disrupt membranes. A delicate balance among these factors, rather than a mere alteration of a single factor, is critically important for HDPs to ensure the antimicrobial potency and target cell selectivity. With a better understanding of the structural determinants of HDPs for their membrane-lytic activities, it is expected that novel HDP-based antimicrobials with minimum toxicity to eukaryotic cells can be developed for resistant infections, which have become a global public health crisis.     

Molecular engineering of antimicrobial peptides: microbial targets,peptide motifs and translation opportunities

The global public health threat of antimicrobial resistance has led the scientific community to highly engage into research on alternative strategies to the traditional small molecule therapeutics. Here, we review one of the most popular alternatives amongst basic and applied research scientists, synthetic antimicrobial peptides. The ease of peptide chemical synthesis combined with emerging engineering principles and potent broad-spectrum activity, including against multidrug-resistant strains, has motivated intense scientific focus on these compounds for the past decade. This global effort has resulted in significant advances in our understanding of peptide antimicrobial activity at the molecular scale. Recent evidence of molecular targets other than the microbial lipid membrane, and efforts towards consensus antimicrobial peptide motifs, have supported the rise of molecular engineering approaches and design tools, including machine learning. Beyond molecular concepts, supramolecular chemistry has been lately added to the debate; and helped unravel the impact of peptide self-assembly on activity, including on biofilms and secondary targets, while providing new directions in pharmaceutical formulation through taking advantage of peptide self-assembled nanostructures. We argue that these basic research advances constitute a solid basis for promising industry translation of rationally designed synthetic peptide antimicrobials, not only as novel drugs against multidrug-resistant strains but also as components of emerging antimicrobial biomaterials. This perspective is supported by recent developments of innovative peptide-based and peptide-carrier nanobiomaterials that we also review.     

Isolation,characterization and molecular cloning of new antimicrobial peptides belonging to the brevinin-1 and temporin families from the skin of Hylarana latouchii (Anura: Ranidae)

Around 40 species of Hylarana amphibians are distributed in tropical and subtropical Asia, and Chinese broad-folded frog, Hylarana latouchii (Boulenger, 1899) is one of them. In this study, six different cDNAs encoding four novel antimicrobial peptide precursors were cloned by screening the cDNA library of the Chinese broad-folded frog skin. The protein sequence analysis demonstrated that two deduced peptides belong to the brevinin-1 family, and the other two belong to temporin family of amphibian antimicrobial peptides. Thus, they were named as brevinin-1LT1 (FMGSALRIAAKVLPAALCQIFKKC), brevinin-1LT2 (FFGSVLKVAAKVLPAALCQIFKKC), temporin-LT1 (FLPGLIAGIAKML–NH₂) and temporin-LT2 (FLPIALKALGSIFPKIL–NH₂), respectively. Furthermore, brevinin-1LT1 and temporin-LT1 were purified by HPLC from the skin secretion of H. latouchii. In this work, all the peptides kill microbes by membrane-disturbing mechanisms, and this procedure was visualized via scanning electron microscopy (SEM).     

Purification and characterization of antimicrobial and vasorelaxant peptides from skin extracts and skin secretions of the North American pig frog Rana grylio

Eight peptides with differential growth–inhibitory activity against the gram-positive bacterium Staphylococcus aureus, the gram-negative bacterium Escherichia coli and the yeast, Candida albicans were isolated from an extract of the skin of the North American pig frog Rana grylio. The primary structures of these antimicrobial peptides were different from previously characterized antimicrobial peptides from Ranid frogs but on the basis of sequence similarities, the peptides may be classified as belonged to four previously characterized peptide families: the ranatuerin-1, ranatuerin-2 and ranalexin families, first identified in the North American bullfrog, Rana catesbeiana, and the temporin family first identified in the European common frog Rana temporaria. Peptides belonging to the brevinin-1, brevinin-2, esculentin-1, and esculentin-2 families, previously isolated from the skins of other species of Ranid frogs, were not identified in the extracts. The ranatuerin-1 and ranalexin peptides showed broadest spectrum of antimicrobial activity whereas the temporins were active only against S. aureus. Synthetic replicates of temporin-1Gb (SILPTIVSFLSKFL.NH₂) and temporin-1Gd (FILPLIASFLSKFL.NH₂) produced concentration-dependent relaxation of preconstricted vascular rings from the rat thoracic aorta (EC₅₀=2.4±0.1 μM for temporin-1Gb and 2.3±0.2 μM for temporin-1Gd). The antimicrobial peptides that were isolated in extracts of the skin R. grylio were present in the same molecular forms in electrically-stimulated skin secretions of the animal demonstrating that the peptides are stored in the granular glands of the skin in their fully processed forms.     

Purification and characterization of novel antimicrobial peptides from the skin secretion of Hylarana guentheri

Linear, amphipathic and cationic antimicrobial peptides have been previously reported from a wide range of amphibian species especially frogs of the genus Rana. Such antimicrobial peptides are attracting increasing attention in pharmacological applications because they mainly act by permeabilizing and disrupting the target cell or virion membranes with a low degree of resistance. The Guenther's frog, Hylarana guentheri, is a Chinese frog of the genus Rana that is widely distributed in Southern China. It is commonly the dominant amphibian species even where the amphibian population is declining. In this study, we describe the isolation, purification, structural and biological characterization of five novel peptides from H. guentheri frog skin secretions that possess antimicrobial activity, including brevinin-2GHa, brevinin-2GHb, brevinin-2GHc, temporin-GH and a novel antimicrobial peptide named guentherin. The cDNAs encoding two novel members of the brevinin-2 family, brevinin-2GHb and brevinin-2GHc were also subsequently cloned and sequenced.     

Characterization of two novel antimicrobial peptides from the cuticular extracts of the ant Trichomyrmex criniceps (Mayr), (Hymenoptera: Formicidae)

Antimicrobial peptides (AMPs) from cuticular extracts of worker ants of Trichomyrmex criniceps (Mayr, Hymenoptera: Formicidae) were isolated and evaluated for their antimicrobial activity. Eight peptides ranging in mass from 804.42 to 1541.04 Da were characterized using a combination of analytical and bioinformatics approach. All the eight peptides were novel with no similarity to any of the AMPs archived in the Antimicrobial Peptide Database. Two of the eight novel peptides, the smallest and the largest by mass were named Crinicepsin‐1 and Crinicepsin‐2 and were chemically synthesized by solid phase peptide synthesis. The two synthetic peptides had antibacterial and weak hemolytic activity.     

抗菌肽抗菌机制及其应用研究进展

抗菌肽是一类小分子肽,具有广谱的抗菌活性。以往对抗菌肽抗菌机制的研究主要集中在细菌细胞膜的作用上,包含"桶板"模型、"毯式"模型,"环形孔"模型和"凝聚"模型。近年来相继发现某些抗菌肽可以作用于细菌细胞内部,与核酸物质结合,阻断DNA复制、RNA合成;影响蛋白质合成;抑制隔膜、细胞壁合成,阻碍细胞分裂;抑制胞内酶的活性。本文从胞内机制和胞外机制两个角度对抗菌肽的抗菌机制进行综述,以期阐明各类抗菌肽的作用机制,为进一步研究菌株耐药性、杀菌效果及其杀菌机制提供科学根据。     

A review of fish-derived antioxidant and antimicrobial peptides: their production, assessment, and applications

Fishes are rich sources of structurally diverse bioactive compounds. In recent years, much attention has been paid to the existence of peptides with biological activities and proteins derived from foods that might have beneficial effects for humans. Antioxidant and antimicrobial peptides isolated from fish sources may be used as functional ingredients in food formulations to promote consumer health and improve the shelf life of food products. This paper presents an overview of the antioxidant and antimicrobial peptides derived from various fishes. In addition, we discuss the extraction of fish proteins, enzymatic production, and the techniques used to isolate and characterize these compounds. Furthermore, we review the methods used to assay the bioactivities and their applications in food and nutraceuticals.     

Molecular characterization and antimicrobial activity of endophytic fungi from coffee plants

Endophytic filamentous fungi from coffee plants (Coffea arabica and C. robusta) deposited in the Brazilian Collection of Environmental and Industrial Microorganisms (CBMAI) were characterized taxonomically by using molecular tools and investigated concerning their antimicrobial activity against different human pathogenic bacteria. Thirty-seven out of 39 CBMAI strains investigated were identified to at least at genus level by ITS and rDNA D1/D2 sequencing and phylogenetic analyses. Bioactivity screening of fungal extracts against Salmonella choleraesuis (CBMAI 484), Staphylococcus aureus (CBMAI 485), Pseudomonas aeruginosa (CBMAI 489) and against four different Escherichia coli serotypes showed that 17 fungi inhibited at least one of the bacteria studied. The endophytic fungi Trichoderma harzianum (CBMAI 43), Guignardia sp. (CBMAI 69) and Phomopsis sp. (CBMAI 164) inhibited from four to five bacterial species, while five fungi were active against all pathogenic bacteria tested and were identified as Aspergillus versicolor (CBMAI 46), Fusarium oxysporum (CBMAI 53), Glomerella sp. (CBMAI 63) and Cladosporium spp. (CBMAI 64 and CBMAI 66). The Minimal Inhibitory Concentration (MIC) for the fungus extracts varied from 0.025 to 1.0 mg ml⁻¹, demonstrating antimicrobial potential of some of these fungi.     

Purification and characterization of a novel antimicrobial peptide from Brevibacillus laterosporus strain A60

A novel antimicrobial peptide, with molecular mass of 1602.0469Da, produced by Brevibacillus laterosporus strain A60 was isolated and purified from the soil of mango plants. The purification procedure consisted of ammonium sulfate precipitation, cation exchange chromatography on an HiTrap SP HP column, thin layer chromatography and High Performance Liquid Chromatography (HPLC) on C18 reversed-phase column. After the four isolation procedures, one peptide with antimicrobial activity was obtained and named BL-A60. The determination of the complete amino acid sequences of this peptide showed that it contains eleven amino acid residues, L-Y-K-L-V-K-V-V-L-N-M, and a choline connected to the N-terminal and a tenuazonic acid modified of the C-terminal. This peptide shows relatively low identification to other antimicrobial peptides from bacteria. Purified BL-A60 showed high pH and thermal stability and a strong inhibition of different stages of the life cycle of Phytophthora capsici, including mycelial growth, sporangia formation and cystospore germination, with EC(50) values of 7.89, 0.60 and 21.96 μg ml(-1), respectively.     

Two novel antimicrobial peptides purified from the symbiotic bacteria Xenorhabdus budapestensis NMC-10

Symbiotic bacteria, which are carried in the intestinal vesicle of the infective stage of juvenile entomopathogenic nematodes, produce broad-spectrum antibiotics. In this study, we aimed to isolate the antimicrobial peptides from the culture of the entomopathogenic bacterium Xenorhabdus budapestensis NMC-10. By screening chromatography columns and optimizing flow rate, pH, salinity and other purification conditions, we identified the final purification procedures which consisted of Q ion-exchange chromatography, gel filtration chromatography and two-step reverse-phase chromatography. Two novel antimicrobial peptides were identified via Q-TOF-TOF and de novo sequencing, and designated as GP-19 and EP-20. Both natural and synthetic peptides demonstrated broad-spectrum antimicrobial activities. The synthetic GP-19 peptide was active against Verticillium dahlia with EC(50) values of 17.54 μg/ml and highly inhibited the growth of a variety of bacteria, while the synthetic EP-20 peptide was highly active against Phytophthora capsici with EC(50) values of 3.14 μg/ml.     

Molecular cloning, heterologous expression and functional characterization of a novel translationally-controlled tumor protein (TCTP) family member from Loxosceles intermedia (brown spider) venom

Envenoming with brown spiders (Loxosceles genus) is common throughout the world. Cutaneous symptoms following spider bite accidents include dermonecrosis, erythema, itching and pain. In some cases, accidents can cause hypersensibility or even allergic reactions. These responses could be associated with histaminergic events, such as an increase in vascular permeability and vasodilatation. A protein that may be related to the effects of spider venom was identified from a previously obtained cDNA library of the L. intermedia venom gland. The amino acid sequence of this protein is homologous to proteins from the TCTP (translationally-controlled tumor protein) family, which are extracellular histamine-releasing factors (HRF) that are associated with the allergic reactions to parasites. Herein, we described the cloning, heterologous expression, purification and functional characterization of a novel member of the TCTP family from the Loxosceles intermedia venom gland. This recombinant protein, named LiRecTCTP, causes edema, enhances vascular permeability and is likely related to the inflammatory activity of the venom. Moreover, LiRecTCTP presents an immunological relationship with mammalian TCTPs.