Chitin-binding proteins in invertebrates and plants comprise a common chitin-binding structural motif

Tachycitin, a 73-residue polypeptide having antimicrobial activity is present in the hemocyte of horseshoe crab (Tachypleus tridentatus). The first three-dimensional structure of invertebrate chitin-binding protein was determined for tachycitin using two-dimensional nuclear magnetic resonance spectroscopy. The measurements indicate that the structure of tachycitin is largely divided into N- and C-terminal domains; the former comprises a three-stranded beta-sheet and the latter a two-stranded beta-sheet following a short helical turn. The latter structural motif shares a significant tertiary structural similarity with the chitin-binding domain of plant chitin-binding protein. This result is thought to provide faithful experimental evidence to the recent hypothesis that chitin-binding proteins of invertebrates and plants are correlated by a convergent evolution process.     

Amino acid sequence and antimicrobial activity of chitin-binding peptides, Pp-AMP 1 and Pp-AMP 2, from Japanese bamboo shoots (Phyllostachys pubescens)

Two novel chitin-binding peptides, designated Pp-AMP 1 and Pp-AMP 2, which had antimicrobial activity against pathogenic bacteria and fungi, were purified from Japanese bamboo shoots (Phyllostachys pubescens) by a simple procedure based on chitin affinity chromatography. They had the common structural features of the plant defensin family, but they could not be grouped in any type of that family. They showed a high degree of homology to mistletoe toxins.     

Amino Acid Sequence and Antimicrobial Activity of Chitin-Binding Peptides,Pp-AMP 1 and Pp-AMP 2, from Japanese Bamboo Shoots (Phyllostachys pubescens)

Two novel chitin-binding peptides, designated Pp-AMP 1 and Pp-AMP 2, which had antimicrobial activity against pathogenic bacteria and fungi, were purified from Japanese bamboo shoots (Phyllostachys pubescens) by a simple procedure based on chitin affinity chromatography. They had the common structural features of the plant defensin family, but they could not be grouped in any type of that family. They showed a high degree of homology to mistletoe toxins.     

鲎源抗菌肽的研究及其潜在应用价值

鲎血细胞来源的抗菌肽,在鲎天然免疫中起至关重要的作用,它对外源病原菌具有抗性作用,降低了外源病原菌对鲎活体的致病性,增强了鲎的天然免疫能力。鲎源抗菌肽有一些不同于其他来源的抗菌肽的优势,对鲎源抗菌肽的研究有很重要的实用意义。概述了鲎源抗菌肽的性质、分子结构、基因序列及其制备,并对它们的潜在应用价值进行了论述。     

The micelle-bound structure of an antimicrobial peptide derived from the alpha-chain of bovine hemoglobin isolated from the tick Boophilus microplus

Hemoglobin is known to be a source of peptides involved in several functions. The peptide FLSFPTTKTYFPHFDLSHGSAQVKGHGAK (Hb33-61) is a proteolytic product of the bovine hemoglobin alpha-chain found in the gut content of the cattle tick, Boophilus microplus, and it possesses antimicrobial activity. Since in the past we showed that the amidated form of Hb33-61, Hb33-61a, is active against a few Gram-positive bacteria and fungi strains at micromolar concentration [Fogaca et al. (1999) J. Biol. Chem. 274, 25330-25334], we have been prompted to shed more light on its functional and structural features. Here we show that the peptide is able to disrupt the bacterial membrane ofMicrococcus luteus A270. As for its structure, it has a random conformation in water, and it does not interact with zwitterionic micelles. On the other hand, it binds to negatively charged micelles acquiring a finite structural organization. The 3D structure of Hb33-61a bound to SDS micelles exhibits a nonconventional conformation for an antimicrobial peptide. The backbone is characterized by the presence of a beta-turn in the N-terminus and by a beta-turn followed by a alpha-helical stretch in the C-terminus. A hinge, whose spatial organization is stabilized by side-chain-side-chain interactions, joins these two regions. Interestingly, it preserves structural features present in the corresponding segment of the bovine hemoglobin alpha-chain. Hb33-61a does not possess a well-defined amphipathic nature, and H/D exchange experiments show that while the C-terminal region is embedded in the SDS micelle, one face of the N-terminal half is partly exposed to the solvent.     

牛蛙两个新Temporins基因的克隆及其抗菌机制的研究

Temporins 是从蛙属中得到的一类羧基端酰胺化的疏水性抗菌肽,具有抗细菌、霉菌、酵母菌、原虫及病毒活性．为了研究牛蛙皮肤抗菌肽的多样性及其结构特点,根据GenBank数据库中蛙属抗菌肽基因信号肽序列设计简并引物,从牛蛙皮肤cDNA文库中克隆到两个新的temporins 家族抗菌肽,命名为 temporin-La (LLRHVVKILEKYL_amide) 和 temporin-Lb (LFRHVVKIFEKYL_amide)．合成的 temporin-La 和 temporin-Lb肽具有很强的抗菌活性,尤其是对革兰氏阳性细菌．溶血性测定结果表明,temporin-La 浓度高至250 mg/L 时对兔红细胞仍无溶血活性,而 temporin-Lb 具有较弱的溶血活性(半数致死浓度LC₅₀ ≈ 230 μmol/L)．通过透射电镜观察 temporin-La 和 temporin-Lb 处理过的金黄色葡萄球菌的细胞结构,发现它们都能直接地杀死细菌,但作用机制不一样．     

Synthesis, characterization and in vitro antimicrobial evaluation of new compounds incorporating oxindole nucleus

New compounds incorporating with the oxindole nucleus were synthesized via the reaction of substituted isatins [5-methyl-, 5-chloro- and 1-hydroxymethyl isatins] with different nucleophiles. The structures of the newly compounds were elucidated on the basis of FTIR, (1)H NMR, (13)CMR spectral data, GC/MS and chemical analysis. Investigation of antimicrobial activity of the new compounds was evaluated using broth dilution technique in terms of minimal inhibitory concentration (MIC) count against four pathogenic bacteria and two pathogenic fungi. Most of the new compounds are significantly active against bacteria and fungi. MIC showed that compound (4a) possesses higher effect on Gram-positive bacteria Bacillus cereus than the selected antibacterial agent sulphamethoxazole, whereas compound (11c) possesses more activity against Gram-negative bacteria Shigella dysenterie.     

C-terminal amidation of PMAP-23: translocation to the inner membrane of Gram-negative bacteria

PMAP-23 is a member of the cathelicidin family derived from pig myeloid cells and has potent antimicrobial activity. Amidation of the carboxyl terminus (C-terminus) of an antimicrobial peptide generally enhances its structural stability and antimicrobial activity or decreases its cytotoxicity. The aim of the present study was to investigate the effect of amidation on the mode of action in PMAP-23. Irrespective of amidation, PMAP-23 adopts a helix–hinge–helix structure in a membrane-mimetic environment. The antibacterial activities of PMAP-23C, which had a free C-terminus, and PMAP-23N, which had an amidated C-terminus, were similar against Gram-negative bacteria, reflecting a similar ability to neutralize lipopolysaccharide. However, PMAP-23N assumed a perpendicular orientation across the outer to the inner leaflet of the bacterial inner membrane, while PMAP-23C was orientated parallel to the lipid bilayer, as determined by following the blue shift in tryptophan fluorescence, as well as calcein release from liposomes and SYTOX Green uptake assays. These results suggest that N-terminal amidation of PMAP-23 provides structural stability and increases the peptide’s cationic charge, facilitating translocation into the bacterial inner membrane.     

Honeybee (Apis cerana) major royal jelly protein 4 exhibits antimicrobial activity

Major royal jelly proteins (MRJPs) are important protein components of bee royal jelly (RJ) and exhibit various biological and pharmacological activities. The antimicrobial activities of the royalisin and the jelleines contained within MRJP 1 and MRJP 2 in RJ have been elucidated. However, the antimicrobial effects of other MRJPs remain largely unknown. In this study, we demonstrated the antimicrobial activity of the Asiatic honeybee (Apis cerana) MRJP 4 (AcMRJP4). Recombinant AcMRJP4 was expressed as a 63-kDa protein in baculovirus-infected insect cells. We examined the antimicrobial activity of recombinant AcMRJP4 against bacteria, fungi, and yeast. The mechanisms underlying the antimicrobial activity of AcMRJP4 were assessed using western blot analysis, immunofluorescence staining, and scanning electron microscopy. Recombinant AcMRJP4 bound to the cell walls of bacteria, fungi, and yeast and induced structural damage in the microbial cell walls. AcMRJP4 has an antimicrobial role and exhibits a broad spectrum of antimicrobial activities against bacteria, fungi, and yeast. We demonstrated that AcMRJP4 functions as an antimicrobial agent with activity against bacteria, fungi, and yeast. Together, our data identified a novel function of MRJP 4 as an antimicrobial agent.     

Structure of the antimicrobial peptide tachystatin A

The solution structure of antimicrobial peptide tachystatin A from the Japanese horseshoe crab (Tachypleus tridentatus) was determined by two-dimensional nuclear magnetic resonance measurements and distance-restrained simulated annealing calculations. The correct pairs of disulfide bonds were also confirmed in this study. The obtained structure has a cysteine-stabilized triple-stranded beta-sheet as a dominant secondary structure and shows an amphiphilic folding observed in many membrane-interactive peptides. Interestingly, tachystatin A shares structural similarities with the calcium channel antagonist omega-agatoxin IVA isolated from spider toxin and mammalian defensins, and we predicted that omega-agatoxin IVA also have the antifungal activity. These structural comparisons and functional correspondences suggest that tachystatin A and omega-agatoxin IVA may exert the antimicrobial activity in a manner similar to defensins, and we have confirmed such activity using fungal culture assays. Furthermore, tachystatin A is a chitin-binding peptide, and omega-agatoxin IVA also showed chitin-binding activities in this study. Tachystatin A and omega-agatoxin IVA showed no structural homology with well known chitin-binding motifs, suggesting that their structures belong to a novel family of chitin-binding peptides. Comparison of their structures with those of cellulose-binding proteins indicated that Phe(9) of tachystatin A might be an essential residue for binding to chitin.     

Expression and purification of antimicrobial peptide adenoregulin with C-amidated terminus in Escherichia coli

Adenoregulin is a 33 amino acid antimicrobial peptide isolated from the skin of the arboreal frog Phyllomedusa bicolor. Natural adenoregulin is synthesized with an amidated valine residue at C-terminus and shows lethal effects against filamentous fungi, as well as a broad spectrum of pathogenic microorganisms. A synthetic gene for adenoregulin (ADR) with an additional amino acid glutamine at C-terminus was cloned into pET32a vector to allow expression of ADR as a Trx fusion protein in Escherichia coli BL21(DE3). The resulting expression level of the fusion protein could reach up to 20% of the total cell proteins. The fusion protein could be purified effectively by Ni2+-chelating chromatography. Released from the fusion protein by enterokinase cleavage and purified to homogeneity, the recombinant ADR displayed antimicrobial activity similar to that of the synthetic ADR reported earlier. Comparing the antimicrobial activities of the recombinant adenoregulin with C-amidated terminus to that without an amidated C-terminus, we found that the amide of glutamine at C-terminus of ADR improved its potency on certain microorganisms such as Tritirachium album and Saccharomyces cerevisiae.     

Antimicrobial activity and secondary structure of a novel peptide derived from ovalbumin

A novel antimicrobial peptide derived from ovalbumin has been discovered. First, the peptide fragment RKIKVYLPRMK (TK9.1) was identified based on computerized predictions of the secondary structure of peptides in a protein data bank. Using HeliQuest, the sequence was developed into RKIKRYLRRMI (TK9.1.3), which was synthesized using Fmoc‐solid phase peptide synthesis, and found to have strongly antimicrobial activity against Gram‐positive and Gram‐negative bacteria, and fungi but not cytotoxic to HeLa cells and hemolysis in mouse red blood cells. Although ovalbumin itself does not have an antibacterial activity, our results suggest that it may supply the organisms that consume it with antimicrobial peptides, in support of their immunodefence.     

A chlorinated phenylpyrrole antibiotic fromActinoplanes

Two chlorophenyl-containing antibiotics have been isolated from a strain ofActinoplanes (ATCC 33002). Antibiotic A 15104 Y is a chlorinated phenylpyrrole compound whose structure has been confirmed by chemical synthesis. Antibiotic A 15104 Z is a chlorophenol derivative for which a structural formula is proposed on the basis of its physicochemical properties. A 15104 Y shows antimicrobial activity against Gram-positive, Gram-negative, and acid-fast bacteria, yeasts, fungi, and protozoa, while A 15104 Z possesses a low activity against Gram-positive bacteria andTrichophyton. A 15104 Y has a weak activity in curing experimentally infected mice, at a dose that is one-fifth the LD₅₀ for the same species. This is the first example of a chloropyrrole derivative isolated from an actinomycete.     

Cutting edge: the toll pathway is required for resistance to gram-positive bacterial infections in Drosophila

In Drosophila, the response against various microorganisms involves different recognition and signaling pathways, as well as distinct antimicrobial effectors. On the one hand, the immune deficiency pathway regulates the expression of antimicrobial peptides that are active against Gram-negative bacteria. On the other hand, the Toll pathway is involved in the defense against filamentous fungi and controls the expression of antifungal peptide genes. The gene coding for the only known peptide with high activity against Gram-positive bacteria, Defensin, is regulated by both pathways. So far, survival experiments to Gram-positive bacteria have been performed with Micrococcus luteus and have failed to reveal the involvement of one or the other pathway in host defense against such infections. In this study, we report that the Toll pathway, but not that of immune deficiency, is required for resistance to other Gram-positive bacteria and that this response does not involve Defensin.     

Synthesis,characterization and in vitro antimicrobial evaluation of new compounds incorporating oxindole nucleus

New compounds incorporating with the oxindole nucleus were synthesized via the reaction of substituted isatins [5-methyl-, 5-chloro- and 1-hydroxymethyl isatins] with different nucleophiles. The structures of the newly compounds were elucidated on the basis of FTIR, ¹H NMR, ¹³CMR spectral data, GC/MS and chemical analysis. Investigation of antimicrobial activity of the new compounds was evaluated using broth dilution technique in terms of minimal inhibitory concentration (MIC) count against four pathogenic bacteria and two pathogenic fungi. Most of the new compounds are significantly active against bacteria and fungi. MIC showed that compound (4a) possesses higher effect on Gram-positive bacteria Bacillus cereus than the selected antibacterial agent sulphamethoxazole, whereas compound (11c) possesses more activity against Gram-negative bacteria Shigella dysenterie.     

LyeTx I,a potent antimicrobial peptide from the venom of the spider <Emphasis Type="Italic">Lycosa erythrognatha</Emphasis>

LyeTx I, an antimicrobial peptide isolated from the venom of Lycosa erythrognatha, known as wolf spider, has been synthesised and its structural profile studied by using the CD and NMR techniques. LyeTx I has shown to be active against bacteria (Escherichia coli and Staphylococcus aureus) and fungi (Candida krusei and Cryptococcus neoformans) and able to alter the permeabilisation of l-α-phosphatidylcholine-liposomes (POPC) in a dose-dependent manner. In POPC containing cholesterol or ergosterol, permeabilisation has either decreased about five times or remained unchanged, respectively. These results, along with the observed low haemolytic activity, indicated that antimicrobial membranes, rather than vertebrate membranes seem to be the preferential targets. However, the complexity of biological membranes compared to liposomes must be taken in account. Besides, other membrane components, such as proteins and even specific lipids, cannot be discarded to be important to the preferential action of the LyeTx I to the tested microorganisms. The secondary structure of LyeTx I shows a small random-coil region at the N-terminus followed by an α-helix that reached the amidated C-terminus, which might favour the peptide-membrane interaction. The high activity against bacteria together with the moderate activity against fungi and the low haemolytic activity have indicated LyeTx I as a good prototype for developing new antibiotic peptides.     

Isolation, characterization and molecular cloning of new temporins from the skin of the North African ranid Pelophylax saharica

Temporins are small antimicrobial peptides isolated from North American and Eurasian ranid frogs that are particularly active against Gram-positive bacteria. To date, no temporins have been characterized from North African frog species. We isolated three novel members of the temporin family, named temporin-1Sa (FLSGIVGMLGKLF(amide)), -1Sb (FLPIVTNLLSGLL(amide)), and -1Sc (FLSHIAGFLSNLF(amide)), from the skin of the Sahara frog Pelophylax (Rana) saharica originating from Tunisia. These temporins were identified by a combined mass spectrometry/molecular cloning approach. Temporin-1Sa was found to be highly active against Gram-positive and Gram-negative bacteria, yeasts and fungi (MIC=2-30muM). To our knowledge, this is the first 13-residue member of the temporin family with a net charge of +2 that shows such broad-spectrum activity with particularly high potency on the clinically relevant Gram-negative strains, Escherichia coli (MIC=10muM) and Pseudomonas aeruginosa (MIC=31muM). Moreover, temporin-1Sa displays significant antiparasitic activity (IC(50) approximately 20muM) against the promastigote and amastigote stages of Leishmania infantum.     

Production,purification, and characterization of the cecropin from <Emphasis Type="Italic">Plutella xylostella</Emphasis>, pxCECA1, using an intein-induced self-cleavable system in <Emphasis Type="Italic">Escherichia coli</Emphasis>

Antimicrobial peptides (AMPs) are widely expressed and play an important role in innate immune defense against infectious agents such as bacteria, viruses, fungi, and parasites. Cecropins are a family of AMPs synthesized in the fat body of insects that have proven effective at killing specific pathogens. In order to fulfill their clinical potential as antimicrobial drugs, a simple, cost-effective method to express AMPs is sorely needed. In this study, we expressed and characterized the cecropin from Plutella xylostella (pxCECA1) using an intein-dependent expression system in Escherichia coli. We cloned the pxCECA1 gene from larva by RT-PCR and fused the encoding sequence of mature pxCECA1 with an intein gene and a chitin-binding domain gene (CBD) in pTWIN1 plasmid. The fusion protein CBD–intein–pxCECA1 was expressed in E. coli BL21 (DE3) and separated by flowing cell extracts through a chitin column. Subsequently, self-cleavage of the intein at its C-terminus was induced in a temperature- and pH-dependent manner, resulting in the release of mature pxCECA1. The optimal conditions for self-cleavage were determined to be pH 6.0 for 48 h at 4°C, under which 12.3 mg of recombinant pxCECA1 could be recovered from 1 l of E. coli culture. The purified pxCECA1 displayed antimicrobial activity against a broad variety of gram-positive and gram-negative bacteria. This preparation was especially effective against Staphylococcus aureus, including methicillin-resistant strains. Catalase release assays demonstrated that pxCECA1 acts as a microbicidal agent. These results show for the first time that the IMPACT-TWIN expression system is an efficient, cost-effective way to produce fully functional AMPs and that the AMP pxCECA1 is a novel microbicidal agent with promising therapeutic applications.     

Antimicrobial evaluation of coumarins and flavonoids from the stems of Daphne gnidium L.

The antimicrobial activity of stems methanol extract from Daphne gnidium L. collected from Sardinia (Italy) was evaluated against 6 strains of standard and clinical isolated gram (+/-) bacteria. The antimicrobial effect on two strains of fungi was also tested. The extract in toto exhibited antibacterial activity against Bacillus lentus and Escherichia coli, but was inactive against fungi. Four coumarins (daphnetin, daphnin, acetylumbelliferone, daphnoretin) and seven flavonoids (luteolin, orientin, isoorientin, apigenin-7-O-glucoside, genkwanin, 5-O-beta-D-primeverosyl genkwanine, 2,5,7,4'-tetrahydroxyisoflavanol) present in the plant extract were also investigated against the same strains of bacteria and fungi assayed for the crude extract. The most active compounds were daphnetin, genkwanin, and 2,5,7,4'-tetrahydroxyisoflavanol.     

Design of novel analogues with potent antibiotic activity based on the antimicrobial peptide, HP(2-9)-ME(1-12)

To develop novel antibiotic peptides useful as therapeutic drugs, a number of analogues were designed to increase the hydrophobic helix region either by Trp-substitution or net positive charge increase by Lys-substitution, from HP(2-9)-ME(1-12). The antibiotic activities of these peptides were evaluated using bacterial (Salmonella tryphimurium, Proteus vulgaris, Bacillus subtilis and Staphylococcus aureus), fungi (Saccharomyces cerevisiae, Trichosporon beigelii and Candida albicans), tumor and human erythrocyte cells. The substitution of Lys for Thr at position 18 and 19 of HP(2-9)-ME(1-12) (HM5) increased activity against Proteus vulgaris and fungal strains without hemolysis. In contrast, substitution of Trp for Lys and Thr at positions 2, 15 and 19 of HP(2-9)-ME(1-12), respectively (HM3 and HM4), decreased activity but increased hemolysis against human erythrocytes. This suggests that an increase in positive charge increases antimicrobial activity whereas an increase in hydrophobicity by introducing Trp residues at C-terminus of HP(2-9)-ME(1-12) causes a hemolytic effect. Circular dichroism spectra suggested that the alpha-helical structure of these peptides plays an important role in their antibiotic effect but that the alpha-helical property is not connected with the enhanced antibiotic activity.