Three new antimicrobial peptides from the scorpion Pandinus imperator

Three novel cysteine-free venom peptides, which were referred to as Pantinin-1, Pantinin-2 and Pantinin-3, respectively, have been identified from the scorpion Pandinus imperator by cDNA cloning strategy. The precursor of each peptide consists of a signal peptide, a mature peptide with no disulfide bridges, and an acidic propeptide with a typical processing signal. Each of the three peptides is an α-helical, cationic and amphipathic molecule with 13 or 14 amino acid residues. Their amino acid sequences are homologous to those of some 13-mer antimicrobial peptides isolated from scorpions. Antimicrobial assay showed that all the three peptides possess relatively strong activities against Gram-positive bacteria and a fungus, but have very weak antimicrobial activities against Gram-negative bacteria. Toxicity assay showed that the three peptides exhibit very low or mild hemolytic activities against human red blood cells. It is interesting to see that Pantinin-3 is able to potently inhibit the growth of vancomycin-resistant Enterococcus (VRE) S13, a pathogen that can cause a number of human infections; this suggests that Pantinin-3 has great potential to be applied in the treatment of VRE infections. Our findings gain new insights into the structure/function relationships of the small linear cationic antimicrobial peptides from scorpions, and provide new templates for designing of antimicrobial agents targeting antibiotic-resistant pathogenic bacteria.     

Amphipathic peptides can act as an anticoagulant by competing with phospholipid membranes for blood coagulation factors

An ideal amphipathic peptide (IAP), composed of simply lysine and leucine residues in a 1:2 ratio (K₇L₁₅), specifically prolongs in vitro coagulation assays that use phospholipids, such as the activated partial thromboplastin time (APTT). The main hypothesis of the present work is that IAP’s anticoagulant effect occurs by competing with phospholipid membranes in in vitro coagulation reactions. We verified this hypothesis by employing different phospholipid-dependent coagulation assays, such as the APTT, the dilute prothrombin time (dPT) and the dilute Russell viper venom time (dRVVT) with both low and high amounts of phospholipids. We show that coagulation times are prolonged by IAP in a concentration-dependent manner, and that this prolongation is abrogated by adding excess phospholipid, demonstrating a phospholipid dependence for this inhibition. Using an ELISA-based binding assay, we show IAP inhibits the binding of one of the vitamin K-dependent coagulation factors, factor X, to phospholipid membranes. This is further confirmed with fluorescence spectroscopy, where the interaction of IAP and factor X is inhibited by phospholipid. In summary, this work demonstrates that IAP can act as an anticoagulant by impairing the interaction of coagulation factors with phospholipid membranes and provides a paradigm for the development of novel anticoagulants.     

Cationic amphipathic histidine-rich peptides for gene delivery

Besides being a useful tool in research, gene transfer has a high potential as treatment for a variety of genetic and acquired diseases. However, in order to enable a gene to become a pharmaceutical, efficient and safe methods of delivery have to be developed. We recently found that cationic amphipathic histidine-rich peptide antibiotics can efficiently deliver DNA into mammalian cells. Our lead compound, LAH4 (KKALLALALHHLAHLALHLALALKKA), demonstrated in vitro transfection efficiencies comparable to those of commercially available reagents. Synthesis and evaluation of LAH mutants provided evidence that the transfection efficiency depends on the number and positioning of histidine residues in the peptide as well as on the pH at which the in-plane to transmembrane transition takes place. Moreover, recent results suggest that binding of the DNA complexes to the plasma membrane is mediated by heparan sulfate proteoglycans and that anionic phospholipids may be involved in the endosomal destabilization process. Finally, we also describe in this review the rationale that led to the development of LAH4 as a DNA carrier as well as the biophysical methods that have allowed us to propose a model which could explain the way this peptide destabilizes the endosomal bilayer.     

β-Amyloid Peptide Interacts Specifically with the Carboxyl-Terminal Domain of Human Apolipoprotein E

Abstract : Growing evidence indicates the involvement of apolipoprotein E (apoE) in the development of late-onset and sporadic forms of Alzheimer's disease, although its exact role remains unclear. We previously demonstrated that β-amyloid peptide (Aβ) displays membrane-destabilizing properties and that only apoE2 and E3 isoforms inhibit these properties. In this study, we clearly demonstrate that the carboxy-terminal lipid-binding domain of apoE (e.g., residues 200-299) is responsible for the Aβ-binding activity of apoE and that this interaction involves pairs of apoE amphipathic α-helices. We further demonstrate that Aβ is able to inhibit the association of the C-terminal domain of apoE with lipids due to the formation of Aβ/apoE complexes resistant to sodium dodecyl sulfate-polyacrylamide gel electrophoresis. On the contrary, the amino-terminal receptor-binding domain of apoE (e.g., residues 129-169) is not able to form stable complexes with Aβ. These data extend our understanding of human apoE-dependent binding of Aβ by involving the C-terminal domain of apoE in the efficient formation of apoE/Aβ complex.     

Preferential binding of apolipoprotein E derived peptides with oxidized phospholipid

The physiological function of apolipoprotein E (apoE) includes transport and metabolism of lipids and its C-terminal domain harbors high affinity lipid-binding sites. Although the binding of apoE with non-oxidized phospholipid containing membranes has been characterized earlier, the interaction of apoE or its fragments with oxidized phospholipid containing membrane has never been studied. In this study we have compared the interaction of amphipathic helical peptide sequences derived from the C-terminal domain of apoE with membrane vesicles containing oxidized phospholipid, 1-palmitoyl-2-azelaoyl-sn-glycero-3-phosphocholine (PazePC), with membrane vesicles without PazePC. The interaction was studied by monitoring (a) fluorescence emission maxima of the peptides, (b) acrylamide quenching of the peptides tryptophan residues and (c) by measuring the equilibrium binding constants by resonance energy transfer (RET) analysis. Our result shows that peptide sequence 202-223, 245-266 and 268-289 of apoE has higher affinity towards membrane containing PazePC, compared to membrane without PazePC. Presence of 1mM divalent cation or 50 mM NaCl in the buffer decreased the binding of peptides to PazePC containing membrane vesicles suggesting possible involvement of the electrostatic interaction in the binding. These observations suggest that the preferential binding of apoE to oxidized phospholipid containing membrane may play a role in the anti-oxidative properties of apoE.     

Purification and characterization of high antioxidant peptides from duck egg white protein hydrolysates

The hydrolysate from duck egg white protein (DEWP) prepared by “SEEP–Alcalase” at degree of hydrolysis (DH) value of 21% (namely HSA₂₁) exhibited high antioxidant capacity in different oxidation systems. A consecutive chromatographic method was then developed for separation and purification of HSA₂₁, including ion-exchange chromatography, macroporous adsorption resin (MAR) and gel filter chromatography. The final peptides “P_21-3–75-B” were obtained with significantly enhanced antioxidant activity (p < 0.05). It was further confirmed that the product mainly consisted of five oligopeptides (Mr: 202.1, 294.1, 382.1, 426.3, and 514.4 Da). Furthermore, the antioxidant activity of P_21-3–75-B kept stable after in vitro digestive simulation. Antioxidant capacity of the purified peptides was closely related to the molecular mass, hydrophobic amino acid residues, acidic amino acid and some antioxidant amino acids. This research provided a valuable route for producing new natural-source peptides with strong antioxidant capacity and high nutritious value for our daily intake.     

Purification and identification of antioxidant peptides from walnut (Juglans regia L.) protein hydrolysates

Walnut proteins were hydrolyzed separately using three different proteases to obtain antioxidant peptides. The antioxidant activities of the hydrolysates were measured using 1,1-diphenyl-2-picryl hydrazyl (DPPH) assay. Among hydrolysates, pepsin hydrolysate obtained by 3 h exhibited the highest antioxidant activities, which could also quench the hydroxyl radical, chelate ferrous ion, exhibit reducing power and inhibit the lipid peroxidation. Then, 3-h pepsin hydrolysates were purified sequentially by ultrafiltration, gel filtration and RP-HPLC. The sequence of the peptide with the highest antioxidative activity was identified to be Ala-Asp-Ala-Phe (423.23 Da) using RP-HPLC-ESI-MS, which was identified for the first time from walnut protein hydrolysates. Last, the inhibition of the peptide on lipid peroxidation was similar with that of reduced glutathione (GSH). These results indicate that the protein hydrolysates and/or its isolated peptides may be effectively used as food additives.     

Apolipoprotein E limits oxidative stress-induced cell dysfunctions in human adipocytes

Oxidative stress in adipose tissue constitutes a pathological process involved in obesity-linked metabolic disorders. Apolipoprotein E (apoE), which exhibits antioxidant properties in plasma and brain, is highly produced by adipose tissue and adipocytes. In this study, we investigated the role of apoE in the human adipocyte response to oxidative stress. We first demonstrated that apoE secretion by adipocytes was stimulated by oxidative stress. We also observed that apoE overexpression protected adipocytes from hydrogen peroxide-induced damages, by mitigating intracellular oxidation and exerting extracellular antioxidant properties. Our findings clearly show a novel antioxidant role for apoE in adipose tissue.     

脱脂蛋白模型多肽与脂质体相互作用的高效液相色谱研究

应用凝胶过滤高效液相色谱,测定了两个两亲性多肽Ａｍｐ１和Ａｍｐ２进入磷脂酰甘油／磷脂酰胆碱脂双层的表观分配常数,并利用三硝基苯磺酸分析研究了与脂质体结合的多肽的氨基暴露状况。由结果推测,处于膜结合状态的多肽的氨基端是暴露于水相的;Ａｍｐ１与脂双层相互作用强于Ａｍｐ２,一方面表现为Ａｍｐ１比Ａｍｐ２埋膜较深,另一方面表现为Ａｍｐ１与脂双层的结合能力比Ａｍｐ２强,而主要表现在于后者。此外也发现两个多肽在缓冲液中处于几乎不存在暴露的氨基的聚合状态。     

Novel antioxidant bromophenols with acetylcholinesterase,butyrylcholinesterase and carbonic anhydrase inhibitory actions

In this study, a series of novel bromophenols were synthesized from benzoic acids and methoxylated bromophenols. The synthesized compounds were evaluated by using different bioanalytical antioxidant assays including 2,2-diphenyl-1-picrylhydrazyl (DPPH) and 2,2′-azino-bis (3-ethylbenzothiazoline-6-sulphonic acid) (ABTS⁺) radical scavenging assays. Also, reducing power of novel bromophenols were evaluated by Cu²⁺-Cu⁺ reducing, Fe³⁺-Fe²⁺ reducing and [Fe³⁺-(TPTZ)₂]³⁺-[Fe²⁺-(TPTZ)₂]₂+ reducing and ferrous ions (Fe²⁺) chelating abilities. The compounds demonstrate powerful antioxidant activities when compared to standard antioxidant molecules of α-tocopherol, trolox, butylated hydroxyanisole (BHA), and butylated hydroxytoluene (BHT). Also in the last part of this studies novel bromophenols were tested against some metabolic enzymes including acetylcholinesterase (AChE), butyrylcholinesterase (BChE) enzymes and carbonic anhydrase I, and II (hCA I and hCA II) isoenzymes. The newly synthesized bromophenols showed Ki values in a range of 6.78 ± 0.68 to 126.07 ± 35.6 nM against hCA I, 4.32 ± 0.23 to 72.25 ± 12.94 nM against hCA II, 4.60 ± 1.15 to 38.13 ± 5.91 nM against AChE and 7.36 ± 1.31 to 29.38 ± 3.68 nM against BChE.     

Thiol-bearing synthetic peptides retain the antioxidant activity of apolipoproteinA-I(Milano)

Apolipoprotein(apo)A-I(Milano) (R173C) and apoA-I(Paris) (R151C) are rare cysteine variants of wild-type (WT) apoA-I that possess novel antioxidant properties on phospholipid surfaces. Yet, the two variants differ in their ability to inhibit lipid peroxidation. In this study, we used synthetic peptides (18mers) to investigate the structural basis for the difference in antioxidant activity between apoA-I(Milano) and apoA-I(Paris). A peptide (aa 167-R173C-184) based on the amphipathic alpha helix harboring the R173C mutation inhibited superoxide anion-mediated oxidation of phospholipid in a dose-dependent manner, but it failed to directly quench superoxide anions in aqueous solution, indicating that the peptide acted at the level of phospholipid to inhibit lipid peroxidation just like the full-length cysteine variant. Peptide 145-R151C-162 based on the helical segment containing R151C exhibited the same capacity as peptide 167-R173C-184 to inhibit lipid peroxidation. Thus, the difference in antioxidant activity between apoA-I(Milano) and apoA-I(Paris) was not governed by the primary amino acid sequence of their individual amphipathic alpha helices, rather contextual constraints within the full-length variants set the difference in antioxidant activity. Cysteine-free peptides were weak inhibitors of lipid peroxidation. These results suggest that thiol-bearing helical peptides based on apoA-I(Milano) may be useful to combat inflammatory related diseases.     

Phenolics as potential antioxidant therapeutic agents: mechanism and actions

Accumulating chemical, biochemical, clinical and epidemiological evidence supports the chemoprotective effects of phenolic antioxidants against oxidative stress-mediated disorders. The pharmacological actions of phenolic antioxidants stem mainly from their free radical scavenging and metal chelating properties as well as their effects on cell signaling pathways and on gene expression. The antioxidant capacities of phenolic compounds that are widely distributed in plant-based diets were assessed by the Trolox equivalent antioxidant capacity (TEAC), the ferric reducing antioxidant power (FRAP), the hypochlorite scavenging capacity, the deoxyribose method and the copper-phenanthroline-dependent DNA oxidation assays. Based on the TEAC, FRAP and hypochlorite scavenging data, the observed activity order was: procyanidin dimer > flavanol > flavonol > hydroxycinnamic acids > simple phenolic acids. Among the flavonol aglycones, the antioxidant propensities decrease in the order quercetin, myricetin and kaempferol. Gallic acid and rosmarinic acid were the most potent antioxidants among the simple phenolic and hydroxycinnamic acids, respectively. Ferulic acid displayed the highest inhibitory activity against deoxyribose degradation but no structure–activity relationship could be established for the activities of the phenolic compounds in the deoxyribose assay. The efficacies of the phenolic compounds differ depending on the mechanism of antioxidant action in the respective assay used, with procyanidin dimers and flavan-3-ols showing very potent activities in most of the systems tested. Compared to the physiologically active (glutathione, -tocopherol, ergothioneine) and synthetic (Trolox, BHA, BHT) antioxidants, these compounds exhibited much higher efficacy. Plant-derived phenolics represents good sources of natural antioxidants, however, further investigation on the molecular mechanism of action of these phytochemicals is crucial to the evaluation of their potential as prophylactic agents.     

A fluorescence method to detect and quantitate sterol esterification by lecithin:cholesterol acyltransferase

We describe a simple but sensitive fluorescence method to accurately detect the esterification activity of lecithin:cholesterol acyltransferase (LCAT). The new assay protocol employs a convenient mix, incubate, and measure scheme. This is possible by using the fluorescent sterol dehydroergosterol (DHE) in place of cholesterol as the LCAT substrate. The assay method is further enhanced by incorporation of an amphiphilic peptide in place of apolipoprotein A-I as the lipid emulsifier and LCAT activator. Specific fluorescence detection of DHE ester synthesis is achieved by employing cholesterol oxidase to selectively render unesterified DHE nonfluorescent. The assay accurately detects LCAT activity in buffer and in plasma that is depleted of apolipoprotein B lipoproteins by selective precipitation. Analysis of LCAT activity in plasmas from control subjects and sickle cell disease (SCD) patients confirms previous reports of reduced LCAT activity in SCD and demonstrates a strong correlation between plasma LCAT activity and LCAT content. The fluorescent assay combines the sensitivity of radiochemical assays with the simplicity of nonradiochemical assays to obtain accurate and robust measurement of LCAT esterification activity.     

β-Amyloid Peptides Increase the Binding and Internalization of Apolipoprotein E to Hippocampal Neurons

Abstract: The frequency of the ε4 allele of apolipoprotein E(apoE) is increased in late-onset and sporadic forms of Alzheimer's disease (AD). ApoE also binds to β-amyloid (Aβ) and both proteins are found in AD plaques. To further investigate the potential interaction of apoE and Aβ in the pathogenesis of AD, we have determined the binding, internalization, and degradation of human apoE isoforms in the presence and absence of Aβ peptides to rat primary hippocampal neurons. We demonstrate that the lipophilic Aβ peptides, in particular Aβ_1–42, Aβ_1–40, and Aβ_25–35, increase significantly apoE-liposome binding to hippocampal neurons. For each Aβ peptide, the increase was significantly greater for the apoE4 isoform than for the apoE3 isoform. The most effective of the Aβ peptides to increase apoE binding, Aβ_25–35, was further shown to increase significantly the internalization of both apoE3- and apoE4-liposomes, without affecting apoE degradation. Conversely, Aβ_1–40 uptake by hippocampal neurons was shown to be increased in the presence of apoE-liposomes, more so in the presence of the apoE4 than the apoE3 isoform. These results provide evidence that Aβ peptides interact directly with apoE lipoproteins, which may then be transported together into neuronal cells through apoE receptors.     

Apolipoprotein M associates to lipoproteins through its retained signal peptide

Apolipoprotein M (apoM) is predominantly associated with HDL. In this study, it was investigated whether apoM's uncleaved signal peptide is necessary for the protein's ability to associate with lipoproteins. ApoM with a cleavable signal peptide, Q22A, was expressed, together with wild-type apoM, in HEK293 cells. On size-exclusion chromatography, the elution profile of wild-type apoM was similar to that of human HDL-associated plasma apoM. In contrast, the size of the Q22A mutant corresponded to free, unassociated apoM. This strongly indicates that the signal peptide is indeed necessary for apoM's ability to associate with lipid.     

Synthesis of analogs of peptides from Buthus martensii scorpion venom with potential antibiotic activity

Five analogs of a natural peptide (BmKn1) found in the venom of scorpion Buthus martensii Karsh have been synthesized and tested to compare their antimicrobial and hemolytic activity with the wild type. Circular dichroism spectra show that these peptides form an alpha helix structure and its amino acid positions predict an amphipathic nature. Results show that increasing hydrophobicity by substituting successively positions 5 and 9 of the sequence (on the hydrophobic side of the helix) with alanine, valine and leucine enhances antimicrobial activity and hemolysis. When changes are done on positions 7 and 10 (on the hydrophilic side) by introducing more positive charges with addition of lysine, both activities also increase. However, when negative charges are introduced instead (with glutamic acids), antimicrobial activity is observed but hemolysis is reduced to zero under the concentrations studied. Although strong inhibitory activity begins at low concentrations (10 μg/mL), some peptides level off inhibition and no change is observed as concentrations are increased.     

Cellular antioxidant and pro-oxidant actions of nitric oxide

We describe a biphasic action of nitric oxide (NO) in its effects on oxidative killing of isolated cells: low concentrations protect against oxidative killing, while higher doses enhance killing, and these two effects occur by distinct mechanisms. While low doses of NO (from (Z)-1-[N-(3-ammonio propyl)-N-(n-propyl)-amino]-diazen-1-ium-1,2(2) diolate [PAPA/NO] or S-nitroso-N-acetyl-L-penicillamine [SNAP] prevent killing of rat hepatocytes by t-butylhydroperoxide (tBH), further increasing doses result in increased killing. Similar effects occur with rat hepatoma cells treated with PAPA/NO and tBH or H2O2. Increased killing with higher concentrations of NO donor is due to both NO and tBH, because NO donor alone is without effect. Glutathione (GSH) is not involved in either of these actions. Based on measurements of thiobarbituric acid-reactive substances (TBARS) and effects of lipid radical scavenger (DPPD) and deferoxamine, the protective effect, but not the enhancing effect, involves peroxidative chemistry. Fructose has no effect on tBH killing alone but provides substantial protection against killing by higher concentrations of NO plus tBH, suggesting that the enhancing effect involves mitochondrial dysfunction. Hepatocytes, when stimulated to produce NO endogenously, become resistant to tBH killing, indicative of the presence of an NO-triggered antioxidant defensive mechanism. The finding that the protective effects of low concentrations of NO and the harmful effects of high concentrations of NO are fundamentally different in nature suggest that therapeutic interventions could be designed, which selectively prevent its pro-oxidant activity at high concentrations, thus converting NO from a "Janus-faced" modulator of oxidant injury into a "pure" protectant.     

肥胖患者载脂蛋白M水平及其与炎症因子的关系研究

目的：观察肥胖患者载脂蛋白M水平并探讨其与炎症因子的关系。方法：58例体重正常者和36例肥胖患者常规测量体重、身高,计算体重指数,抽取空腹静脉血检测血脂、血浆载脂蛋白M（apoM）、白细胞介素-6（IL-6）、C反应蛋白（CRP）、肿瘤坏死因子α（TNF—α）。结果：肥胖患者血浆apoM、高密度脂蛋白胆固醇（HDL-C）降低（P〈0．05）,IL-6、TNF—α、CRP水平升高（P〈0．05）,肥胖患者血浆αpoM与HDL-C正相关,血浆αpoM与IL-6、TNF—α、CRP水平负相关。结论：肥胖患者血浆apoM显著降低,αpoM水平与CRP、TNF-α、IL-6水平密切相关,apoM可能受到这些炎症因子的调控。     

Molecular Determinants of the Interaction Between the C-Terminal Domain of Alzheimer's β-Amyloid Peptide and Apolipoprotein E α-Helices

In a previous work, we predicted and demonstrated that the 29-42-residue fragment of beta-amyloid peptide (Abeta peptide) has in vitro capacities close to those of the tilted fragment of viral fusion proteins. We further demonstrated that apolipoprotein E2 and E3 but not apolipoprotein E4 can decrease the fusogenic activity of Abeta(29-42) via a direct interaction. Therefore, we suggested that this fragment is implicated in the neurotoxicity of Abeta and in the protective effects of apolipoprotein E in Alzheimer's disease. Because structurally related apolipoproteins do not interact with the Abeta C-terminal domain but inhibit viral fusion, we suggested that interactions existing between fusogenic peptides and apolipoproteins are selective and responsible for the inhibition of fusion. In this study, we simulated interactions of all amphipathic helices of apolipoproteins E and A-I with Abeta and simian immunodeficiency virus (SIV) fusogenic fragments by molecular modeling. We further calculated cross-interactions that do not inhibit fusion in vitro. The results suggest that interactions of hydrophobic residues are the major event to inhibit the fusogenic capacities of Abeta(29-42) and SIV peptides. Selectivity of those interactions is due to the steric complementarity between bulky hydrophobic residues in the fusogenic fragments and hydrophobic residues in the apolipoprotein C-terminal amphipathic helices.