Proteomic tools against the neglected pathology of snake bite envenoming

This article covers the application of proteomic tools (‘venomics’, ‘antivenomics’ and ‘venom phenotyping’) to study the composition and natural history of snake venoms, and the cross-reactivity of antivenoms with homologous and heterologous venoms, to help address the neglected pathology of snake bite envenoming. The identification of evolutionary and immunological trends may help to replace the traditional geographic- and phylogenetic-driven hypotheses for antivenom production strategies with a more rational approach based on proteome phenotype and immunological profile similarities. Antivenomics and venom phenotyping may also contribute to expand the clinical range of currently existing antidotes.     

Snake venom proteins in hemostasis: new results

Biological features of venomous snakes as well as biochemical properties and actions of their venoms which serve for prey acquisition, indicate the vertebrates' haemostasis system as a vulnerable target for snake venom actions. Components exerting a specific, either stimulating or inactivating effect on basal membrane or endothelial cells of the vascular wall, on platelets, on almost every step of plasma coagulation or fibrinolysis respectively, have been isolated and purified from snake venoms. Snake venom proteins acting with a defined specificity on cellular or plasmatic components of the human haemostatic system are being used in coagulation and aggregation tests, in photometric assays in conjunction with chromogenic substrates as well as in immunological systems as biochemical tools for research and diagnostic purposes.     

Immunodiagnosis of Snake Bite

Management of a patient with snake bite is influenced by the nature of the offending snake. Species diagnosis based on the patient''s history and physical signs is often unreliable and the possibility of making a species diagnosis by immunological means has therefore been investigated. Wound aspirates, blister fluids, sera, and urine samples from patients with snake bite were examined for the presence of species-specific venoms using immunodiffusion. A positive species diagnosis was made in 40 out of 101 patients. Immunodiagnosis was especially successful in patients bitten by the puff adder, Bitis arietans, and the African spitting cobra, Naja nigricollis. A higher success rate could probably be achieved using more specific antisera and more sensitive assay techniques.     

酶标抗原火箭免疫电泳法及其在蛇毒抗原成分含量测定中的应用

为解决目前蛇毒成份检测困难以及寻找一种可用于蛇伤快速鉴别诊断的方法,本研究建立了酶标抗原火箭免疫电泳法。本法结合了酶标法灵敏度高和火箭电泳操作简单的特点,对待测的同种抗原标记辣根过氧化物酶(酶标抗原),检测时把微量的酶标记抗原掺入被测样品中,在含多价抗血清的免疫电泳板进行电泳。最后用辣根过氧化物底物3.3′-二氨基联苯胺在板上直接显色,显色后观察到的免疫沉淀线高度与被测抗原含量呈正相关(r=+0.98)。采用本方法检测眼镜蛇毒细胞毒素和限镜王蛇毒 L-氨基酶氧化酶,细胞毒素的最低检测浓度为110ng/ml,氨基酸氧化酶为60ng/ml。比单向火箭免疫电泳法灵敏度高30倍。用同一原理的酶标记抗原融合电泳法监测L-氨基酸氧化酶的层析分离时,比酶活性法检测灵敏度高20倍。全部检测只需30分钟。初步观察商品眼镜蛇毒抗血清可对蛇毒15种成分产生免疫沉淀线,眼镜蛇的细胞毒与同科异科蛇毒的细胞毒素无交叉免疫反应。因此,采用本法可以确定不同蛇种蛇毒中所含的特异性抗原,获得蛇伤鉴别诊断的依据。     

Snake venomics: comparative analysis of the venom proteomes of the Tunisian snakes Cerastes cerastes, Cerastes vipera and Macrovipera lebetina

The protein composition of the crude venoms of the three most important vipers of Tunisia was analyzed by RP-HPLC, N-terminal sequence analysis, MALDI-TOF mass determination, and in-gel tryptic digestion followed by PMF and CID-MS/MS of selected peptide ions in a quadrupole-linear IT instrument. Our results show that the venom proteomes of Cerastes cerastes, Cerastes vipera, and Macrovipera lebetina are composed of proteins belonging to a few protein families. However, each venom showed distinct degree of protein composition complexity. The three venoms shared a number of protein classes though the relative occurrence of these toxins was different in each snake species. On the other hand, the venoms of the Cerastes species and Macrovipera lebetina each contained unique components. The comparative proteomic analysis of Tunisian snake venoms provides a comprehensible catalogue of secreted proteins, which may contribute to a deeper understanding of the biological effects of the venoms, and may also serve as a starting point for studying structure-function correlations of individual toxins.     

The pharmacological role of nucleotidases in snake venoms

Several hydrolytic enzymes of snake venom have evolved to interfere in various physiological processes, which are well defined. However, hydrolytic enzymes such as nucleotidases (5′nucleotidase, ATPase, and ADPase) are less studied and their pharmacological role in venoms is not clearly defined. Very few studies have shown the pharmacological importance of these endogenous purine release related enzymes in venoms. The near‐ubiquitous distribution of these enzymes in venoms, suggests a significant role for these enzymes in envenomation. It is suggested that their major function is in the generation of purines (mainly adenosine)—a multitoxin. Therefore, it appears that these enzymes play a central role in liberating adenosine and through the action of adenosine help in prey immobilization. However, apart from this, these enzymes could also possess other pharmacological activities. Further research is needed to biologically characterize these enzymes in snake venoms, such that their role in venom is clearly established. Copyright © 2010 John Wiley & Sons, Ltd.     

蛇毒的核磁共振氢谱研究

本文对不同产地的蝮蛇毒和眼镜蛇毒、五步蛇毒等十六个冻干样品,进行了核磁共振氢谱测试.列出了具有代表性的的氢谱图。从谱图中可看出:每种种属蛇毒均有其特征的核磁共振氢谱,此法在准分子水平上是鉴定蛇毒的一种有效而可靠的方法.     

Nucleotidase and DNase activities in Brazilian snake venoms

Among the myriad of enzymes present in animal venoms, nucleotidases and nucleases are poorly investigated. Herein, we studied such enzymes in 28 crude venoms of animals found in Brazil. Higher levels of ATPase, 5'-nucleotidase, ADPase, phosphodiesterase and DNase activities were observed in snake venoms belonging to Bothrops, Crotalus and Lachesis genera than to Micrurus genus. The venom of Bothrops brazili snake showed the highest nucleotidase and DNase activities, whereas that of Micrurus frontalis snake the highest alkaline phosphatase activity. On the other hand, the venoms of the snake Philodryas olfersii and the spider Loxosceles gaucho were devoid of most nucleotidase and DNase activities. Species that exhibited similar nucleotidase activities by colorimetric assays showed different banding pattern by zymography, suggesting the occurrence of structural differences among them. Hydrolysis of nucleotides showed that 1 mol of ATP is cleaved in 1 mol of pyrophosphate and 1 mol of orthophosphate, whereas 1 mol of ADP is cleaved exclusively in 2 mol of orthophosphates. Pyrophosphate is barely hydrolyzed by snake venoms. Phosphodiesterase activity was better correlated with 5'-nucleotidase, ADPase and ATPase activities than with DNase activity, evidencing that phosphodiesterases are not the main agent of DNA hydrolysis in animal venoms. The omnipresence of nucleotidase and DNase activities in viperid venoms implies a role for them within the repertoire of enzymes involved in immobilization and death of preys.     

Identification and phylogeny of Arabian snakes: Comparison of venom chromatographic profiles versus 16S rRNA gene sequences

Identification of snake species is important for various reasons including the emergency treatment of snake bite victims. We present a simple method for identification of six snake species using the gel filtration chromatographic profiles of their venoms. The venoms of Echis coloratus, Echis pyramidum, Cerastes gasperettii, Bitis arietans, Naja arabica, and Walterinnesia aegyptia were milked, lyophilized, diluted and centrifuged to separate the mucus from the venom. The clear supernatants were filtered and chromatographed on fast protein liquid chromatography (FPLC). We obtained the 16S rRNA gene sequences of the above species and performed phylogenetic analysis using the neighbor-joining method. The chromatograms of venoms from different snake species showed peculiar patterns based on the number and location of peaks. The dendrograms generated from similarity matrix based on the presence/absence of particular chromatographic peaks clearly differentiated Elapids from Viperids. Molecular cladistics using 16S rRNA gene sequences resulted in jumping clades while separating the members of these two families. These findings suggest that chromatographic profiles of snake venoms may provide a simple and reproducible chemical fingerprinting method for quick identification of snake species. However, the validation of this methodology requires further studies on large number of specimens from within and across species.     

Antibacterial activity of snake, scorpion and bee venoms: a comparison with purified venom phospholipase A2 enzymes

AIMS: Venoms of snakes, scorpions, bees and purified venom phospholipase A(2) (PLA(2)) enzymes were examined to evaluate the antibacterial activity of purified venom enzymes as compared with that of the crude venoms. METHODS AND RESULTS: Thirty-four crude venoms, nine purified PLA(2)s and two L-amino acid oxidases (LAAO) were studied for antibacterial activity by disc-diffusion assay (100 microg ml(-1)). Several snake venoms (Daboia russelli russelli, Crotalus adamanteus, Naja sumatrana, Pseudechis guttata, Agkistrodon halys, Acanthophis praelongus and Daboia russelli siamensis) showed activity against two to four different pathogenic bacteria. Daboia russelli russelli and Pseudechis australis venoms exhibited the most potent activity against Staphylococcus aureus, while the rest showed only a moderate activity against one or more bacteria. The order of susceptibility of the bacteria against viperidae venoms was -S. aureus > Proteus mirabilis > Proteus vulgaris > Enterobacter aerogenes > Pseudomonas aeruginosa and Escherichia coli. The minimum inhibitory concentrations (MIC) against S. aureus was studied by dilution method (160-1.25 microg ml(-1)). A stronger effect was noted with the viperidae venoms (20 microg ml(-11)) as compared with elapidae venoms (40 microg ml(-1)). The MIC were comparable with those of the standard drugs (chloramphenicol, streptomycin and penicillin). CONCLUSION: The present findings indicate that viperidae (D. russelli russelli) and elapidae (P. australis) venoms have significant antibacterial effects against gram (+) and gram (-) bacteria, which may be the result of the primary antibacterial components of laao, and in particular, the PLA(2) enzymes. The results would be useful for further purification and characterization of antibacterial agents from snake venoms. SIGNIFICANCE AND IMPACT OF THE STUDY: The activity of LAAO and PLA(2) enzymes may be associated with the antibacterial activity of snake venoms.     

A comparative study of the biological properties of some sea snake venoms.

1. The protease, phosphodiesterase, alkaline phosphomonoesterase, L-amino acid oxidase, acetylcholinesterase, phospholipase A, 5'-nucleotidase, hyaluronidase, arginine ester hydrolase, procoagulant, anticoagulant and hemorrhagic activities of ten samples of venoms from seven taxa of sea snakes were examined. 2. The results show that venoms of sea snakes of both subfamilies of Hydrophiinae and Laticaudinae are characterized by a very low level of enzymatic activities, except phospholipase A activity and, for some species, hyaluronidase activity. 3. Because of the low levels of enzymatic activities and the total lack of procoagulant and hemorrhagic activities, venom biological properties are not useful for the differentiation of species of sea snakes. Nevertheless, the unusually low levels of enzymatic activities of sea snake venoms may be used to distinguish sea snake venoms from other elapid or viperid venoms.     

用尖吻蝮蛇毒、蝗蛇毒及抗蛇毒血清处理小鼠S_(180)、EAC腹水癌的初步观察

本文报道了尖吻蝮蛇毒、蝮蛇毒及抗蛇毒血清能使接种S_(180)、EAC腹水癌的小鼠明显延长存活时间、降低接种率,但不能完全阻止痛细胞生长。体外具有较明显的导致,菡细胞肿胀、膜破裂,核纤维化,坏死等。从腹水酶活力测定及抗血清初步研究结果表明,癌细胞病变中产生的某些抗原物质可能与蛇毒中的酶和毒蛋白相近。因此注射蛇毒后可在体内产生相关抗体,中和癌细胞产生的毒素以达到治疗目的。     

Evidence for existence of venom 5' nucleotidase in multiple forms through inhibition of concanavalin A

Pharmacologically active 5' nucleotidase is a ubiquitously distributed enzyme in snake venoms. In this study the effect of concanavalin A (Con-A) on different snake venoms 5' nucleotidase activity is tested in order to know the protein nature which will ultimately help in purification of the enzyme with high yield. Con-A inhibited Naja naja, Naja kauthia, Naja melanoleuca, Naja naja sputatrix, Agistrodon halys blomhoffii, Bothrops asper and Oxyranus scutellas venom 5' nucleotidase activity at different concentrations. This indicates the presence of glycopart in the protein, thus glycoprotein in nature. Vipera russellii, Vipera plaestenae, Agistrodon contratrix, Bitis orientis, Echis carinatus and Trimeresures malabaricus was not inhibited by Con-A, indicating absence of glycopart in the protein. This study for the first time shows existence of 5' nucleotidase in multimeric forms.     

Comparative study of the edema-forming activity of Costa Rican snake venoms and its neutralization by a polyvalent antivenom

The edema-forming activity of eight Costa Rican crotaline snake venoms and its neutralization by a polyvalent antivenom were studied using the mouse footpad test. All of the venoms induced edema, the highest activity being present in the venoms of Bothrops lateralis and Bothrops picadoi. When experiments were performed with preincubation of venom and antivenom, neutralization of edema was poor. Moreover, it was observed that, with some venoms, edema increased when large doses of antivenom were used. This effect was also observed when some venoms were incubated with coral snake antivenom, suggesting that venoms may release some pharmacologically active component(s) from antivenom, since the latter contains traces of alpha-2 and beta globulins. Based on these findings, an alternative approach to the study of the neutralization of edema was used; in this new method, antivenom was injected i.v. before venom administration, thereby avoiding preincubation. With this technique, a much better neutralization of edema was observed, although with some venoms it was still poor. Venoms contain low molecular weight factors which induce edema, suggesting that lack of immunogenicity of some components may cause a poor neutralization. However, such components are responsible for only a minor portion of the edema induced by crude venoms. It is suggested that experiments in which venom and antivenom are preincubated preincubated in testing the neutralization of edema should be avoided, and that a more adequate approach may be an independent inoculation of venom and antivenom.     

Electrophoretic analysis of snake venoms

Electrophoretic analyses were conducted on snake venoms from 21 species representing Elapidae, Crotalidae and Viperidae. Denatured and native venoms were analyzed by polyacrylamide gel electrophoretic (PAGE) methods with sodium dodecyl sulfate (SDS) and without SDS. Both SDS-PAGE and PAGE profiles of venoms from different snake species indicate that some proteins and polypeptide components of these venoms have common electrophoretic characteristics suggesting a genetic relationship. Conversely, the electropherograms also showed the characteristic protein and polypeptide profiles that could differentiate one snake species from another. Therefore, both SDS-PAGE and PAGE profiles suggest that proteins and polypeptides with similar characteristics abound among subspecies or related species, although each venom has a unique profile that differentiates one species from the other.     

Proof of concept: could snake venoms be a potential source of bioactive compounds for control of mould growth and mycotoxin production

The objective was to screen 10 snake venoms for their efficacy to control growth and mycotoxin production by important mycotoxigenic fungi including Aspergillus flavus, Aspergillus westerdijkiae, Penicillium verrucosum, Fusarium graminearum and F. langsethiae. The Bioscreen C rapid assay system was used. The venoms from the Viperidae snake family delayed growth of some of the test fungi, especially F. graminearum and F. langsethiae and sometimes A. flavus. Some were also able to reduce mycotoxin production. The two most potent crude snake venoms (Naja nigricollis and N. siamensis; 41 and 43 fractions, respectively) were further fractionated and 83/84 of these fractions were able to reduce mycotoxin production by >90% in two of the mycotoxigenic fungi examined. This study suggests that there may be significant potential for the identification of novel fungistatic/fungicidal bioactive compounds as preservatives of raw and processed food commodities post-harvest from such snake venoms.     

Inhibition of Sendai virus by various snake venom.

Viperid, elapid and crotalid snake venoms were screened in vitro for antiviral activity against Sendai virus. The hemolysis of 10(8) human erythrocytes in 1 ml, caused by 70 HAU of Sendai virus, was abolished when the virions were pretreated with 10 ug of the viperid venom of Echis coloratus, and was considerably diminished when pretreated with 10 ug of the venom of Echis carinatus sochureki, the cobra venoms of Naja atra and Naja nigricollis nigricollis. These venoms did not affect the erythrocytes but inhibited the virions themselves irreversibly. All other examined snake venoms had low or no antiviral activity. There was no correlation between the proteolytic and the antiviral activity of the venoms.     

Proteins toxic to arthropods in the venom of elapid snakes.

It has been found that the lethal action of elapid snake venoms to arthropods (fly larvae and isopods) is due to proteic factors differing from the toxins which are strongly and specifically active on mammals.This conclusion was based on the following: (1) Lack of any correlation between the toxic activity on larvae, isopods, and mice of ten elapid snake venoms. (2) Absence of any toxicity to arthropods in pure toxins isolated and purified from several elapid snake venoms according to their lethality. (3) Electrophoretical separation of the venom of the snake Naja mossambica mossambica (= N. nigricollis mossambica) resulted in fractions active either to arthropods and/or to mice. (4) Separation of the above venom by gel filtration on Sephadex G-50 enabled the isolation of fractions highly toxic to arthropods. (5) The above fractions demonstrated a high phospholipase activity corresponding to about 80 per cent of the total activity of the whole venom. The link between phospholipase and toxicity to arthropods will serve as a target for further investigation.It appears that the phenomenon of diversity in toxic activities of different proteins to different groups of organism, as previously demonstrated in scorpion venoms, is equally shared by elapid snake venoms.