Amino acid sequence of orientotoxins I and II from the venom of the hornet Vespa orientalis

Orientotoxin I, a neurotoxin of presynaptic effect having a lysophospholipase activity, and orientotoxin II, a highly toxic phospholipase A2, were isolated from the hornet Vespa orientalis venom, and their primary structures were determined. Despite their different functional activity, orientotoxin I and II proved to be structural homologues, differing significantly in the amino acid sequence from well-known toxic phospholipase from other sources.     

Fluorescence proper of phospholipase A2 and orientotoxin from the venom of the giant hornet in the presence of ionic modulators of their membrane activity

The own fluorescence of phospholipase A2 and orientotoxin at interaction of these components from Oriental hornet venom with calcium, strontium, lantan, magnesium ions has been investigated. Ca2+, La3+, Sr2+--activators of phospholipase activity--increase the quantum output of fluorescence. In the presence of Ca2+ the temperature of semitransitional process of thermoinactivation of investigated polypeptides increases by 2 degrees C.     

Hemolytic assay for venom phospholipase A2

A rapid and sensitive spectrophotometric assay for venom phospholipase A₂ based on the hemolysis of guinea pig erythrocytes in the presence of decomplemented serum and cardiotoxin (direct lytic factor) is described. This assay is particularly useful for rapid multisample analyses, such as those used in monitoring chromatography fractions, and is specific for phospholipase A₂ in she presence of other potentially hemolytic venom components. The hemolytic mechanism is shown to be a combination of the action of lysophospholipids liberated from lipoproteins in the serum and the synergistic action of phospholipase A₂ and cardiotoxin on the erythrocyte membrane.     

Properties of phospholipase A2 from the venom of the large hornet Vespa orientalis

Some properties (catalytic and hemolytic activity, pH and temperature optima, stability, substrate specificity, effects of detergents and metal ions, N-terminal sequence, chemical modification of histidine in the enzyme active center, etc.) of phospholipase A2 from hornet (Vespa orientalis) venom were studied. It was shown that phospholipase A2 from hornet venom differs essentially from other enzymes of this species in terms of stability, catalytic properties and structural features. The active center of the enzyme contains an essential histidine residue, similar to other phospholipases A2 from various sources. Unlike other known forms of phospholipase A2, the enzyme under study exerts a pronounced hemolytic action. The hemolysis is inhibited by Ca2+ at concentrations capable of inducing the activation of the hydrolytic activity of the enzyme.     

Effect of a "direct" hemolytic factor and phospholipse A2 from Middle-Asian cobra venom on erythrocytes]

The effect of "direct" hemolytic factor (DHF) and phospholipase A2, isolated and purifed from Middle-Asian cobra venom on human erythrocytes is studied. DHF is found to increase the hemolytic effect of phospholipase A2 Ca2+ ions inhibit the hemolytic effect of DHF, but they increase the hemolysis in the presence of DHF and phospholipse A2. Heparin re moves the increasing effect of DHF. Possible mechanisms of the hemolytic effect of DHF and phospholipase A2 are discussed.     

Functional interaction between Cerebratulus lacteus cytolysin A-III and phospholipase A2. Implications for the mechanism of cytolysis

A study on the interaction between bee venom phospholipase A2 and Cerebratulus lacteus cytolysin A-III, a major hemolysin secreted by this organism has been carried out. The hemolytic activity of A-III in phosphate-buffered saline is increased 5-fold in the presence of phospholipase A2 from bee venom. Dansylphosphatidylethanolamine (DPE) labeled, phosphatidylcholine-containing liposomes and human erythrocyte membranes were employed to study the interaction between these two proteins. In DPE-liposomes, A-III alone had no effect on DPE fluorescence nor did it enhance either the phospholipase A2-dependent fluorescence increase or blue shift in emission maximum, indicating that the cytolysin is not a major phospholipase A2-activator. However, when DPE was incorporated into erythrocyte membranes, A-III alone induced a 40% fluorescence increase and a 5 nm blue shift, implying a transient activation of an endogenous phospholipase A2. Further studies using synthetic lysophosphatidylcholine and free fatty acids demonstrated that the hemolytic activity of A-III is potentiated by free fatty acids, a product of phospholipid degradation catalyzed by phospholipase A2. Together, sublytic concentrations of A-III and nonlytic concentrations of oleic acid cause extensive cell lysis. Subsequent analysis of this phenomenon by gel filtration chromatography, analytical ultracentrifugation, chemical cross-linking, and measurement of [14C]oleic acid binding by the cytolysin demonstrated that binding of oleic acid to A-III causes aggregation of the toxin molecules to a tetrameric form which has a higher alpha-helix content and a greater activity than the monomer.     

Analysis of Vipera russelli venom using polyclonal antibodies prepared against its purified toxic phospholipase A2 VRV PL-V.

Vipera russelli venom induces predominantly neurotoxic, myotoxic necrotic and hemorrhagic symptoms in experimental animals and has several hydrolytic enzyme activities. In this study, V. russelli venom is characterized both as a PLA2 and as a toxin. Anti PL-V Ig (antibodies to a toxic phospholipase A2 VRV PL-V of V. russelli venom) nullifies the toxicity of whole V. russelli venom to a great extent. The neurotoxic symptoms vanish completely in the presence of anti PL-V Ig. The cross reacting components of whole V. russelli venom were removed by precipitating them from whole venom by the addition of anti PL-V Ig. The non-cross reacting components present in the supernatant were checked for toxicity. There was a significant reduction in toxicity. The LD50 value of the supernatant had increased from 4.1 mg/kg body weight to 11.7 mg/kg body weight and it showed about 34% of the total venom phospholipase A2 activity. It had edema forming, hemorrhagic and hemolytic activity but failed to induce neurotoxic, anticoagulant and myotoxic effects.     

Red blood cell lysis induced by the venom of the brown recluse spider: the role of sphingomyelinase D.

Red blood cell lysis induced by the venom of Loxosceles reclusa, the brown recluse spider, may be related to the hemolytic anemia observed in several cases of spider envenomation. These investigations demonstrate that the venom of the brown recluse spider contains a calcium-dependent, heat-labile hemolysin of molecular weight approximately 19,000. The pH optimum for the hemolytic reaction was 7.1, and the optimum calcium concentration for venom-induced lysis was observed within the range of 6 to 10 mm. Sheep red blood cells were more susceptible to the spider hemolysin than human red blood cells, although both types exhibited appreciable lysis. Digestion of sheep red blood cell membranes with partially purified venom lysin resulted in degradation of the sphingomyelin component. However, reaction of the membranes with the venom lysin produced no release of water-soluble phosphate, and no free fatty acids were generated. These results indicate that the sphingomyelin-degrading activity of the venom is not a phospholipase C- or a phospholipase A₂-type activity. Sphingomyelin was employed as substrate for the venom hemolysin, and the organic and aqueous fractions of the reaction mixtures were analyzed by thin-layer chromatography. Analysis of the organic fraction revealed a phosphate-containing product with the solubility and chromatographic characteristics of N-acylsphingosine phosphate (ceramide phosphate), and analysis of the aqueous fraction demonstrated the presence of choline. The isolation and identification of these products indicate that the sphingomyelin of the red cell membrane is hydrolyzed by a sphingomyelinase D-type activity expressed by the partially purified venom hemolysin. A close correspondence between the hemolytic and sphingomyelinase D activities was observed when the partially purified hemolysin was further characterized in polyacrylamide gel electrophoresis at pH 8.3 and pH 4.9. The hemolytic and sphingomyelinase activities were coincident within the electrophoretic pattern at both pHs. The results presented demonstrate conclusively a direct lytic action of brown recluse venom upon red blood cells and report for the first time the presence of sphingomyelinase D in spider venom.     

Biphasic effect on platelet aggregation by phospholipase a purified from Vipera russellii snake venom

A basic phospholipase A was isolated from Vipera russellii snake venom. It induced a biphasic effect on washed rabbit platelets suspended in Tyrode's solution. The first phase was a reversible aggregation which was dependent on stirring and extracellular calcium. The second phase was an inhibitory effect on platelet aggregation, occurring 5 min after the addition of the venom phospholipase A without stirring or after a recovery from the reversible aggregation. The aggregating phase could be inhibited by indomethacin, tetracaine, papaverine, creatine phosphate/creatine phosphokinase, mepacrine, verapamil, sodium nitroprusside, prostaglandin E1 or bovine serum albumin. The venom phospholipase A released free fatty acids from synthetic phosphatidylcholine and intact platelets. p-Bromophenacyl bromide-modified venom phospholipase A lost its phospholipase A enzymatic and platelet-aggregating activities, but protected platelets from the aggregation induced by the native enzyme. The second phase of the venom phospholipase A action showed a different degree of inhibition on platelet aggregation induced by some activators in following order: arachidonic acid greater than collagen greater than thrombin greater than ionophore A23187. The longer the incubation time or the higher the concentration of the venom phospholipase A, the more pronounced was the inhibitory effect. The venom phospholipase A did not affect the thrombin-induced release reaction which was caused by intracellular Ca2+ mobilization in the presence of EDTA, but inhibited collagen-induced release reaction which was caused by Ca2+ influx from extracellular medium. The inhibitory effect of the venom phospholipase A and also lysophosphatidylcholine or arachidonic acid could be antagonized or reversed by bovine serum albumin. It was concluded that the first stimulatory phase of the venom phospholipase A action might be due to arachidonate liberation from platelet membrane. The second phase of inhibition of platelet aggregation and the release of ATP might be due to the inhibitory action of the split products produced by this venom phospholipase A.     

日本蝮蛇蛇毒碱性磷脂酶A2同源物的分离及鉴定

We purified and characterizated a phospholipase A2 homologue from Agkistrodon blomhoffii ussurensis snake venom. We used Hitrap SP cation exchange and Superdex 75 columns chromatography to obtain a basic protein, used SDS-PAGE to analyse molecular mass, and IEF (Isoelectric focusing electrophoresis) IEF to identify isoelectric point. The molecular mass was 16 kDa, and the isoelectric point was 8.56. We detected its phospholipase A2 activity on egg yolk phospholipids, hemolytic activity on washed erythrocytes, and anticoagulant effect on pig platelet-rich plasma, as well as the N-terminal sequence with protein sequencer. The results showed that it had no phospholipase A2 activity and hemolytic activity, but had obvious anticoagulant effect on in witro. The N terminal sequence (21 amino acid residues) compared with other phospholipases A2 demonstrated that the protein was homogenous with BPLA2s from Agkistrodon halys Palls.     

Two new phospholipase D isoforms of Loxosceles laeta: cloning, heterologous expression, functional characterization, and potential biotechnological application

Toxin phospholipases-D present in the venom of Loxosceles spiders is the principal responsible for local and systemic effects observed in the loxoscelism. In this study, we describe the cloning, expression, functional evaluation, and potential biotechnological application of cDNAs, which code for two new phospholipase D isoforms, LIPLD1 and LIPLD2, of the spider Loxosceles laeta. The recombinant protein rLIPLD1 had hydrolytic activity on sphingomyelin and in vitro hemolytic activity on human red blood cells, whereas rLIPLD2 was inactive. The purified recombinant proteins and the venom are recognized by polyclonal anti-rLIPLD1 and rLIPLD2 sera produced in animals and conferred immunoprotection against the venom. These new isoforms reinforce the importance of the multigene family of phospholipases-D present in Loxosceles spiders. A highly immunogenic inactive isoform such as rLIPLD2 raises important expectation for its use as a potential immunogenic inducer of the immunoprotective response to the toxic action of the venom of Loxosceles laeta.     

Possible involvement of red cell membrane proteins in the hemolytic action of Portuguese Man-of-War toxin.

Glycophorin and the fragments isolated from trypsinizing intact rat, dog, sheep and human red blood cells (rbc's) neutralize the hemolytic action of the Portuguese Man-of-War venom. This action can be blocked by rabbit antisheep hemolysin and phytohemagglutinin, a lectin which preferentially binds to glycophorin. Concanavalin A, which binds to band-3 protein of rbc membranes, does not block the neutralizing action of rbc tryptic fragments or glycophorin. The concentrations of rat, dog, human and sheep glycophorin which half neutralize venom induced hemolysis are inversely and linearly proportional to the hemolytic sensitivities of these rbc's to the venom. These data implicate glycophorin as a possible binding site for the hemolytic component of the Portuguese Man-of-War venom.     

Kinetics of erythrocyte lysis by snake venom cardiotoxins

Hemolysis of guinea pig erythrocytes by snake venom cardiotoxins was investigated with a semi-automatic method based on light-scattering changes of erythrocyte suspensions at 700 nm which are directly related to hemoglobin release. Small amounts of phospholipase-free cardiotoxin (<100 μg) could be conveniently and rapidly assayed with the high reproducibility in a recording spectrophotometer, and reliable kinetic data were accumulated.Cardiotoxins from two different genera (Hemachatus haemachates and Naja mossambica mossambica) displayed virtually identical hemolytic properties. Hemolysis increased linearly with time, in contrast with a sigmoidal pattern when phospholipase was present as an impurity. Low concentrations of Ca²⁺ (<1 mM) stimulated cardiotoxin action. A limiting plateau rate of hemolysis reached during concentration dependence experiments in which the level of either cardiotoxin or of erythrocytes was varied, suggested that the interaction of cardiotoxin with erythrocyte membranes is a saturation phenomenon only at a high ratio of cardiotoxin: erythrocytes. No hemolysis was observed with an homologous neurotoxin of S-methylated cardiotoxin, providing evidence for specificity. The linear Arrhenius plots obtained for the temperature dependence of cardiotoxin-induced hemolysis strengthened the conclusion that its action involves more than a detergent-like effect on membrane phospholipids.     

Biphasic effect on platelet aggregation by phospholipase a purified from Vipera russellii snake venom

A basic phospholipase A was isolated from Vipera russellii snake venom. It induced a biphasic effect on washed rabbit platelets suspended in Tyrode's solution. The first phase was a reversible aggregation which was dependent on stirring and extracellular calcium. The second phase was an inhibitory effect on platelet aggregation, occurring 5 min after the addition of the venom phospholipase A without stirring or after a recovery from the reversible aggregation. The aggregating phase could be inhibited by indomethacin, tetracaine, papaverine, creatine phosphate/creatine phosphokinase, mepacrine, verapamil, sodium nitroprusside, prostaglandin E₁ or bovine serum albumin. The venom phospholipase A released free fatty acids from synthetic phosphatidylcholine and intact platelets. $\text{p-}\text{Bromophenacyl}$ bromide-modified venom phospholipase A lost its phospholipase A enzymatic and platelet-aggregating activities, but protected platelets from the aggregation induced by the native enzyme. The second phase of the venom phospholipase A action showed a different degree of inhibition on platelet aggregation induced by some activators in following order: $\text{arachidonic acid}\text{>}\text{collagen}\text{>}\text{thrombin}\text{>}\text{ionophore A}\text{23187}$. The longer the incubation time or the higher the concentration of the venom phospholipase A, the more pronounced was the inhibitory effect. The venom phospholipase A did not affect the thrombin-induced release reaction which was caused by intracellular Ca²⁺ mobilization in the presence of EDTA, but inhibited collagen-induced release reaction which was caused by Ca²⁺ influx from extracellular medium. The inhibitory effect of the venom phospholipase A and also lysophosphatidylcholine or arachidonic acid could be antagonized or reversed by bovine serum albumin. It was concluded that the first stimulatory phase of the venom phospholipase A action might be due to arachidonate liberation from platelet membrane. The second phase of inhibition of platelet aggregation and the release of ATP might be due to the inhibitory action of the split products produced by this venom phospholipase A.     

Neuromuscular action of venom from the South American colubrid snake Philodryas patagoniensis

Snakes of the opisthoglyphous genus Philodryas are widespread in South America and cause most bites by colubrids in this region. In this study, we examined the neurotoxic and myotoxic effects of venom from Philodryas patagoniensis in biventer cervicis and phrenic nerve-diaphragm preparations and we compared the biochemical activities of venoms from P. patagoniensis and Philodryas olfersii. Philodryas patagoniensis venom (40 microg/mL) had no effect on mouse phrenic nerve-diaphragm preparations but caused time-dependent neuromuscular blockade of chick biventer cervicis preparations. This blockade was not reversed by washing. The highest concentration of venom tested (40 microg/mL) significantly reduced (p<0.05) the contractures to exogenous acetylcholine (55 microM and 110 microM) and K(+) (13.4 mM) after 120 min; lower concentrations of venom had no consistent or significant effect on these responses. Venom caused a concentration- and time-dependent release of creatine kinase (CK) from biventer cervicis preparations. Histological analysis showed contracted muscle fibers at low venom concentrations and myonecrosis at high concentrations. Philodryas venoms had low esterase and phospholipase A(2) but high proteolytic activities compared to the pitviper Bothrops jararaca. SDS-PAGE showed that the Philodryas venoms had similar electrophoretic profiles, with most proteins having a molecular mass of 25-80 kDa. Both of the Philodryas venoms cross-reacted with bothropic antivenom in ELISA, indicating the presence of proteins immunologically related to Bothrops venoms. RP-HPLC of P. patagoniensis venom yielded four major peaks, each of which contained several proteins, as shown by SDS-PAGE. These results indicate that P. patagoniensis venom has neurotoxic and myotoxic components that may contribute to the effects of envenoming by this species.     

Effect of purified phospholipases on glucose transport, insulin binding, and insulin action in isolated rat adipocytes

The influence of alterations in phospholipid structure by phospholipase treatment on insulin action and glucose transport in rat adipocytes was studied. It appeared that phospholipase A2 from bee venom caused a breakdown of approximately 50% of phosphotidylcholine without lysis of the cells. Because of this treatment, insulin binding was increased, resulting in an increased sensitivity of glucose transport towards lower insulin concentrations. Moreover, an increased affinity of the transport system for 2-deoxyglucose was observed. Phospholipase C from Clostridium welchii caused complete lysis of adipocytes. Phospholipase A2 from Crotalus adamenteus was without effect.     

Studies on phospholipase A in Trimeresurus flaoviridis venom. III. Purification and some properties of phospholipase A inhibitor in Habu serum.

Phospholipase A [EC 3.1.1.4] inhibitor was purified from Habu (Trimeresurus flavivurudls) serum by gel filtration on Sephadex G-200, chromatography on DE-23 cellulose and affinity chromatography on a Sepharose 4B-phospholipase A column. By these procedures, a 31-fold increase in specific activity was attained with a yield of 15%. The purified material was homogeneous as judged by cellulose acetate and polyacrylamide gel electrophoresis. It had an apparent molecular weight of 100,000 as measured by gel filtration on Sephadex G-200. The purified inhibitor was stable for 20 min at 80 degrees and was unstable below pH 6. It migrated before albumin in cellulose acetate electrophoresis and did not form any precipitin line with the crude venom or with purified phospholipase A in immunodiffusin tests. An 8-fold excess of the purified inhibitor by weight was required to inhibit completely both the egg yolk clearing action and the hemolytic action of phospholipase A.     

Changes in the membrane surface charge and the potentiation of phospholipase A2 as affected by the cytotoxin from the venom of the Central Asian cobra

The interaction of iodine labelled cytotoxin of the middle-asian cobra venom with erythrocyte membranes has been studied. The pretreatment of erythrocytes by cytotoxin results in the sensitivity to the lytic action of pure phospholipase A2 of the same venom. Using I-labelled serum albumin it has been proved that cytotoxin promotes the binding of acid proteins on the membrane such as phospholipase A2 interacted with it synergetically. In the course of study of cytotoxin effect on the time of adhesion hemispheres of artificial bilayer phospholipide membranes it has been established that due to the basic properties cytotoxin neutralizes the negative charge of the membrane surface. This effect of cytotoxin plays an important role in the potentiation of membrane action of phospholipase A2.     

Isolation and characterization of a lethal phospholipase A2 (NN-IVb1-PLA2) from the Indian cobra (Naja naja naja) venom.

Indian cobra (Naja naja naja) venom is reported to contain multiple forms of phospholipase A2. Only a couple of them have been isolated and characterized. A lethal phospholipase A2 (NN-IVb1-PLA2) from Naja naja naja venom has been purified in three steps involving CM-Sephadex C-25, Sephadex G-50 and rechromatography on CM-Sephadex C-25 columns. It is a basic protein with pl value between 7-7.5 and has molecular weight between 11,000-11,500. The LD50 of NN-IVb1-PLA2 is 1.2 mg/K g body weight. It induces neurotoxic symptoms in the experimental mice and is devoid of myotoxic, anticoagulant, edema inducing and direct hemolytic activities.     

Effect of phospholipases A2 from bee and cobra venom on the phospholipid composition and Na+-,K+-ATPase activity of synaptosomes

The bee and cobra venom phospholipases A2 as well as partially acetylated cobra venom phospholipase A2 are studied for their effect on phospholipid composition of synaptosomes and their Mg2+- and Na+,K+-ATPase activity. It is established that these phospholipases induce the splitting of phosphatidylethanolamine, phosphatidylcholine and phosphatidylserine, inhibition of the Na+,K+-ATPase activity and activation of Mg2+-ATPase. Bee venom phospholipase A2 is more effective than cobra venom phospholipase A2, the both phospholipases splitting phosphatidylethanolamine most intensively. The ATPase activity may be partially or completely restored by exogenic phosphatidylcholine and phosphatidylserine; exogenic phosphatidylethanolamine is not efficient in this respect.