Isolation and amino acid sequence of a neurotoxic phospholipase A from the venom of the Australian tiger snake Notechis scutatus scutatus.

The complete amino acid sequence of notechis 5, a neurotoxic phospholipase A from the venom of Notechis scutatus scutatus (Australian tiger snake), has been elucidated. The main fragmentation of the 119-residue peptide chain was accomplished by digesting the reduced and S-carboxymethylated derivative of the protein with a staphylococcal protease specific for glutamoyl bonds. Tryptic peptides were used to align and complete the sequence of the four staphylococcal protease peptides. The sequence was determined by Edman degradation by means of the direct phenylthiohydantoin method. Notechis 5 differs in seven positions from the recently elucidated sequence of the presynaptic neurotoxin notexin from the same venom. Notechis 5 has a 50% higher specific prospholipase A activity than notexin when assayed against egg yolk but is only one-third as toxic.     

Amino acid sequence of a presynaptic neurotoxin from the venom of Notechis scutatus scutatus (Australian tiger snake).

The complete amino acid sequence of notexin, a presynaptic neurotoxin from the venom of Notechis scutatus scutatus (Australian tiger snake), has been elucidated. The protein consists of a single chain of 119 amino acids cross-linked by seven disulfide bridges and has a formula weight of 13,578. The main fragmentation of the peptide chain was accomplished with a staphylococcal protease specific for glutamoyl bonds. A cyanogen bromide fragment and tryptic peptides were used to align the five major staphylococcal protease peptides. The sequence was determined by Edman degradation using the direct phenylthiohydantoin method and with carboxypeptidase A. Notexin is shown to be homologous to both porcine pancreatic phospholipase A and a phospholipase A from the venom of Naja melanoleuca.     

Amino acid sequence of a postsynaptic neurotoxin from the venom of the Australian tiger snake Notechis scutatus scutatus.

Although 60 percent of the protein in tiger snake (Notechis scutatus scutatus) venom consists of the basic per-synaptically neurotoxic and myotoxic phospholipases notexin and Notechis II-5 and other phospholipase homologs such as Notechis II-1, several post-synaptic "curaremimetic" neurotoxins are present in small amounts. The major one of these is a typical "long" neurotoxin containing 73 amino acids in a single peptide chain cross-linked by five disulfide bridges. The formula weight calculated from the amino acid sequence is 8,051. The LD50 for intravenous injection into mice is 125 micrograms/kg.     

The N-terminal amino group essential for the biological activity of notexin from Notechis scutatus scutatus venom

Notexin from Notechis scutatus scutatus snake venom was modified with trinitrobenzenesulfonic acid, and the major trinitrophenylated (TNP) derivative was separated by high-performance liquid chromatography. Modification resulted in the incorporation of only one TNP group on the N-terminal alpha-amino group. The TNP derivative showed a precipitous decrease in enzymatic activity and lethal toxicity, whereas the antigenicity remained unchanged. However, trinitrophenylation did not significantly affect the secondary structure of the toxin molecule as revealed by the CD spectra. The results, that the modification reaction was accelerated by the Ca2+ and that the TNP derivative retains its affinity for Ca2+, indicate that the N-terminal alpha-amino group did not participate in the Ca2(+)-binding. The TNP derivative could be regenerated with hydrazine hydrochloride. The biological activities of the regenerated notexin are almost the same as those of native notexin. These results suggest that the N-terminal alpha-amino group is essential for the phospholipase A2 activity and lethal toxicity of notexin, and that incorporation of the TNP group on the N-terminal alpha-amino group might give rise to a distortion of the active conformation of notexin.     

On the purification of notexin. Isolation of a single amino acid variant from the venom of Notechis scutatus scutatus

Venom of the Australian tiger snake, Notechis scutatus scutatus was fractionated by conventional ion-exchange chromatography. The fraction containing notexin, a well-known single-chain toxic phospholipase A2, was further purified by reverse-phase high-performance liquid chromatography. Two main components were isolated and the major one corresponded to notexin. The other component, designated as notechis Ns, was an isoform of notexin. Notechis Ns and notexin possessed similar in vitro esterase activity, in vitro neuromuscular activity and in vivo lethality. Amino acid composition and sequence of the Staphylococcus aureus V8-protease peptides demonstrated that primary structures of notechis Ns and notexin differed from each other by a single substitution amongst 119 amino acids: Lys----Arg at position 16.     

Chemical modification of notexin fromNotechis scutatus scutatus (Australian tiger snake) venom with pyridoxal-5′-phosphate

Notexin fromNotechis scutatus scutatus snake venom was subjected to Lys modification with pyridoxal 5′-phosphate (PLP), and one major modified derivative was purified on a cation-exchanger SP-8HR column. The results of amino acid analysis and sequence determination revealed that only 2 Lys residues at positions 82 and 115 out of 11 Lys residues in notexin were modified. The incorporation of PLP into the protein was accompanied by the loss of 53% lethal toxicity, but the modified notexin showed an about 1.2-fold increase in enzymatic activity. However, the secondary structure of the toxin molecule did not significantly change after modification with PLP as revealed by the CD spectra, and the antigenicity of PLP derivative remained unchanged. The modified derivative retained its affinity for Ca²⁺, indicating that the modified Lys residues did not participate in Ca²⁺ binding. These results indicate that modification of Lys residues causes a differential effect on the enzymatic activity and lethal toxicity of notexin, and suggest that notexin might possess two functional sites, one responsible for the catalytic activity and the other associated with its lethal effect.     

Purification and properties of a prothrombin activator from the venom of Notechis scutatus scutatus

The prothrombin activator present in the venom of the mainland tiger snake (Notechis scutatus scutatus) was purified to homogeneity by gel chromatography on Sephadex G-200 followed by ion-exchange chromatography on SP-Sephadex. The venom activator has an apparent molecular weight of 54,000. It consists of a heavy chain (Mr = 32,000) and a light chain (Mr = 23,000) held together by one or more disulfide bridges. The active site is located at the heavy chain region of the molecule. The venom activator contains 8 gamma-carboxyglutamic acid residues/molecule. Gel electrophoretic analysis of prothrombin activation indicates that the venom activator is capable of cleaving both the Arg 274-Thr 275 and Arg 323-Ile 324 bonds of bovine prothrombin. The order of bond cleavage appears to be random since prethrombin-2 and meizothrombin occur as intermediates during prothrombin activation. Prothrombin activation by the venom activator alone is very slow. This is explained by the unfavorable kinetic parameters for the reaction (Km for prothrombin = 105 microM, Vmax = 0.0025 nmol of prothrombin activated per min/microgram of venom activator). Phospholipids plus Ca2+ and Factor Va greatly stimulate venom-catalyzed prothrombin activation. In the presence of 50 microM phospholipid vesicles composed of 20 mol % phosphatidylserine and 80 mol % phosphatidylcholine, the Km drops to 0.2 microM, whereas there is hardly any effect on the Vmax. Factor Va causes a 3,500-fold increase of the Vmax (8.35 nmol of prothrombin activated per min/microgram of venom activator) and a 10-fold decrease of the Km (9.5 microM). The most favorable kinetic parameters are observed in the presence of both 50 microM phospholipid and Factor Va (Km = 0.16 microM, Vmax = 27.9 nmol of prothrombin activated per min/microgram of venom activator). These changes of the kinetic parameters explain the stimulatory effects of Factor Va and phospholipid on venom-catalyzed prothrombin activation. The venom activator slowly converts the Factor Xa-specific chromogenic substrates CH3SO2-D-leucyl-glycyl-L-arginine-p-nitroanilide and N-benzoyl-L-isoleucyl-L-glutamyl-(piperidyl)-glycyl-L-arginyl-p-nitroani lide hydrochloride. Factor Va causes a 7-fold stimulation of chromogenic substrate conversion by the venom activator. This stimulation appears to be the result of the formation of a tight 1:1 complex between the venom activator and Factor Va.     

Inhibition of red cell Ca2+-dependent K+ channels by snake venoms

We have investigated the effects of several snake venoms on the Ca2+-dependent K+ channels of human red cells. A heat-resistant component of the venom of the snake Notechis scutatus irreversibly inhibited Ca2+-dependent K+ transport with a Ki value of 0.1-0.2 micrograms/ml. Metabolic changes of the cells modified the maximal effect of the venom. Binding of the venom required extracellular Ca2+ and was quick, but development of full inhibition required additional time. The effects of the venoms from Notechis scutatus and Leiurus quinquestriatus were additive, suggesting that both venoms act through different mechanisms. Venoms of the snakes Vipera russelli russelli and Oxyuranus scutellatus also inhibited Ca2+-dependent K+ transport with the same characteristics as the Notechis scutatus venom.     

The effect of several viper venoms on prothrombin Padua.

The effect of four viper venoms (Oxyuranus scutellatus, Notechis scutatus scutatus, Echis carinatus, Naja nigricollis) on prothrombin Padua has been studied. Using Oxyuranus scutellatus venom and Notechis scutatus scutatus venom, prothrombin activity resulted to be moderately decreased similarly to what observed with other one-stage and two-stage methods. On the contrary, using Echis carinatus venom a normal level was obtained. No clotting was observed using the Naja nigricollis venom, regardless of the concentration used. The normal level of factor II obtained with Echis carinatus venom as compared with the low levels obtained with the other venoms, suggests that it acts on a different site of the prothrombin molecule.     

Biochemical and functional characterization of an L-amino acid oxidase isolated from Bothrops pirajai snake venom

In this work we describe the isolation of a new l-amino acid oxidase (LAAO) referred to as BpirLAAO-I from Bothrops pirajai snake venom, which was highly purified using a combination of molecular exclusion, affinity, and hydrophobic chromatography steps. BpirLAAO-I homodimeric acid glycoprotein (approximate Mr and pI of 130,000 and 4.9, respectively) displays high specificity toward hydrophobic/aromatic amino acids, while deglycosylation does not alter its enzymatic activity. The N-terminal LAAO sequence of its first 49 amino acids presented a high similarity between a amino acid sequence with other LAAOs from: Bothrops spp., Crotalus spp., Calloselasma rhodostoma, Agkistrodon spp., Trimeresurus spp., Pseudechis australis, Oxyuranus scutellatus, and Notechis scutatus. BpirLAAO-I induces time-dependent platelet aggregation, mouse paw edema, cytotoxic activity against Escherichia coli, Pseudomonas aeruginosa, Leishmania sp., and tumor cells, and also a typical fago (M13mp18) DNA fragmentation. Platelet aggregation, leishmanicidal and antitumoral activities were reduced by catalase. Thus, BpirLAAO-I is a multifunctional protein with promising biotechnological and medical applications.     

Cloning and expression of an acidic platelet aggregation inhibitor phospholipase A2 cDNA from Bothrops jararacussu venom gland

The phospholipase A2 (PLA2, E.C. 3.1.1.4) superfamily is defined by enzymes that catalyze the hydrolysis of the sn-2 bond of phosphoglycerides. Most PLA2s from the venom of Bothrops species are basic proteins, which have been well characterized both structurally and functionally, however, little is known about acidic PLA2s from this venom. Nevertheless, it has been demonstrated that they are non-toxic, with high catalytic and hypotensive activities and show the ability to inhibit platelet aggregation. To further understand the function of these proteins, we have isolated a cDNA that encodes an acidic PLA2 from a cDNA library prepared from the poly(A)+ RNA of venom gland of Bothrops jararacussu. The full-length nucleotide sequence of 366 base pairs encodes a predicted gene product with 122 amino acid with theoretical isoelectric point and size of 5.28 and 13,685 kDa, respectively. This acidic PLA2 sequence was cloned into expression vector pET11a (+) and expressed as inclusion bodies in Escherichia coli BL21(DE3)pLysS. The N-terminal amino acid sequence of the 14 kDa recombinant protein was determined. The recombinant acidic PLA2 protein was submitted to refolding and to be purified by RP-HPLC chromatography. The structure and function of the recombinant protein was compared to that of the native protein by circular dichroism (CD), enzymatic activity, edema-inducing, and platelet aggregation inhibition activities.     

Purification, some properties of two phospholipases A2 (CM-I and CM-II) and the amino-acid sequence of CM-II from Aspidelaps scutatus (shield or shield-nose) venom

Two phospholipases A2, CM-I and CM-II, from Aspidelaps scutatus venom were purified by gel filtration followed by ion-exchange chromatography on CM-cellulose. The enzymes consist of 119 amino acids including fourteen half-cystines. The complete primary structure of CM-II has been determined. The sequence and the invariant amino acid residues resemble those of the phospholipase A2 from the genus Naja. The toxicity of the enzymes is comparable to those encountered for the phospholipases A2 from African cobra venoms. The phospholipase A2 (CM-II) contains two histidine residues which are located at position 20 and the reactive site (histidine-47) of the enzyme.     

Immunological properties of notexin, a potent presynaptic and myotoxic component from venom of the Australian tiger snake Notechis scutatus scutatus

Neutralizing antibodies were raised in mice against notexin, the most toxic phospholipase A₂ (PLA₂) from Notechis scutatus scutatus venom, without the necessity of detoxifying the toxin prior to immunization. Using a sensitive radioimmunoassay we demonstrated that anti-notexin antibodies recognized (i) the parent antigen, (ii) closely related isoforms of notexin and (iii) venoms from Notechis genus snakes. In contrast, they failed to recognize other purified PLA₂ or PLA₂-containing venoms from other origins. Substitutions or chemical modifications occurring in the C-terminal part of the polypeptide chain of notexin altered the binding affinity for antibodies, implying that this region constitutes an antigenic domain of notexin.     

Tryptophan 110, a residue involved in the toxic activity but not in the enzymatic activity of notexin

We prepared two derivatives of notexin, a phospholipase A2 from Notechis scutatus scutatus venom, by modifying the protein with 2-nitrophenylsulfenylchloride, a tryptophan-specific reagent. One derivative was modified at both tryptophans 20 and 110 whereas the other was modified at tryptophan 20. Evidence based on circular dichroic analysis and antigenicity towards a notexin-specific monoclonal antibody indicated that derivatization at both tryptophans did not affect the tertiary structure of notexin. Concomitant modification of tryptophans 20 and 110 induced a marked decrease in the capacity of notexin to kill mice and to block neuromuscular transmission in the chick biventer cervicis preparation, whereas selective modification at tryptophan 20 had no effect on the lethal properties of notexin. This implies that the decrease in the lethal properties of notexin after derivatization was due to modification at tryptophan 110. However, the diderivatized notexin retained full enzymatic activity, implying that neither tryptophan 20 and tryptophan 110 are involved in the catalytic function of the molecule. We conclude that notexin harbours two functional sites. One of them corresponds to the enzymatic site, whereas the other, which includes tryptophan 110, provides specific toxic characteristics to notexin. By reference to previous crystallographic studies, the relative spatial positions of elements involved in toxicity and the catalytic site, we propose a possible orientation of notexin with respect to its putative membrane-bound target.     

Purification, characterization and cytokine release function of a novel Arg-49 phospholipase A(2) from the venom of Protobothrops mucrosquamatus

Group IIA phospholipase A(2) (PLA(2)) are major components in Viperidae/Crotalidae venom. In the present study, a novel PLA(2) named promutoxin with Arg at the site 49 has been purified from the venom of Protobothrops mucrosquamatus by chromatography. It consists of 122 amino acid residues with a molecular mass of 13,656 Da assessed by MALDI-TOF. It has the structural features of snake venom group IIA PLA(2)s, but has no PLA(2) enzymatic activity. Promutoxin shows higher amino acid sequence identity to the K49 PLA(2)s (72-95%) than to D49 PLA(2)s (52-58%). Promutoxin exhibits potent myotoxicity in the animal model with as little as 1 microg of promutoxin causing myonecrosis and myoedema in the gastrocnemius muscle of mice. Promutoxin is also able to stimulate the release of IL-12, TNFalpha, IL-6 and IL-1beta from human monocytes, and induce IL-2, TNFalpha and IL-6 release from T cells, indicating that this snake venom group IIA PLA(2) is actively involved in the inflammatory process in man caused by snake venom poisoning.     

Cloning and Identification of a Complete cDNA Coding for a Bactericidal and Antitumoral Acidic Phospholipase A2 from Bothrops jararacussu Venom

In order to better understand the function of acidic phospholipases A2 (PLA2s) from snake venoms, expressed sequence tags (ESTs) that code for acidic PLA2s were isolated from a cDNA library prepared from the poly(A)+ RNA of venomous glands of Bothrops jararacussu. The complete nucleotide sequence (366 bp), named BOJU-III, encodes the BthA-I-PLA2 precursor, which includes a signal peptide and the mature protein with 16 and 122 amino acid residues, respectively. Multiple comparison of both the nucleotide and respective deduced amino acid sequence with EST and protein sequences from databases revealed that the full-length cDNA identified (BOJU III--AY145836) is related to an acidic PLA2 sharing similarity, within the range 55-81%, with acidic phospholipases from snake venoms. Moreover, phylogenetic analysis of amino acid sequences of acidic PLA2s from several pit viper genera showed close evolutionary relationships among acidic PLA2s from Bothrops, Crotalus, and Trimeresurus. The molecular modeling showed structural similarity with other dimeric class II PLA2s from snake venoms. The native protein BthA-I-PLA2, a nontoxic acidic PLA2 directly isolated from Bothrops jararacussu snake venom, was purified and submitted to various bioassays. BthA-I-PLA2 displayed high catalytic activity and induced Ca2+-dependent liposome disruption. Edema induced by this PLA2 was inhibited by indomethacin and dexamethasone, thus suggesting involvement of the cyclo-oxygenase pathway. BthA-I-PLA2 showed anticoagulant activity upon human plasma and inhibited phospholipid-dependent platelet aggregation induced by collagen or ADP. In addition, it displayed bactericidal activity against Escherichia coli and Staphylococcus aureus and antitumoral effect upon breast adrenocarcinoma as well as upon human leukemia T and Erlich ascitic tumor. Following chemical modification with p-bromophenacyl bromide, total loss of the enzymatic and pharmacological activities were observed. This is the first report on the isolation and identification of a cDNA encoding a complete acidic PLA2 from Bothrops venom, exhibiting bactericidal and antitumoral effects.     

江浙蝮蛇磷脂酶A2基因的多样性研究

我们利用简并引物从江浙蝮蛇腺总ＲＮＡ经ＲＰ－ＰＣＲ扩增磷脂酶Ａ２（简称ＰＬＡ２）基因,并以碱性ＰＬＡ２（Ｂ－ＰＬＡ２）基因为探针,分离出了酸性ＰＬＡ２（Ａ－ＰＬＡ２）和两个未见报道的特征结构类同的基因,分别命名为Ａｓｎ＾４８－ＰＡＬ２和ＢＡ－ＰＡＬ２。双向测序测定了这组ＰＬＡ２同工酶（除信号肽外）基因的全序列,并由此推导编码的氨基酸序列。其中Ａ－ＰＬＡ２基因编码的氨基酸序列与较早报道的由蛇毒中分离     

Structure of presynaptic toxins: Crystallization and preliminary x-ray diffraction data on Notechis II-5, a presynaptic toxin phospholipase

The presynaptic neutrotoxin-phospholipase, Notechis II-5 from the venom of NotechisScutatus scutatus (Australian tiger snake) has been crystallized in a form suited for x-ray diffraction analysis. The crystals belong to the orthorhombic space group P2₁ 2₁,2₁, with unit cell dimensions, a=146.1,b =43.5 and c =39.0 A. There are two molecules of Notechis II-5 in the asymmetric unit. The molecular weight is about 13,500. Notechis II-5 is highly homologous to Notexin, another presynaptic toxin from the venom of the Australian tiger snake, to bovine and porcine pancreatic phospholipases A and other venom phospholipases.     

Snake venom toxins--I. The primary structure of a long neurotoxin S4C6 from Aspidelaps scutatus (shield or shield-nose snake) venom

1. Long neurotoxin S4C6 from Aspidelaps scutatus venom was purified by gel filtration and ion exchange chromatography (Joubert, 1987). 2. It contains 68 amino acids including 10 half-cystines. The toxicity of toxin S4C6 was determined and a LD50 of 0.13 +/- 0.04 micrograms/g mouse was found. 3. The complete primary structure of long neurotoxin S4C6 has been elucidated. In the toxin the 10 structurally invariant amino acids of the neurotoxins and cytoxins and the five functionally invariant amino acids of the neurotoxins are conserved.