A Phospholipase-A Activity in Soluble Leishmania Antigens Causes Instability of Liposomes.

AIM: This study aimed to investigate the existence of phospholipase-A (PLA) activity in Soluble L. major Antigens (SLA) because of no reports for it so far. Liposomes were used as sensors to evaluate PLA activity. OBJECTIVES: Liposomal SLA consisting of Egg Phosphatidylcholine (EPC) or Sphingomyelin (SM) were prepared by two different methods in different pH or temperatures and characterized by Dynamic Light Scattering (DLS) and Thin Layer Chromatography (TLC). METHODS: Lipid hydrolysis led to the disruption of EPC liposomal SLA in both methods but the Film Method (FM) produced more stable liposomes than the Detergent Removal Method (DRM). RESULT: The preparation of EPC liposomal SLA at pH 6 via FM protected liposomes from hydrolysis to some extent for a short time. EPC liposomes but not SM liposomes were disrupted in the presence of SLA. CONCLUSION: Therefore, a phospholipid without ester bond such as SM should be utilized in liposome formulations containing PLA as an encapsulating protein.

Photobiostimulation reduces edema formation induced in mice by Lys-49 phospholipases A2 isolated from Bothrops moojeni venom.

The prominent local myotoxic effects induced by Bothrops snake venom are due, in part, to myotoxins. This effect is not neutralized by antivenom, which is the main therapy for victims of snakebite. Two basic myotoxins named MjTX-I and MjTX-II were isolated from Bothrops moojeni venom. Both myotoxins have a Lys-49 phospholipase A2 structure devoid of enzymatic activity, but are highly myonecrotic and edema-inducing. In this study, we analyzed the effect of a low-level laser (LLL) at 685 nm, an energy density of 2.2 J cm(-2), and the irradiation time of 15 s, and a light emitting diode (LED) at 635 or 945 nm at energy densities of 4 and 3.8 J cm(-2), and irradiation times of 41 and 38 s, respectively, applied 30 min and 3 h after edema formation in mice caused by MjTX-I or MjTX-II. MjTX-I or MjTX-II caused a significant edema formation in envenomed paws. LLL and LED irradiation significantly reduced the edema formation by both myotoxins from 1 up to 6 hours after the injection. Both LLL and LEDs were similar in reducing the edema formation induced by myotoxins. The combined photobiostimulation with antivenom had the same effect in reducing edema as treatment with the LLL or LEDs alone. In conclusion, the results of this study indicate that photobiostimulation could be used in association with antivenom therapy for treatment of local effects of Bothrops species venom.

Patatin-related phospholipase pPLAIIIδ increases seed oil content with long-chain fatty acids in Arabidopsis.

The release of fatty acids from membrane lipids has been implicated in various metabolic and physiological processes, but in many cases, the enzymes involved and their functions in plants remain unclear. Patatin-related phospholipase As (pPLAs) constitute a major family of acyl-hydrolyzing enzymes in plants. Here, we show that pPLAIIIδ promotes the production of triacylglycerols with 20- and 22-carbon fatty acids in Arabidopsis (Arabidopsis thaliana). Of the four pPLAIIIs (α, ß, γ, δ), only pPLAIIIδ gene knockout results in a decrease in seed oil content, and pPLAIIIδ is most highly expressed in developing embryos. The overexpression of pPLAIIIδ increases the content of triacylglycerol and 20- and 22-carbon fatty acids in seeds with a corresponding decrease in 18-carbon fatty acids. Several genes in the glycerolipid biosynthetic pathways are up-regulated in pPLAIIIδ-overexpressing siliques. pPLAIIIδ hydrolyzes phosphatidylcholine and also acyl-coenzyme A to release fatty acids. pPLAIIIδ-overexpressing plants have a lower level, whereas pPLAIIIδ knockout plants have a higher level, of acyl-coenzyme A than the wild type. Whereas seed yield decreases in transgenic plants that ubiquitously overexpress pPLAIIIδ, seed-specific overexpression of pPLAIIIδ increases seed oil content without any detrimental effect on overall seed yield. These results indicate that pPLAIIIδ-mediated phospholipid turnover plays a role in fatty acid remodeling and glycerolipid production.

Inhibition of snake venoms and phospholipases A(2) by extracts from native and genetically modified Eclipta alba: isolation of active coumestans.

We genetically modified Eclipta alba using Agrobacterium rhizogenes LBA 9402, with the aim of producing secondary metabolites with pharmacological properties against phospholipase A(2) and the myotoxic activities of snake venom. Extracts from in natura aerial parts and roots, both native and genetically modified (in vitro), were prepared and analysed by high-performance liquid chromatography. In natura materials showed the coumestan wedelolactone at higher concentration in the aerial parts, while demethylwedelolactone appeared at higher concentration in roots. Among the modified roots, clone 19 showed higher concentrations of these coumestans. Our results show that the in natura extracts of plants collected from Botucatu and Ribeirão Preto were efficient in inhibiting snake venom phospholipase A(2) activity. Regarding in vitro material, the best effect against Crotalus durissus terrificus venom was that of clone 19. Clone 19 and isolated coumestans (wedelolactone and demethylwedelolactone) inhibited the myotoxic activity induced by basic phospholipases A(2) isolated from the venoms of Crotalus durissus terrificus (CB) and Bothrops jararacussu (BthTX-I and II). The search for antivenom is justified by the need of finding active principles that are more efficient in neutralizing snake venoms and also as an attempt to complement serum therapy.

Group IIA secretory PLA2 inhibition by ursolic acid: a potent anti-inflammatory molecule.

Ursolic acid (3beta-hydroxy-urs-12-en-28-oic acid) isolated from many medicinal plants has diverse pharmacologically important properties, including strong anti-inflammatory activity. However its interaction with pro-inflammatory PLA2 is not known. Ursolic acid inhibited secretory PLA2 (sPLA2) enzymes purified from Vipera russelli, Naja naja venom and human pleural fluid and synovial fluid. IC50 values determined for these enzymes ranged from 12 to 18 microM. Group II secretory PLA2 from both venoms & human inflammatory source were found to be sensitive to inhibition in comparison with group I cobra venom sPLA2. Variation in Ca2+ concentration from 2.5-15 mM did not alter the level of inhibition. Similarly sPLA2 inhibition by ursolic acid is independent of substrate concentration. Ursolic acid interacts with purified venom sPLA2 enzymes and enhances relative fluorescence intensity in a dose dependent manner. In the presence of ursolic acid apparent shift in the far UV-CD spectra of sPLA2 was observed, indicating a direct interaction with the enzyme and formation of enzyme-ursolic acid complex. This complex results in irreversible inhibition of sPLA2 as evident by dialysis study. Inhibition of sPLA2 induced mouse paw edema and indirect hemolytic activity confirmed its sPLA2 inhibitory activity in vivo and in situ respectively. These studies revealed that the strong anti-inflammatory activity of ursolic acid is by inhibiting sPLA2 enzymes.

The main triglyceride-lipase from the insect fat body is an active phospholipase A(1): identification and characterization.

The main triglyceride-lipase (TG-lipase) from the fat body of Manduca sexta has been identified as the homolog of Drosophila melanogaster CG8552. This protein is conserved among insects and also shares significant sequence similarity with vertebrate phospholipases (PLs) from the phosphatidic acid preferring-phospholipase A1 (PA-PLA(1)) family. It is shown here that the TG-lipase is also a PL. TG-lipase and PL activities copurify and are inhibited by, or resistant to, the same lipase inhibitors, indicating that both activities are catalyzed by the same enzyme and active site. The PL activity of TG-lipase corresponded to PL type A(1). The concentration dependence of lipase activity with TG and PL micellar substrates showed saturation kinetics, with apparent K(m) values of 152 +/- 11 and 7.8 +/- 1.1 muM, respectively. TG-lipase was able to hydrolyze the major phospholipid components of the lipid droplets, phosphatidylcholine and phosphatidylethanolamine. The enzyme hydrolyzes 77 molecules of TG for every molecule of PL contained in the lipid droplets. It was observed that the activation of lipolysis in vivo is accompanied by activation of the hydrolysis of phospholipids of the lipid droplets. These results suggest that the PL activity of the insect TG-lipase could be required to allow access of the lipase to TG molecules contained in the core of the lipid droplets.

BE-I-PLA2, a novel acidic phospholipase A2 from Bothrops erythromelas venom: isolation, cloning and characterization as potent anti-platelet and inductor of prostaglandin I2 release by endothelial cells.

A novel acidic Asp49 phospholipase A(2) was isolated from Bothrops erythromelas (jararaca malha-de-cascavel) snake venom by four chromatographic steps. BE-I-PLA2 present a molecular weight of 13,649.57 Da as estimated by mass spectrometry. N-terminal and four internal peptides were sequenced, covering around one-third of the complete toxin sequence. The complete BE-I-PLA2 cDNA was cloned from a B. erythromelas venom-gland cDNA library. The cDNA sequence possesses 457 bp and encodes a protein with significant sequence similarity to many other phospholipase A(2) from snake venoms. When tested in platelet rich plasma, the enzyme showed a potent inhibitory effect on aggregation induced by arachidonic acid and collagen, but not ADP. On the other hand, BE-I-PLA2 did not modify aggregation in washed platelet. Furthermore, no action of BE-I-PLA2 on the principal platelets receptors was observed. Chemical modification with p-bromophenacyl bromide abolished the enzymatic activity of BE-I-PLA2, but its anti-platelet activity was only partially inhibited. In human umbilical-cord veins endothelial cells, BE-I-PLA2 was neither apoptotic nor proliferative but stimulated endothelial cells to release prostaglandin I(2), suggesting an increase of its potential anti-platelet activity in vivo. Further studies are required in order to determine the exact mechanism of action of BE-I-PLA2 in the inhibition of platelet aggregation.

Purification of a post-synaptic neurotoxic phospholipase A2 from Naja naja venom and its inhibition by a glycoprotein from Withania somnifera.

A post-synaptic neurotoxic phospholipase A(2) (PLA(2)) has been purified from Indian cobra Naja naja venom. It was associated with a peptide in the venom. The association was disrupted using 8 M urea. It is denoted to be a basic protein by its behavior on both ion exchange chromatography and electrophoresis. It is toxic to mice, LD(50) 1.9 mg/kg body weight (ip). It is proved to be post-synaptic PLA(2) by chymographic experiment using frog nerve-muscle preparation. A glycoprotein, (WSG) was isolated from a folk medicinal plant Withania somnifera. The WSG inhibited the phospholipase A(2) activity of NN-XIa-PLA(2,) isolated from the cobra venom, completely at a mole-to-mole ratio of 1:2 (NN-XIa-PLA(2): WSG) but failed to neutralize the toxicity of the molecule. However, it reduced the toxicity as well as prolonged the death time of the experimental mice approximately 10 times when compared to venom alone. The WSG also inhibited several other PLA(2) isoforms from the venom to varying extent. The interaction of the WSG with the PLA(2) is confirmed by fluorescence quenching and gel-permeation chromatography. Chemical modification of the active histidine residue of PLA(2) using p-brophenacyl bromide resulted in the loss of both catalytic activity as well as neurotoxicity of the molecule. These findings suggest that the venom PLA(2) has multiple sites on it; perhaps some of them are overlapping. Application of the plant extract on snakebite wound confirms the medicinal value associated with the plant.

Inhibition of enzymatic and pharmacological activities of some snake venoms and toxins by Mandevilla velutina (Apocynaceae) aqueous extract.

Phospholipases A(2) (PLA(2)) are multifunctional proteins which exhibit varied biological activities correlated to the structural diversities of the sub-classes. The crude aqueous extract from subterranean system of Mandevilla velutina, a plant found in Brazilian savanna, was assayed for its ability to inhibit biological activities of several snake venoms and isolated PLA(2)s. The extract induced total inhibition of the phospholipase activity of Crotalus durissus terrificus venom and only partial inhibition of Bothrops venoms. When assayed against purified toxins, the highest efficacy was detected against CB and crotoxin, while almost ineffective against PLA(2)s from the genus Bothrops. Although M. velutina crude extract significantly inhibited the myotoxic activity of C. d. terrificus venom and CB, it produced only partial inhibition of either Bothrops jararacussu venom or its main myotoxins BthTX-I (basic Lys49), BthTX-II (basic Asp49) and BthA-I-PLA(2) (acidic Asp49). The extract exhibited also full inhibition of hemorrhage caused by Bothrops alternatus, Bothrops moojeni and Bothrops pirajai snake venoms, but partial inhibition (90%) of that induced by B. jararacussu venom. The extract was ineffective to inhibit the fibrinogenolytic activity of B. moojeni, B. alternatus and B. pirajai crude venoms, while their caseinolytic activity was only partially inhibited. No inhibition of the anticoagulant activity, although partial reduction of the edema-inducing activity of C. d. terrificus and B. alternatus crude venoms, CB, PrTX-I, BthTX-I and crotoxin was observed. Besides extending survival of mice injected with lethal doses of C. d. terrificus and B. jararacussu venoms, M. velutina extract decreased to 50% the lethality of mice. Extracts of 18 month old micropropagated plants were able to partially neutralize the effect of the crude venoms and toxins.

Characterization and cloning of a novel phospholipase A(2) from the venom of Trimeresurus jerdonii snake.

A phospholipase A(2) (PLA(2)), called jerdoxin, was isolated from Trimeresurus jerdonni snake venom and partially characterized. The protein was purified by three chromatographic steps. SDS-polyacrylamide gel electrophoresis in the presence or absence of dithiothreitol showed that it had a molecular mass of 15 kDa. Jerdoxin had an enzymatic activity of 39.4 micro mol/min/mg towards egg yolk phosphatidyl choline (PC). It induced edema in the footpads of mice. In addition, jerdoxin exhibited indirect hemolytic activity. About 97% hemolysis was observed when 2 micro g/ml enzyme was incubated for 90 min in the presence of PC and Ca(2+). No detectable hemolysis was noticed when PC was not added. Ca(2+) was necessary for jerdoxin to exert its hemolytic activity, since only 52% hemolysis was seen when Ca(2+) was absent in the reaction mixture. Furthermore, jerdoxin inhibited ADP induced rabbit platelet aggregation and the inhibition was dose dependent with an IC(50) of 1.0 micro M. The complete amino acid sequence of jerdoxin deduced from cDNA sequence shared high homology with other snake venom PLA(2)s, especially the D 49 PLA(2)s. Also, the residues concerned to Ca(2+) binding were conserved. This is the first report of cDNA sequence of T. jerdonii venom PLA(2).

Purification and characterization of a membrane-associated 48-kilodalton phospholipase A(2) in leaves of broad bean.

Several lines of evidence indicate that phospholipase A(2) (PLA(2)) plays a crucial role in plant cellular responses through production of linolenic acid, the precursor of jasmonic acid, from membrane phospholipids. Here we report the purification and characterization of a 48-kD PLA(2) from the membrane fractions of leaves of broad bean (Vicia faba). The plant PLA(2) was purified to near homogeneity by sequential column chromatographies from the membrane extracts. The purified 48-kD protein migrated as a single band on a SDS-PAGE gel and its density correlated with the PLA(2) activity. It was further confirmed that this 48-kD protein is the PLA(2) enzyme based on immunoprecipitating the activity with a monoclonal antibody against it and purifying the enzyme to homogeneity with the antibody affinity column. The purified plant PLA(2) preferred 2-linolenoyl-sn-glycerol-3-phosphocholine (GPC) to 2-linoleoyl-GPC, 2-palmitoyl-GPC and 2-arachidonyl-GPC as substrates with a pH optimum at pH 7.0 to 8.0. The plant PLA(2) was activated by calmodulin and inhibited by pretreatment of 5,8,11, 14-eicosatetraynoic acid known as an inhibitor of mammalian PLA(2)s. The enzyme was characterized as a Ca(2+)-independent PLA(2) different from mammalian PLA(2)s. This membrane-associated and Ca(2+)-independent PLA(2) is suggested to play an important role in the release of linolenic acid, the precursor of jasmonic acid, through a signal transduction pathway.

Plant low-molecular-weight phospholipase A2S (PLA2s) are structurally related to the animal secretory PLA2s and are present as a family of isoforms in rice (Oryza sativa).

Recently, we purified to homogeneity and characterized a low-molecular-weight calcium-dependent phospholipase A2 (PLA2) from developing elm seed endosperm. This represented the first purified and characterized PLA2 from a plant tissue. The full sequences of two distinct but homologous rice (Oryza sativa) cDNAs are given here. These encode mature proteins of 1 19 amino acids (PLA2-I, preceded by a 19 amino acid signal peptide) and 128 amino acids (PLA2-II. preceded by a 25 amino acid signal peptide), and were derived from four expressed sequence tag (EST) clones. Both proteins were homologous to the N-terminal amino acid sequence of the elm PLA2. They contained twelve conserved cysteine residues and sequences that are likely to represent the Ca(2+)-binding loop and active-site motif, which are characteristic of animal secretory PLA2s. A soluble PLA2s activity was purified 145 000-fold from green rice shoots. This had the same biochemical characteristics as the elm and animal secretory PLA2s. The purified rice PLA2 consisted of two proteins, with a molecular weight of 12 440 and 12 920, that had identical N-terminal amino acid sequences. This sequence was different from but homologous to the PLA2-I and PLA2-II sequences. Taken together, the results suggest that at least three different low-molecular-weight PLA2s are expressed in green rice shoots. Southern blot analysis suggested that multiple copies of such genes are likely to occur in the rice and in other plant genomes.

Enhancing activity and phospholipase A2 activity: two independent activities present in the enhancing factor molecule.

Enhancing factor (EF), a molecule that increases the binding of epidermal growth factor (EGF) to A431 cells, was first isolated in our laboratory from mouse intestines, and subsequently shown to be a secretory form of phospholipase A2 (PLA2) [Mulherkar, Rao, Wagle, Patki and Deo (1993) Biochem. Biophys. Res. Commun. 195, 1254-1263]. We had proposed earlier that EF increases the binding of EGF by first binding to its own cell-surface receptor [identified as a 100 kDa molecule; Mulherkar and Deo (1986) J. Cell. Physiol. 127, 183-188], and then by creating a binding site for EGF. However, due to its PLA2 activity, there was a possibility that EF, by its phospholipase activity could be unmasking cryptic EGF receptors on the cell surface, thereby increasing the number of binding sites for EGF. To test whether enhancing activity and phospholipase activity are independent of each other, a series of mutations were created using the full-length EF cDNA as a template, expressed in 293 cells and the mutant recombinant proteins checked for EF as well as PLA2 activities. Our studies have shown that one of the mutant EF proteins, lacking PLA2 activity, retains EF activity. This demonstrates unambiguously that EF and PLA2 activities are two independent activities in the same molecule. Mutation in the Ca2+-binding loop resulted in loss of EF activity, thereby demonstrating that EF activity is Ca2+-dependent. The N-terminal region of the EF molecule appears to be crucial for the enhancing activity.

Expression, purification and characterization of a human serine-dependent phospholipase A2 with high specificity for oxidized phospholipids and platelet activating factor.

Using expressed sequence tag (EST) homology screening, a new human serine dependent phospholipase A2 (HSD-PLA2) was identified that has 40% amino acid identity with human low density lipoprotein-associated phospholipase A2 (LDL-PLA2). HSD-PLA2 has very recently been purified and cloned from brain tissue but named PAF-AH II. However, because the homology with LDL-PLA2 suggested a broader substrate specificity than simply platelet activating factor (PAF), we have further characterized this enzyme using baculovirus-expressed protein. The recombinant enzyme, which was purified 21-fold to homogeneity, had a molecular mass of 44kDa and possessed a specific activity of 35 micromol min-1 mg-1 when assayed against PAF. Activity could also be measured using 1-decanoyl-2-(4-nitrophenylglutaryl) phosphate (DNGP) as substrate. Like LDL-PLA2, HSD-PLA2 was able to hydrolyse oxidatively modified phosphatidylcholines when supplemented to human LDL prior to copper-stimulated oxidation. A GXSXG motif evident from sequence information and inhibition of its activity by 3,4, dichloroisocoumarin, diisopropyl fluorophosphate (DFP) and diethyl p-nitrophenyl phosphate (DENP) confirm that the enzyme is serine dependent. Moreover, sequence comparison indicates the HSD-PLA2 probable active site triad positions are shared with LDL-PLA2 and a C. elegans homologue, suggesting that these sequences comprise members of a new enzyme family. Although clearly structurally related with similar substrate specificities further work reported here shows HSD-PLA2 and LDL-PLA2 to be different with respect to chromosomal localization and tissue distribution.

The mechanism of inhibition of ryanodine receptor channels by imperatoxin I, a heterodimeric protein from the scorpion Pandinus imperator.

We present an in-depth analysis of the structural and functional properties of Imperatoxin I (IpTxi), an approximately 15-kDa protein from the venom of the scorpion Pandinus imperator that inhibits Ca2+ release channel/ryanodine receptor (RyR) activity (Valdivia, H. H., Kirby, M. S., Lederer, W. J., and Coronado, R. (1992) Proc. Natl. Acad. Sci. U.S.A. 89, 12185-12189). A cDNA library was prepared from the venomous glands of this scorpion and used to clone the gene encoding IpTxi. From a single continuous messenger RNA, the information coding for the toxin is translated into two mature polypeptide subunits after elimination of a basic pentapeptide. The IpTxi dimer consists of a large subunit (104-amino acid residues) with phospholipase A2 (PLA2) activity covalently linked by a disulfide bond to a smaller (27 amino acid residues), structurally unrelated subunit. Thus, IpTxi is a heterodimeric protein with lipolytic action, a property that is only shared with beta-bungarotoxins, a group of neurotoxins from snake venoms. The enzymatic subunit of IpTxi is highly homologous to PLA2 from bee (Apis mellifera) and lizard (Heloderma horridum) venoms. The small subunit has no significant similarity to any other known peptide, including members of the Kunitz protease inhibitors superfamily that target the lipolytic effect of beta-bungarotoxins. A synthetic peptide with amino acid sequence identical to that of the small subunit failed to inhibit RyR. On the other hand, treatment of IpTxi with p-bromophenacylbromide, a specific inhibitor of PLA2 activity, greatly reduced the capacity of IpTxi to inhibit RyRs. These results suggested that a lipid product of PLA2 activity, more than a direct IpTxi-RyR interaction, was responsible for RyR inhibition.

Toxin compartmentation and delivery in the Cnidaria: the nematocyst's tubule as a multiheaded poisonous arrow.

With the aid of dialysis and ion exchange chromatography, a new polypeptide toxin was purified from the tentacles of the Mediterranean jellyfish Rhopilema nomadica. The amino acid sequence of the N-terminal segment of the new toxin revealed that it is a phospholipase A2 (PhA2) toxin closely resembling those previously isolated from reptile and hymenopterous venoms. The occurrence of a PhA2 toxin in the jellyfish tentacles may explain both their local (dermanecrotic) and systemic (cardiac-respiratory) effects upon human envenomation. We used an antibody raised against the above toxin as a probe to explore, for the first time, the site of toxin allocation in cnidarian nematocysts and its morphological route of delivery. Our immunocytochemical approach revealed that the toxin is stored on the outer ("cytoplasmic") surface of the inverted tubule folded in the capsule of the resting nematocyst. During discharge the toxin is translocated to the internal surface surrounding the lumen of the everting tubule, and its delivery via extended spirally arrayed barbs is apparently propelled by the high hydrostatic pressure of the capsule. This is a unique example where subcellular translocation and transfer of a polypetide is driven by mechanical forces.

A cytosolic phospholipase A2 from potato tissues appears to be patatin.

Phospholipase (PL) A2 is involved in signal transduction in the resistance reaction that is induced in potato by inoculation of an incompatible race of Phytophthora infestans, the late blight fungus, or by treatment with fungal elicitor hyphal wall components (Kawakita et al. 1993). In this study, PLA2 in the soluble fraction from potato tuber was purified. The following results suggested that the enzyme was, in fact, patatin: (1) the molecular mass of the purified enzyme was 40 kDa, the same as that of patatin; (2) the pI of the purified enzyme was approximately 4.75, which corresponds to that of patatin; and (3) the amino-terminal amino acid sequence of the purified enzyme showed a high degree of homology to that of patatin. Patatin is known as a storage protein of the potato tuber and it has been shown to have esterase activity. However, other enzymatic activities and the function(s) of patatin are unknown. We investigated the PLA activities of the purified patatin. The PLA2 activity of the patatin was much higher than the PLA1 activity, even though the protein exhibited both activities. The PLA2 activity of the enzyme was particularly apparent when phosphatidylcholine with linoleic acid at the sn-2 position was used as substrate. Lower activity was observed with phosphatidylcholine with palmitic acid, oleic acid and arachidonic acid at the sn-2 position.

cDNA cloning and sequence analysis of a lysine-49 phospholipase A2 myotoxin from Agkistrodon contortrix laticinctus snake venom.

A cDNA clone (ACLPREMT1) for a K49 phospholipase A2 (PLA2) myotoxin from Agkistrodon contortrix laticinctus snake venom was isolated from a venom gland library and sequenced. The ACLPREMT1 cDNA is 734 bp in length and has an open reading frame of 414 bp. It codes for a K49 phospholipase A2 with 121 amino acid residues. The sequence of the first 20 amino acid residues of the predicted mature protein matches exactly with the N-terminal sequence of the purified myotoxin. Comparison of the ACLPREMT1 cDNA sequence with PLA2 cDNAs from Viperidae snakes shows that it has a similar organization: highly conserved 5' and 3' untranslated regions, a sequence encoding a 16-amino acid signal peptide, and the mature protein coding region. Comparison of the predicted sequence of ACL myotoxin and other K49 and D49 PLA2 myotoxins shows that, despite the homology (85-97%) at the nucleotide level, K49 PLA2 myotoxins are distinct from the D49 PLA2s and form a highly conserved protein family. In addition to the substitution of D49K, K49 myotoxins have several invariant residues not found in the D49 group, including K7, K78, K80, K115, and K116. There are also some conserved residues (E12, T13, K16, and N17) in all myotoxic proteins, including some neurotoxic and myotoxic PLA2s. Molecular modeling of ACL myotoxin shows that these residues are close together on the surface of one side of the molecule which suggests a potential site for binding to membranes and/or induction of toxicity.

Active recombinant human cytosolic phospholipase A2 is expressed in Escherichia coli.

The cDNA encoding human cytosolic phospholipase A2 (cPLA2) has been subcloned into a prokaryotic pET16b expression vector which also encodes an amino-terminal deca-histidine affinity tag to facilitate purification of the recombinant enzyme. Soluble, active fusion protein, designated His-cPLA2, has been obtained reproducibly from this expression system using the E. coli strain BL21 (DE3). The protein has been purified to homogeneity in four steps and the mass confirmed by electrospray mass spectrometry. His-cPLA2 was characterized by kinetic analysis which demonstrated that the enzyme is similar to native cPLA2 in all respects investigated. Specifically, the enzyme binds to anionic vesicles containing substrate, and acts processively on these vesicles. Enzymatic activity is supported by the presence of Ca2+ and several other divalent metal ions, and is inhibited by several transition metal ions. Finally, the enzyme demonstrates lysophospholipase activity and exhibits a high selectivity for sn-2 arachidonyl esters. This prokaryotic expression system yields moderate amounts of unmodified recombinant His-cPLA2 and is advantageous for rapid production of protein and mutational analyses.

Prostaglandin E2 production by uterine stromal cell line UIII: regulation by estradiol and evidence of an ethanol action.

We have recently established a uterine stromal cell line (UIII). The purpose of the present study was to determine whether these cells have retained the ability to produce and release prostaglandins after several passages and whether this production was regulated. UIII cells, grown in basal conditions, released a very low amount (40.6 +/- 2.9 pg/24h/10(6) cells) of prostaglandin E2 (PGE2) though cellular content was more elevated (192 +/- 23 pg/10(6) cells). Ethanol increased the cellular content but decreased the release of PGE2, whereas estradiol 17 beta (E2) increased it in a dose-dependent manner, but had no effect on the cellular content. The PGE2 release by cells grown in medium containing 10 microM arachidonate (AA) reached 1.39 +/- 0.05 ng/24h/10(6) cells, and was further increased to 2.1 +/- 0.1 ng/24 h/10(6) cells by the addition of ethanol. Under the latter condition, E2 was ineffective. This study also showed that UIII cells expressed an immunoreactive pancreatic type 14 kD PLA2. A substantial increased 14 kD PLA2 expression was observed in ethanol-treated cells, suggesting that ethanol-effect on prostaglandin production might be partly mediated by PLA2 increase. Medium supplementation with arachidonate also resulted in a significant increase of intracellular 14 kD PLA2 expression. The present results showed that uterine stromal UIII cells have retained the enzymatic machinery to produce PGE2. Moreover these data demonstrate that ethanol and E2 affect differently uterine PGE2 production.