Cytotoxicity of the nematocyst venom from the sea anemone Aiptasia mutabilis

Crude extracts of the coelenterate Aiptasia mutabilis (Anthozoa, Aiptasiidae) nematocysts have been tested for their cytotoxicity of Vero and HEp-2 cells monolayers. The results indicate that the nematocyte venom contains one or more toxins with an extremely powerful cytolytic activity. An extract containing the equivalent of as little as 0.6 nematocysts/microL is sufficient to induce significant cellular necrosis, and IC50 can be estimated to be ca. 2 nematocysts/microL on Vero cells. These values are 1-2 orders of magnitude lower than those reported so far for other sea anemone venoms. The extreme potency is accompanied by poor stability of the venom that is readily inactivated by moderate heat and by buffers at non-neutral pH values. The extract is unstable even when kept for short times at 4 degrees C, or after storage at -20 degrees C. Separation of crude venom by affinity chromatography on ConA-Sepharose allowed us to identify two main components with molecular masses of 95 and 31 kDa, respectively, as responsible for the cytolytic properties of A. mutabilis nematocyst extract.     

Deconstructing a Complex Molecular Phenotype: Population-Level Variation in Individual Venom Proteins in Eastern Massasauga Rattlesnakes (<Emphasis Type="Italic">Sistrurus c. catenatus</Emphasis>)

Identifying the molecular basis for complex adaptations such as the toxic proteins used by venomous snakes to subdue and digest prey is an important step in understanding the evolutionary and functional basis for such traits. Recent proteomics-based analyses have made possible the identification of all constituent proteins in whole venom samples. Here we exploit this advance to study patterns of population-level variation in venom proteins from 254 adult eastern massasauga rattlesnakes (Sistrurus c. catenatus) collected from 10 populations. Analysis of presence–absence variation in specific proteins from 1D PAGE gels shows that: (1) The frequency spectra for individual protein bands is U-shaped with a large number of specific proteins either being consistently “common” or “rare” across populations possibly reflecting functional differences. (2) Multivariate axes which summarize whole venom variation consist of bands from all major types of proteins implying the integration of functionally distinct components within the overall venom phenotype. (3) There is significant differentiation in venom proteins across populations and the specific classes of proteins contributing to this differentiation have been identified. (4) Levels of population differentiation in venom proteins are not correlated with levels of neutral genetic differentiation, or genetically effective population sizes which argues that patterns of venom variation are not simply a consequence of population structure but leaves open the role of selection in generating population differences in venom. Our results identify particular classes of venom proteins and their associated genes as being fruitful targets for future studies of the molecular and functional basis for this complex adaptive phenotype.     

Purification and properties of a binding protein for branched-chain amino acids in Pseudomonas aeruginosa.

A binding protein for branched-chain amino acids was purified to a homogeneous state from shock fluid of Pseudomonas aeruginosa PML14. It was a monomeric protein with an apparent molecular weight of 4.3 x 10(4) or 4.0 x 10(4) by sodium dodecyl sulfate-polyacrylamide gel electrophoresis or gel filtration, respectively. The isoelectric point was determined to be pH 4.1 by electrofocusing. Amino acid analysis of the protein showed that aspartic acid, glutamic acid, glycine, and alanine were major components and that the protein contained only one residue each of tryptophan and cysteine per molecule. The binding protein contained no sugar. The binding activity of the protein was specific for the branched-chain amino acids. The protein also bound alanine and threonine with lower affinity. The dissociation constants of this protein for leucine, isoleucine, and valine were found to be 0.4, 0.3, and 0.5 microM, respectively. Mutants defective in the production of the binding protein were identified among the mutants deficient in a transport system for branched-chain amino acids (LIV-I). The revertants from these mutants to LIV-I-positive phenotype simultaneously recovered normal levels of the binding protein. These findings suggest strongly the association of the binding protein with the LIV-I transport system.     

Composition of the protoplast membrane from Saccharomyces cerevisiae

1. Protoplasts of Saccharomyces cerevisiae N.C.Y.C. 366 were prepared by incubating washed exponential-phase cells in buffered mannitol (0.8m) containing 10mm-magnesium chloride and snail gut juice (about 8mg. of protein/ml. of reaction mixture). Protoplast membranes were obtained by bursting protoplasts in ice-cold phosphate buffer (pH7.0) containing 10mm-magnesium chloride. 2. Protoplast membranes accounted for 13-20% of the dry weight of the yeast cell. They contained on a weight basis about 39% of lipid, 49% of protein, 6% of sterol (assayed spectrophotometrically) and traces of RNA and carbohydrate (glucan+mannan). 3. The principal fatty acids in membrane lipids were C(16:0), C(16:1) and C(18:1) acids. Whole cells contained a slightly greater proportion of C(16:0) and a somewhat smaller proportion of C(18:1) acids. Membrane and whole-cell lipids included monoglycerides, diglycerides, triglycerides, sterols, sterol esters, phosphatidylcholine, lysophosphatidylcholine, phosphatidylethanolamine and phosphatidylinositol+phosphatidylserine. Phosphorus analyses on phospholipid fractions from membranes and whole cells showed that membranes contained proportionately more phosphatidylethanolamine and phosphatidylinositol+phosphatidylserine than whole cells, which in turn were richer in phosphatidylcholine. Phospholipid fractions from membranes and whole cells had similar fatty acid compositions. 4. Membranes and whole cells contained two major and three minor sterol components. Gas-liquid chromatography, mass spectrometry and u.v. and i.r. spectra indicated that the major components were probably Delta(5,7,22,24(28))-ergostatetraen-3beta-ol and zymosterol. The minor sterol components in whole cells were probably episterol (or fecosterol), ergosterol and a C(29) di-unsaturated sterol. 5. Defatted whole cells contained slightly more glutamate and ornithine and slightly less leucine and isoleucine than membranes. Otherwise, no major differences were detected in the amino acid compositions of defatted whole cells and membranes.     

Age and diet influence the composition of venom from the endoparasitic wasp Pimpla turionellae L. (Hymenoptera: Ichneumonidae)

Venom from the endoparasitic wasp Pimpla turionellae L. (Hymenoptera: Ichneumonidae) was found to contain a complex mixture of biogenic amines, noradrenalin, phospholipase B, and several proteins and peptides. The amount of noradrenalin and serotonin was found to be highest in venom from newly emerged wasps and decreased with age. Histamine was detected in minute amounts in comparison to the other venom components, and declined with increasing age of the parasitoids. Total peptides and proteins detected by reversed-phase HPLC increased with host age. Old-aged (30-33 days after emergence) wasps contained 2-fold more phospholipase B than young (<10 days [d] old) or medium-aged (10-22-d-old) females. Increases in phospholipase B alone, however, did not account for all changes in total venom protein because by 40 days after emergence, the levels of this enzyme began to decline while the amount of total protein was higher than in younger wasps. For all venom components detected, the amount present in the venom sharply decreased following host exposure. This was presumed to be the result of venom depletion associated with envenomation. Consistent with this view were the modest increases in venom components in wasps displaying a decreased rate of parasitization. When adult females were offered honey alone or in combination with feeding on hosts, no significant changes in venom composition were observed, with the exception of noradrenalin, which was found to be 5 times higher in concentration in wasps fed honey only. These results suggest that wasp age and incidence of parasitism are more important features influencing the composition of venom than the diet of adult females.     

Hyaluronidase and esterase activities of the venom of the poisonous brown recluse spider

Venom of Loxosceles reclusa free from impurities was expressed from venom glands collected by microdissection. Polyacrylamide gel electrophoresis of the venom at pH 8.3 demonstrated 7 or 8 major plus 3 or 4 minor components. Upon electrophoresis at pH 4.9 two major components plus 3 or 4 minor components were noted. Monophoretic hyaluronidase prepared by Sephadex gel filtration and electrophoresis at pH 8.3 exhibited optimum activity from pH 5.0 to 6.6. Sodium dodecyl sulfate gel electrophoresis of purified hyaluronidase revealed two components with estimated molecular weights of 33,000 and 63,000. The purified hyaluronidase exhibited activity against chondroitin sulfate, types A, B, and C at approximately 20–30% of that upon hyaluronic acid. The enzyme was inhibited 10–20% by the heavy metal ions, Fe⁺³ and Cu⁺². Rabbit antivenom inhibited the spreading effect of whole venom in vivo and completely inhibited hyaluronidase in vitro.Incorporation of [¹⁴C]leucine into the spider venom led to the separation of hyaluronidase from the dermonecrotic activity of the venom.The venom demonstrated activity against carbobenzoxy-l-tyrosine-p-nitrophenyl ester and β-naphthylacetate which was inhibited approximately 65% by 2.5 × 10^?3m levels of EDTA and EGTA but not by 2.5 × 10^?4mo-phenanthroline. The esterase activity resisted concentrations of p-chloromercuribenzoate which totally inactivated papain. The venom appeared devoid of collagenase, dipeptidase, acetylcholinesterase, phosphodiesterase, ribonuclease A, and deoxyribonuclease.     

Snake venom components and their cross-reactivity: a review

Snake venoms are complex mixtures of organic and inorganic compounds, many of which display biological activity. It has been demonstrated that antisera raised against whole venom or a single purified venom protein from one species of snake will react with proteins in the venom of other species. This cross-reactivity between species may have applications in determining snake phylogeny, but recent studies on the variation of venom components within a species make these evolutionary conclusions questionable.     

Molecular components and toxicity of the venom of the solitary wasp, Anoplius samariensis

The solitary spider wasp, Anoplius samariensis, is known to exhibit a unique long-term, non-lethal paralysis in spiders that it uses as a food source for its larvae. However, neither detailed venom components nor paralytic compounds have ever been characterized. In this study, we examined the components in the low molecular weight fraction of the venom and the paralytic activity of the high molecular weight fraction. The major low molecular weight components of the venom were identified as gamma-aminobutyric acid and glutamic acid by micro-liquid chromatography/electrospray ionization mass spectrometry and nuclear magnetic resonance spectrometry analysis. The sodium dodecyl sulfate-polyacrylamide gel electrophoresis and mass analysis revealed that the A. samariensis venom contained the various proteins with weights of 4-100 kDa. A biological assay using Joro spiders (Nephila clavata) clearly showed that the high molecular weight fraction of the venom prepared by ultrafiltration exerted as potent non-lethal long-term paralysis as the whole venom, whereas the low molecular weight fraction was devoid of any paralytic activity. These results indicated that several venomous proteins in the high molecular weight fraction are responsible for the paralytic activity. Furthermore, we determined the primary structure of one component designated As-fr-19, which was a novel multiple-cysteine peptide with high sequence similarity to several sea anemone and snake toxins including dendrotoxins, rather than any insect toxic peptides identified so far. Taken together, our data showed the unprecedented molecular and toxicological profiles of wasp venoms.     

Proteomic analysis of ontogenetic and diet-related changes in venom composition of juvenile and adult Dusky Pigmy rattlesnakes (Sistrurus miliarius barbouri)

Snake venom proteins show high levels of variation at the level of the individual yet the environmental and molecular mechanisms that generate this diversity remain unclear. Here we report the results of a controlled feeding experiment combined with proteomic analyses of periodically collected venom samples to assess the roles of ontogenetic and diet-related effects on venom composition of captive juvenile and adult Dusky Pigmy rattlesnakes (Sistrurus miliarius barbouri). Juvenile snakes fed from birth with mice, lizards, or frogs showed little evidence for an ontogenetic shift in venom composition from 5 to 26 months in terms of substantial changes in the relative abundance of major classes of venom toxins. However, there were fine-scale changes in the relative abundance of D49-PLA? 15, PI-SVMPs, and PIII-SVMP 28, and a decline in the abundance of other PIII-SVMPs. Although juveniles raised on different prey exhibited distinct relative toxin compositional change rates, at 26 months old, their venoms showed similar patterns of protein composition suggesting little effect of diet on the overall make-up of venom in snakes this age or younger. In contrast, adult females raised on different prey over a 26 month period showed prey-related changes in the relative abundance of major protein families from initial to final samples. Specifically, mouse-fed females showed substantial increases in the relative abundance of total PLA?s and serine proteinases of 95% and >100%, respectively, whereas comparable values for lizard- (42% and -22%) and frog-fed females (2% and 11%) were distinctly smaller in magnitude. Venom from adult snakes fed on different prey also showed distinct changes in the abundance of PLA? molecules 15, 19a, and 19, which were, respectively, (>100%, 33%, 63%), (>100%, 0%, 35%), and (71%, 20%, -4%) for the mice-, lizard-, and frog-diet. Venom from snakes raised on frogs contained a small (1.1%) but consistent amount of a PLA? molecule (15a) not present in snakes fed on mice or lizards. This work provides evidence that venom composition is somewhat plastic in both juvenile and adult S. m. barbouri and that, at least in adults, prey consumed may influence the relative abundance of possibly functionally-distinct classes of venom proteins.     

Assay and properties of the hemolysis activity of pure venom from the nematocysts of the acontia of the sea anemone Aiptasia pallida

Pure venom from the acontial nematocysts of the sea anemone Aiptasia pallida was isolated and an assay for the hemolysis activity of the venom devised. The assay is rapid, sensitive, and reproducible. Venom concentrations as low as 0.1 μg protein/ ml were accurately assayed. The properties of the hemolysis activity were analyzed using techniques similar to those used to study enzyme-catalyzed reactions. The biochemical events underlying venom-induced lysis required the direct participation of millimolar levels of Ca²⁺. The slight variability of the apparent K_m for Ca²⁺ at different venom concentrations appeared to be due to the release of some material(s) from lysing cells. Both Sr²⁺ and Mg²⁺ weakly substituted for Ca²⁺. Inhibition of lysis by EDTA was reversed by Ca²⁺. Small monovalent cations, such as Na⁺ or K⁺, appeared to be involved in the venom-induced alteration of the red cell membrane so that lysis could occur. The venom's hemolysis activity was stabilized in solution only if the concentration of the venom proteins was high while also in the presence of at least the equivalent of 0.15 m NaCl.     

沙蜇(Stomolophus meleagris)刺丝囊毒素生物活性的初步分析

从沙蜇触手提取刺丝囊细胞毒素,并对该毒素进行溶血活性、致死活性、SOD活性和抗肿瘤活性的研究。结果显示,沙蜇毒素具有明显的溶血活性,其半溶血率(HU50)约为10.5μg/ml;该毒素还对草鱼显示出较强的致死活性,半致死量(LD50)为50μg毒素/g鱼;同时该毒素具有明显的SOD活性和抗肿瘤活性,当毒素浓度为18μg/ml时其总SOD活性为161 U/mg,而毒素浓度为1 mg/ml时,该毒素对肝癌细胞Bel-7402表现出显著的抑制效果,其抑制率达到54.9%。因此,有必要对沙蜇毒素内的生物活性组分进行深入研究,为沙蜇毒素的开发利用提供依据。     

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.     

Venom regeneration in the centipede Scolopendra polymorpha: evidence for asynchronous venom component synthesis

Venom regeneration comprises a vital process in animals that rely on venom for prey capture and defense. Venom regeneration in scolopendromorph centipedes likely influences their ability to subdue prey and defend themselves, and may influence the quantity and quality of venom extracted by researchers investigating the venom's biochemistry. We investigated venom volume and total protein regeneration during the 14-day period subsequent to venom extraction in the North American centipede Scolopendra polymorpha. We further tested the hypothesis that venom protein components, separated by reversed-phase fast protein liquid chromatography (RP-FPLC), undergo asynchronous (non-parallel) synthesis. During the first 48 h, volume and protein mass increased linearly. Protein regeneration lagged behind volume regeneration, with 65–86% of venom volume and 29–47% of protein mass regenerated during the first 2 days. No additional regeneration occurred over the subsequent 12 days, and neither volume nor protein mass reached initial levels 7 months later (93% and 76%, respectively). Centipede body length was negatively associated with rate of venom regeneration. Analysis of chromatograms of individual venom samples revealed that 5 of 10 chromatographic regions and 12 of 28 peaks demonstrated changes in percent of total peak area (i.e., percent of total protein) among milking intervals, indicating that venom proteins are regenerated asynchronously. Moreover, specimens from Arizona and California differed in relative amounts of some venom components. The considerable regeneration of venom occurring within the first 48 h, despite the reduced protein content, suggests that predatory and defensive capacities are minimally constrained by the timing of venom replacement.     

Membrane structure and function. Mechanism of hemolysis induced by nematocyst venom: roles of phospholipase A and direct lytic factor.

Pure venom from the acontial nematocysts of the sea anemone Aiptasia pallida exhibited phospholipase A (phosphatide acyl-hydrolase; EC 3.1.1.4) activity on a mixture of free phospholipids. Diethyl aminoethyl cellulose fractionation of the venom gave four distinct protein peaks with the phospholipase A activity being restricted to fractions III and IV. These two fractions tested separately also were able to lyse red blood cells weakly. Fractions I and II enhanced the hemolytic activity of fractions III and IV, with fractions I and III giving as much as ninefold enhancement over that of III alone. Fraction I appears analogous to the direct lytic factor of some snake and bee venoms. Fraction III, which could not appreciably hydrolyze the phospholipids of the intact red cell membrane, was able to do so in the presence of fraction I. The sequential interactions of these two nematocyst venom proteins with the red blood cell membrane to produce hemolysis is discussed.     

Molecular identification of Rab7 (ApRab7) in Aiptasia pulchella and its exclusion from phagosomes harboring zooxanthellae

The establishment and maintenance of the intracellular association between marine cnidarians and their symbiotic microalgae is essential to the well being of coral reef ecosystems; however, little is known concerning its underlying molecular mechanisms. In light of the critical roles of the small GTPase, Rab7, as a key regulator of vesicular trafficking, we cloned and characterized the Rab7 protein in the endosymbiosis system between the sea anemone, Aiptasia pulchella and its algal symbiont, Symbiodinium spp. The Aiptasia homologue of Rab7 proteins, ApRab7 is 88% identical to human Rab7 protein and contains all Rab-specific signature motifs. Results of EGFP reporter analysis, protein fractionation, and immunocytochemistry support that ApRab7 is located in late endocytic and phagocytic compartments and is able to promote their fusion. Significantly, the majority of phagosomes containing live symbionts that either have taken long residency in, or were newly internalized by Aiptasia digestive cells did not contain detectable levels of ApRab7, while most phagosomes containing either heat-killed or photosynthesis-impaired symbionts were positive for ApRab7 staining. Overall, our data suggest that live algal symbionts persist inside their host cells by actively excluding ApRab7 from their phagosomes, and thereby, establish and/or maintain an endosymbiotic relationship with their cnidarian hosts.     

Purification and immunological studies of selenoprotein A of the clostridial glycine reductase complex

One of the essential catalytic components of the clostridial glycine reductase complex is a selenium-containing protein, selenoprotein A. An improved method for the purification of selenoprotein A has been developed that yields milligram quantities of the protein in a few relatively simple steps. Ferredoxin and rubredoxin can be recovered in pure form as by-products of the procedure. The high resolving capabilities of an anion exchange high pressure liquid chromatography step were exploited in these purification protocols. For effective antibody production, the antigenicity of selenoprotein A was increased by coupling the pure protein via its sulfhydryl/selenol group(s) to the amino groups of bovine serum albumin using m-maleimidobenzoyl-N-hydroxysuccinimide ester. The high titer sheep antisera that were elicited were used to study the mechanisms of selenium incorporation into selenoprotein A. Immunoblot analysis of sodium dodecyl sulfate-polyacrylamide gels was employed to monitor the synthesis of selenoprotein A by Clostridium sticklandii as a function of growth conditions. Cells grown under limiting conditions (1 nM) of selenium contained only 1-2% of normal levels of active selenoprotein A and no precursor forms were detected after DEAE-high pressure liquid chromatography fractionation of extracts. Conversely, cells grown with optimal (1 microM) selenium levels contained maximal amounts of seleno-protein A and expressed full glycine reductase activity.     

Subspecific variations in Agkistrodon contortrix venoms.

1. Commercially available preparations of venoms of three subspecies of copperhead snake (Agkistrodon contortrix) were compared as to toxicity, enzymatic activities, effect on a nerve-muscle preparation and capacity to induce clotting of a fibrinogen solution or plasma. 2. Northern copperhead venom contained apparent neurotoxic activities that were not present in broadbanded copperhead venom and only partially present in southern copperhead venom. 3. Procoagulant activity was demonstrated in whole northern copperhead venom in the absence of exogenous calcium. Procoagulant activity was present in certain isolated fractions of southern and broadbanded copperhead venoms, but was not apparent in the whole venoms. 4. Differences were noted in the levels of enzyme activities and electrophoretic patterns of the three venoms.