Your search keyword '"Dreon MS"' showing total 33 results

1. A highly stable, nondigestible lectin fromPomacea diffusaunveils clade-related protection systems in apple snail eggs

Author

Brola, TR, primary, Dreon, MS, additional, Qiu, JW, additional, and Heras, H, additional

Published

2020

2. Phylogenetic variations in a novel family of hyperstable apple snail egg proteins: insights into structural stability and functional trends.

Author

Pasquevich MY, Dreon MS, Diupotex-Chong ME, and Heras H

Subjects

Animals, Protein Stability, Ovum chemistry, Ovum metabolism, Snails genetics, Snails physiology, Snails chemistry, Phylogeny, Egg Proteins genetics, Egg Proteins chemistry, Egg Proteins metabolism

Abstract

The relationship between protein stability and functional evolution is little explored in proteins purified from natural sources. Here, we investigated a novel family of egg proteins (Perivitellin-1, PV1) from Pomacea snails. Their remarkable stability and clade-related functions in most derived clades (Canaliculata and Bridgesii) make them excellent candidates for exploring this issue. To that aim, we studied PV1 (PpaPV1) from the most basal lineage, Flagellata. PpaPV1 displays unparalleled structural and kinetic stability, surpassing PV1s from derived clades, ranking among the most hyperstable proteins documented in nature. Its spectral features contribute to a pale egg coloration, exhibiting a milder glycan binding lectin activity with a narrower specificity than PV1s from the closely related Bridgesii clade. These findings provide evidence for substantial structural and functional changes throughout the genus' PV1 evolution. We observed that structural and kinetic stability decreased in a clade-related fashion and was associated with large variations in defensive traits. For instance, pale PpaPV1 lectin turns potent in the Bridgesii clade, adversely affecting gut morphology, while giving rise to brightly colored PV1s providing eggs with a conspicuous, probably warning signal in the Canaliculata clade. This work provides a comprehensive comparative analysis of PV1s from various apple snail species within a phylogenetic framework, offering insights into the interplay among their structural features, stability profiles and functional roles. More broadly, our work provides one of the first examples from natural evolution showing the crucial link among protein structure, stability and evolution of new functions., Competing Interests: Competing interests The authors declare no competing or financial interests., (© 2024. Published by The Company of Biologists Ltd.)

Published

2024

3. Phylogenetic variations in a novel family of hyperstable apple snail egg proteins: insights into structural stability and functional trends.

Author

Pasquevich MY, Dreon MS, Diupotex-Chong ME, and Heras H

Abstract

The relationship between protein stability and function evolution has not been explored in proteins from natural sources. Here, we investigate the phylogenetic differences of Perivitellin-1 (PV1) a novel family of hyperstable egg carotenoproteins crucial to the reproductive success of Pomacea snails, as they have evolved clade-specific protective functions. We studied P. patula PV1 (PpaPV1) from Flagellata clade eggs, the most basal of Pomacea and compared it with PV1s orthologs from derived clades. PpaPV1 stands as the most stable, with longer unfolding half-life, resistance to detergent unfolding, and therefore higher kinetic stability than PV1s from derived clades. In fact, PpaPV1 is among the most hyperstable proteins described in nature. In addition, its spectral characteristics providing a pale egg coloration, mild lectin activity and glycan specificity are narrower than derived clades. Our results provide evidence indicating large structural and functional changes along the evolution of the genus. Notably, the lectin binding of PpaPV1 is less pronounced, and its glycan specificity is narrower compared to PV1s in the sister Bridgesii clade. Our findings underscore the phylogenetic disparities in terms of structural and kinetic stability, as well as defensive traits like a potent lectin activity affecting the gut morphology of potential predators within the Bridgesii clade or a conspicuous, likely warning coloration, within the Canaliculata clade. This work provides a comprehensive comparison of the structural attributes, stability profiles, and functional roles of apple snail egg PV1s from multiple species within a phylogenetic context. Furthermore, it proposes an evolutionary hypothesis suggesting a trade-off between structural stability and the functional aspects of apple snail's major egg defense protein., Competing Interests: CONFLICT OF INTEREST Authors do not have a conflict of interest to declare.

Published

2023

4. A highly stable, non-digestible lectin from Pomacea diffusa unveils clade-related protection systems in apple snail eggs.

Author

Brola TR, Dreon MS, Qiu JW, and Heras H

Subjects

Animals, Eggs, Gastrointestinal Tract, Mice, Nutritive Value, Lectins, Snails

Abstract

The acquisition of egg protection is vital for species survival. Poisonous eggs from Pomacea apple snails have defensive macromolecules for protection. Here we isolated and characterized a novel lectin called PdPV1 that is massively accumulated in the eggs of Pomacea diffusa and seems part of its protective cocktail. The native protein, an oligomer of ca 256 kDa, has high structural stability, withstanding 15 min boiling and denaturing by SDS. It resists in vitro proteinase digestion and displays structural stability between pH 2.0 and pH 12.0, and up to 85°C. These properties, as well as its subunit sequences, glycosylation pattern, presence of carotenoids, size and global shape resemble those of its orthologs from other Pomacea. Furthermore, like members of the canaliculata clade, PdPV1 is recovered unchanged in feces of mice ingesting it, supporting an anti-nutritive defensive function. PdPV1 also displays a strong hemagglutinating activity, specifically recognizing selected ganglioside motifs with high affinity. This activity is only shared with PsSC, a perivitelline from the same clade ( bridgesii clade). As a whole, these results indicate that species in the genus Pomacea have diversified their egg defenses: those from the bridgesii clade are protected mostly by non-digestible lectins that lower the nutritional value of eggs, in contrast with protection by neurotoxins of other Pomacea clades, indicating that apple snail egg defensive strategies are clade specific. The harsh gastrointestinal environment of predators would have favored their appearance, extending by convergent evolution the presence of plant-like highly stable lectins, a strategy not reported in other animals., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2020. Published by The Company of Biologists Ltd.)

Published

2020

5. Exaptation of two ancient immune proteins into a new dimeric pore-forming toxin in snails.

Author

Giglio ML, Ituarte S, Milesi V, Dreon MS, Brola TR, Caramelo J, Ip JCH, Maté S, Qiu JW, Otero LH, and Heras H

Subjects

Amino Acid Sequence genetics, Animals, Cell Membrane chemistry, Cell Membrane ultrastructure, Complement Membrane Attack Complex chemistry, Complement Membrane Attack Complex immunology, Crystallography, X-Ray, Dimerization, Lectins chemistry, Lectins immunology, Models, Molecular, Perforin chemistry, Perforin immunology, Protein Subunits genetics, Scattering, Small Angle, Snails ultrastructure, X-Ray Diffraction, Complement Membrane Attack Complex ultrastructure, Lectins ultrastructure, Perforin ultrastructure, Protein Conformation

Abstract

The Membrane Attack Complex-Perforin (MACPF) family is ubiquitously found in all kingdoms. They have diverse cellular roles, however MACPFs with pore-forming toxic function in venoms and poisons are very rare in animals. Here we present the structure of PmPV2, a MACPF toxin from the poisonous apple snail eggs, that can affect the digestive and nervous systems of potential predators. We report the three-dimensional structure of PmPV2, at 17.2 Å resolution determined by negative-stain electron microscopy and its solution structure by small angle X-ray scattering (SAXS). We found that PV2s differ from nearly all MACPFs in two respects: it is a dimer in solution and protomers combine two immune proteins into an AB toxin. The MACPF chain is linked by a single disulfide bond to a tachylectin chain, and two heterodimers are arranged head-to-tail by non-covalent forces in the native protein. MACPF domain is fused with a putative new Ct-accessory domain exclusive to invertebrates. The tachylectin is a six-bladed β-propeller, similar to animal tectonins. We experimentally validated the predicted functions of both subunits and demonstrated for the first time that PV2s are true pore-forming toxins. The tachylectin "B" delivery subunit would bind to target membranes, and then the MACPF "A" toxic subunit would disrupt lipid bilayers forming large pores altering the plasma membrane conductance. These results indicate that PV2s toxicity evolved by linking two immune proteins where their combined preexisting functions gave rise to a new toxic entity with a novel role in defense against predation. This structure is an unparalleled example of protein exaptation., Competing Interests: Declaration of Competing Interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2020 Elsevier Inc. All rights reserved.)

Published

2020

6. Novel Role for Animal Innate Immune Molecules: Enterotoxic Activity of a Snail Egg MACPF-Toxin.

Author

Giglio ML, Ituarte S, Ibañez AE, Dreon MS, Prieto E, Fernández PE, and Heras H

Subjects

Animals, Complement Membrane Attack Complex, Mice, Ovum immunology, Ovum metabolism, Perforin metabolism, Enterotoxins pharmacology, Immunity, Innate immunology, Intestinal Mucosa drug effects, Mollusk Venoms pharmacology, Snails immunology

Abstract

Gastropod Molluscs rely exclusively on the innate immune system to protect from pathogens, defending their embryos through maternally transferred effectors. In this regard, Pomacea snail eggs, in addition to immune defenses, have evolved the perivitellin-2 or PV2 combining two immune proteins into a neurotoxin: a lectin and a pore-forming protein from the Membrane Attack Complex/Perforin (MACPF) family. This binary structure resembles AB-toxins, a group of toxins otherwise restricted to bacteria and plants. Many of these are enterotoxins, leading us to explore this activity in PV2. Enterotoxins found in bacteria and plants act mainly as pore-forming toxins and toxic lectins, respectively. In animals, although both pore-forming proteins and lectins are ubiquitous, no enterotoxins have been reported. Considering that Pomacea snail eggs ingestion induce morpho-physiological changes in the intestinal mucosa of rodents and is cytotoxic to intestinal cells in culture, we seek for the factor causing these effects and identified PmPV2 from Pomacea maculata eggs. We characterized the enterotoxic activity of PmPV2 through in vitro and in vivo assays. We determined that it withstands the gastrointestinal environment and resisted a wide pH range and enzymatic proteolysis. After binding to Caco-2 cells it promoted changes in surface morphology and an increase in membrane roughness. It was also cytotoxic to both epithelial and immune cells from the digestive system of mammals. It induced enterocyte death by a lytic mechanism and disrupted enterocyte monolayers in a dose-dependent manner. Further, after oral administration to mice PmPV2 attached to enterocytes and induced large dose-dependent morphological changes on their small intestine mucosa, reducing the absorptive surface. Additionally, PmPV2 was detected in the Peyer's patches where it activated lymphoid follicles and triggered apoptosis. We also provide evidence that the toxin can traverse the intestinal barrier and induce oral adaptive immunity with evidence of circulating antibody response. As a whole, these results indicate that PmPV2 is a true enterotoxin, a role that has never been reported to lectins or perforin in animals. This extends by convergent evolution the presence of plant- and bacteria-like enterotoxins to animals, thus expanding the diversity of functions of MACPF proteins in nature., (Copyright © 2020 Giglio, Ituarte, Ibañez, Dreon, Prieto, Fernández and Heras.)

Published

2020

7. Hemocyanin of the caenogastropod Pomacea canaliculata exhibits evolutionary differences among gastropod clades.

Author

Chiumiento IR, Ituarte S, Sun J, Qiu JW, Heras H, and Dreon MS

Subjects

Animals, Evolution, Molecular, Gastropoda chemistry, Gene Expression Profiling, Genomics, Hemocyanins metabolism, Mass Spectrometry, Microscopy, Electron, Transmission, Models, Molecular, Protein Conformation, Protein Domains, Protein Isoforms chemistry, Protein Isoforms metabolism, Proteomics, Gastropoda genetics, Gastropoda metabolism, Hemocyanins chemistry, Hemocyanins genetics

Abstract

Structural knowledge of gastropod hemocyanins is scarce. To better understand their evolution and diversity we studied the hemocyanin of a caenogastropod, Pomacea canaliculata (PcH). Through a proteomic and genomic approach, we identified 4 PcH subunit isoforms, in contrast with other gastropods that usually have 2 or 3. Each isoform has the typical Keyhole limpet-type hemocyanin architecture, comprising a string of eight globular functional units (FUs). Correspondingly, genes are organized in eight FUs coding regions. All FUs in the 4 genes are encoded by more than one exon, a feature not found in non- caenogastropods. Transmission electron microscopy images of PcH showed a cylindrical structure organized in di, tri and tetra-decamers with an internal collar structure, being the di and tri-decameric cylinders the most abundant ones. PcH is N-glycosylated with high mannose and hybrid-type structures, and complex-type N-linked glycans, with absence of sialic acid. Terminal β-N-GlcNAc residues and nonreducing terminal α-GalNAc are also present. The molecule lacks O-linked glycosylation but presents the T-antigen (Gal-β1,3-GalNAc). Using an anti-PcH polyclonal antibody, no cross-immunoreactivity was observed against other gastropod hemocyanins, highlighting the presence of clade-specific structural differences among gastropod hemocyanins. This is, to the best of our knowledge, the first gene structure study of a Caenogastropoda hemocyanin., Competing Interests: The authors have declared that no competing interests exist.

Published

2020

8. Biosynthesis in the Albumen Gland-Capsule Gland Complex Limits Reproductive Effort in the Invasive Apple Snail Pomacea canaliculata.

Author

Cadierno MP, Saveanu L, Dreon MS, Martín PR, and Heras H

Subjects

Animals, Exocrine Glands metabolism, Reproduction physiology, Introduced Species, Snails physiology

Abstract

High fecundity often contributes to successful invasives. In molluscs, this may be facilitated by the albumen gland-capsule gland complex, which in gastropods secretes the egg perivitelline fluid that nourishes and protects embryos. The biochemistry of the albumen gland-capsule gland complex and its relationship with fecundity remain largely unknown. We addressed these issues in Pomacea canaliculata (Lamarck, 1822), a highly invasive gastropod whose fecundity and reproductive effort exceed those of ecologically similar gastropods. We evaluated the dynamics of its major secretion compounds (calcium, polysaccharides, and total proteins) as well as the gene expression and stored levels of perivitellins during key moments of the reproductive cycle, that is, before and after first copulation and at low, medium, and high reproductive output. Copulation and first oviposition do not trigger the onset of albumen gland-capsule gland complex biosynthesis. On the contrary, soon after an intermediate reproductive effort, genes encoding perivitellins overexpressed. A high reproductive effort caused a decrease in all albumen gland-capsule gland complex secretion components. Right after a high reproductive output, the albumen gland-capsule gland complex restored the main secretion components, and calcium recovered baseline reserves; but proteins and polysaccharides did not. These metabolic changes in the albumen gland-capsule gland complex after multiple ovipositions were reflected in a reduction in egg mass but did not compromise egg quality. At the end of the cycle, egg dry weight almost doubled the initial albumen gland-capsule gland complex weight. Results indicate that albumen gland-capsule gland complex biosynthesis limits a constantly high reproductive output. Therefore, lowering fecundity by targeting biosynthesis could effectively reduce the rate of this species' spread.

Published

2018

9. A lectin of a non-invasive apple snail as an egg defense against predation alters the rat gut morphophysiology.

Author

Ituarte S, Brola TR, Fernández PE, Mu H, Qiu JW, Heras H, and Dreon MS

Subjects

Agglutination, Animals, Caco-2 Cells, Cells, Cultured, Humans, Intestines anatomy & histology, Intestines drug effects, Intestines physiology, Lectins pharmacology, Male, Rats, Wistar, Egg Proteins physiology, Eggs, Gastrointestinal Tract anatomy & histology, Gastrointestinal Tract drug effects, Gastrointestinal Tract physiology, Lectins physiology, Predatory Behavior drug effects, Rats anatomy & histology, Rats physiology, Snails chemistry

Abstract

The eggs of the freshwater Pomacea apple snails develop above the water level, exposed to varied physical and biological stressors. Their high hatching success seems to be linked to their proteins or perivitellins, which surround the developing embryo providing nutrients, sunscreens and varied defenses. The defensive mechanism has been unveiled in P. canaliculata and P. maculata eggs, where their major perivitellins are pigmented, non-digestible and provide a warning coloration while another perivitellin acts as a toxin. In P. scalaris, a species sympatric to the former, the defense strategy seems different, since no toxin was found and the major perivitellin, PsSC, while also colored and non-digestible, is a carbohydrate-binding protein. In this study we examine the structure and function of PsSC by sequencing its subunits, characterizing its carbohydrate binding profile and evaluating its effect on gut cells. Whereas cDNA sequencing and database search showed no lectin domain, glycan array carbohydrate binding profile revealed a strong specificity for glycosphingolipids and ABO group antigens. Moreover, PsSC agglutinated bacteria in a dose-dependent manner. Inspired on the defensive properties of seed lectins we evaluated the effects of PsSC on intestinal cells both in vitro (Caco-2 and IEC-6 cells) and in the gastrointestinal tract of rats. PsSC binds to Caco-2 cell membranes without reducing its viability, while a PsSC-containing diet temporarily induces large epithelium alterations and an increased absorptive surface. Based on these results, we propose that PsSC is involved in embryo defenses by altering the gut morphophysiology of potential predators, a convergent role to plant defensive lectins., Competing Interests: The authors have declared that no competing interests exist.

Published

2018

10. Convergent evolution of plant and animal embryo defences by hyperstable non-digestible storage proteins.

Author

Pasquevich MY, Dreon MS, Qiu JW, Mu H, and Heras H

Subjects

Animals, Eggs analysis, Kinetics, Mice, Nutritive Value genetics, Nutritive Value immunology, Predatory Behavior physiology, Protein Conformation, Seed Storage Proteins chemistry, Seed Storage Proteins immunology, Seeds chemistry, Seeds genetics, Snails chemistry, Snails genetics, Gastrointestinal Tract metabolism, Plants genetics, Protein Stability, Seed Storage Proteins genetics

Abstract

Plants have evolved sophisticated embryo defences by kinetically-stable non-digestible storage proteins that lower the nutritional value of seeds, a strategy that have not been reported in animals. To further understand antinutritive defences in animals, we analysed PmPV1, massively accumulated in the eggs of the gastropod Pomacea maculata, focusing on how its structure and structural stability features affected its capacity to withstand passage through predator guts. The native protein withstands >50 min boiling and resists the denaturing detergent sodium dodecyl sulphate (SDS), indicating an unusually high structural stability (i.e., kinetic stability). PmPV1 is highly resistant to in vitro proteinase digestion and displays structural stability between pH 2.0-12.0 and 25-85 °C. Furthermore, PmPV1 withstands in vitro and mice digestion and is recovered unchanged in faeces, supporting an antinutritive defensive function. Subunit sequence similarities suggest a common origin and tolerance to mutations. This is the first known animal genus that, like plant seeds, lowers the nutritional value of eggs by kinetically-stable non-digestible storage proteins that survive the gut of predators unaffected. The selective pressure of the harsh gastrointestinal environment would have favoured their appearance, extending by convergent evolution the presence of plant-like hyperstable antinutritive proteins to unattended reproductive stages in animals.

Published

2017

11. Apple Snail Perivitellin Precursor Properties Help Explain Predators' Feeding Behavior.

Author

Cadierno MP, Dreon MS, and Heras H

Subjects

Animals, Hydrogen-Ion Concentration, Predatory Behavior, Body Fluids chemistry, Egg Proteins chemistry, Egg Proteins metabolism, Ovum chemistry, Snails physiology

Abstract

In contrast with vitellogenin maturation, it is unknown whether gastropod perivitellin precursors are subject to large structural changes. The gastropod reproductive tract includes an accessory organ, the albumen gland (AG), that produces and secretes perivitelline fluid. In the apple snail Pomacea canaliculata, the large, reddish-pink AG provides eggs with perivitellins that are defensive against predators. Although the AG makes a considerable contribution to apple snail biomass, field observations indicate that it is rejected by avian and mammalian predators, although the underlying reason remains unknown. By analyzing the structure-function properties of P. canaliculata perivitellin precursors, we provide insight into perivitellin maturation and its relationship with apple snail predator feeding behavior. Structural analysis using small-angle X-ray scattering, absorption and fluorescence spectroscopy, circular dichroism, electrophoresis, chromatography, and partial proteolysis showed that the size, shape, and structure of perivitellin precursors resemble those of egg mature forms. Functional analysis indicates that the precursors of the defensive perivitellins ovorubin (PcOvo) and perivitellin-2 (PcPV2) are highly stable and antinutritive, withstanding proteinase digestion and displaying structural stability of their quaternary structure under a wide pH range (4.0-10.0). Furthermore, AG extracts limit a predator's ability to digest nutrients and are toxic to mice (median lethal concentration 96 h after administration: 5.9 mg/kg). Treated mice displayed neurologic signs similar to those produced by egg PcPV2. Results indicate that apple snails store active precursors of egg proteins inside the AG, providing evidence that gastropod perivitellin precursors do not experience the large structural processing of invertebrate vitellogenin maturation. These defensive proteins provide the apple snail AG with neurotoxic, antinutritive, and antidigestive activity, a likely explanation for the predators' feeding behavior.

Published

2017

12. Insights into embryo defenses of the invasive apple snail Pomacea canaliculata: egg mass ingestion affects rat intestine morphology and growth.

Author

Dreon MS, Fernández PE, Gimeno EJ, and Heras H

Subjects

Animals, Caco-2 Cells, Diet, Hemagglutination, Humans, Hypertrophy, Intestinal Mucosa growth & development, Intestinal Mucosa pathology, Intestine, Small growth & development, Introduced Species, Lectins toxicity, Male, Ovum parasitology, Rats, Rats, Wistar, Intestine, Small pathology, Ovum chemistry, Snails

Abstract

Background: The spread of the invasive snail Pomacea canaliculata is expanding the rat lungworm disease beyond its native range. Their toxic eggs have virtually no predators and unusual defenses including a neurotoxic lectin and a proteinase inhibitor, presumably advertised by a warning coloration. We explored the effect of egg perivitellin fluid (PVF) ingestion on the rat small intestine morphology and physiology., Methodology/principal Findings: Through a combination of biochemical, histochemical, histopathological, scanning electron microscopy, cell culture and feeding experiments, we analyzed intestinal morphology, growth rate, hemaglutinating activity, cytotoxicity and cell proliferation after oral administration of PVF to rats. PVF adversely affects small intestine metabolism and morphology and consequently the standard growth rate, presumably by lectin-like proteins, as suggested by PVF hemaglutinating activity and its cytotoxic effect on Caco-2 cell culture. Short-term effects of ingested PVF were studied in growing rats. PVF-supplemented diet induced the appearance of shorter and wider villi as well as fused villi. This was associated with changes in glycoconjugate expression, increased cell proliferation at crypt base, and hypertrophic mucosal growth. This resulted in a decreased absorptive surface after 3 days of treatment and a diminished rat growth rate that reverted to normal after the fourth day of treatment. Longer exposure to PVF induced a time-dependent lengthening of the small intestine while switching to a control diet restored intestine length and morphology after 4 days., Conclusions/significance: Ingestion of PVF rapidly limits the ability of potential predators to absorb nutrients by inducing large, reversible changes in intestinal morphology and growth rate. The occurrence of toxins that affect intestinal morphology and absorption is a strategy against predation not recognized among animals before. Remarkably, this defense is rather similar to the toxic effect of plant antipredator strategies. This defense mechanism may explain the near absence of predators of apple snail eggs.

Published

2014

13. The major egg reserve protein from the invasive apple snail Pomacea maculata is a complex carotenoprotein related to those of Pomacea canaliculata and Pomacea scalaris.

Author

Pasquevich MY, Dreon MS, and Heras H

Subjects

Animals, Carotenoids metabolism, Egg Proteins metabolism, Introduced Species, Carotenoids chemistry, Egg Proteins chemistry, Snails metabolism

Abstract

Snails from the genus Pomacea lay conspicuous masses of brightly colored eggs above the water. Coloration is given by carotenoproteins that also which play important roles in protection against sun radiation, stabilizing and transporting antioxidant molecules and helping to protect embryos from desiccation and predators. They seem a key acquisition, but have been little studied. Here we report the characteristics of the major carotenoprotein from Pomacea maculata and the first comparison among these egg proteins. This particle, hereafter PmPV1, represents ~52% of perivitellin fluid protein. It is a glyco-lipo-carotenoprotein responsible for the bright reddish egg coloration. With VHDL characteristics, PmPV1 apparent molecular mass is 294kDa, composed of five non-covalently bound subunits of pI 4.7-9.8 and masses between 26 and 36kDa whose N-terminal sequences were obtained. It is a glyco-lipo-carotenoprotein scarcely lipidated (<1%) but highly glycosilated (13% by wt). Lipids include phospholipids, free fatty acids and carotenoids; mannose and galactose predominate over other monosaccharides. Main carotenoids are esterified and non-esterified astaxanthin (71 and 25%, respectively). Carotenoid removal does not seem to affect the structural characteristics of the oligomer, while deglycosilation reduces subunit number from five to a single one. The carotenoid-protein association protected the former against oxidation. PmPV1 cross reacts with polyclonal antibodies against the PcOvo, the major carotenoprotein from Pomacea canaliculata. The characterization of PmPV1 allows the first comparisons among snail carotenoproteins and further highlights the importance of these perivitellins in the reproductive strategy of Pomacea., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2014

14. Novel animal defenses against predation: a snail egg neurotoxin combining lectin and pore-forming chains that resembles plant defense and bacteria attack toxins.

Author

Dreon MS, Frassa MV, Ceolín M, Ituarte S, Qiu JW, Sun J, Fernández PE, and Heras H

Subjects

Amino Acid Sequence, Animals, Caco-2 Cells, Hemagglutination drug effects, Hemolysis drug effects, Humans, Hydrogen-Ion Concentration, Immunization, Intestinal Mucosa metabolism, Male, Mice, Molecular Sequence Data, Neurotoxins chemistry, Neurotoxins toxicity, Phylogeny, Predatory Behavior, Protein Stability, Rabbits, Rats, Snails immunology, Snails physiology, Botulinum Toxins chemistry, Lectins chemistry, Neurotoxins metabolism, Ovum metabolism, Plants chemistry, Pore Forming Cytotoxic Proteins chemistry, Snails metabolism

Abstract

Although most eggs are intensely predated, the aerial egg clutches from the aquatic snail Pomacea canaliculata have only one reported predator due to unparalleled biochemical defenses. These include two storage-proteins: ovorubin that provides a conspicuous (presumably warning) coloration and has antinutritive and antidigestive properties, and PcPV2 a neurotoxin with lethal effect on rodents. We sequenced PcPV2 and studied whether it was able to withstand the gastrointestinal environment and reach circulation of a potential predator. Capacity to resist digestion was assayed using small-angle X-ray scattering (SAXS), fluorescence spectroscopy and simulated gastrointestinal proteolysis. PcPV2 oligomer is antinutritive, withstanding proteinase digestion and displaying structural stability between pH 4.0-10.0. cDNA sequencing and protein domain search showed that its two subunits share homology with membrane attack complex/perforin (MACPF)-like toxins and tachylectin-like lectins, a previously unknown structure that resembles plant Type-2 ribosome-inactivating proteins and bacterial botulinum toxins. The protomer has therefore a novel AB toxin combination of a MACPF-like chain linked by disulfide bonds to a lectin-like chain, indicating a delivery system for the former. This was further supported by observing PcPV2 binding to glycocalix of enterocytes in vivo and in culture, and by its hemaggutinating, but not hemolytic activity, which suggested an interaction with surface oligosaccharides. PcPV2 is able to get into predator's body as evidenced in rats and mice by the presence of circulating antibodies in response to sublethal oral doses. To our knowledge, a lectin-pore-forming toxin has not been reported before, providing the first evidence of a neurotoxic lectin in animals, and a novel function for ancient and widely distributed proteins. The acquisition of this unique neurotoxic/antinutritive/storage protein may confer the eggs a survival advantage, opening new perspectives in the study of the evolution of animal defensive strategies.

Published

2013

15. Effect of crude oil petroleum hydrocarbons on protein expression of the prawn Macrobrachium borellii.

Author

Pasquevich MY, Dreon MS, Gutierrez Rivera JN, Vázquez Boucard C, and Heras H

Subjects

Animals, Biomarkers metabolism, Carrier Proteins genetics, Carrier Proteins metabolism, Cytosol metabolism, Female, Gene Expression Regulation drug effects, Glutathione Transferase genetics, Glutathione Transferase metabolism, Hepatopancreas drug effects, Hepatopancreas metabolism, Intracellular Signaling Peptides and Proteins genetics, Intracellular Signaling Peptides and Proteins metabolism, Male, Palaemonidae metabolism, Protein-Arginine N-Methyltransferases genetics, Protein-Arginine N-Methyltransferases metabolism, Proteome drug effects, RNA, Messenger genetics, RNA, Messenger metabolism, Toxicity Tests, Water Pollutants, Chemical adverse effects, Environmental Exposure analysis, Hydrocarbons adverse effects, Palaemonidae drug effects, Petroleum adverse effects, Proteome analysis

Abstract

Hydrocarbon pollution is a major environmental threat to ecosystems in marine and freshwater environments, but its toxicological effect on aquatic organisms remains little studied. A proteomic approach was used to analyze the effect of a freshwater oil spill on the prawn Macrobrachium borellii. To this aim, proteins were extracted from midgut gland (hepatopancreas) of male and female prawns exposed 7 days to a sublethal concentration (0.6 ppm) of water-soluble fraction of crude oil (WSF). Exposure to WSF induced responses at the protein expression level. Two-dimensional gel electrophoresis (2-DE) revealed 10 protein spots that were differentially expressed by WSF exposure. Seven proteins were identified using MS/MS and de novo sequencing. Nm23 oncoprotein, arginine methyltransferase, fatty aldehyde dehydrogenase and glutathione S-transferase were down-regulated, whereas two glyceraldehyde-3-phosphate dehydrogenase isoforms and a lipocalin-like crustacyanin (CTC) were up-regulated after WSF exposure. CTC mRNA levels were further analyzed by quantitative real-time PCR showing an increased expression after WSF exposure. The proteins identified are involved in carbohydrate and amino acid metabolism, detoxification, transport of hydrophobic molecules and cellular homeostasis among others. These results provide evidence for better understanding the toxic mechanisms of hydrocarbons. Moreover, some of these differentially expressed proteins would be employed as potential novel biomarkers., (Copyright © 2013 Elsevier Inc. All rights reserved.)

Published

2013

16. First proteome of the egg perivitelline fluid of a freshwater gastropod with aerial oviposition.

Author

Sun J, Zhang H, Wang H, Heras H, Dreon MS, Ituarte S, Ravasi T, Qian PY, and Qiu JW

Subjects

Amino Acid Motifs, Animals, Apocrine Glands metabolism, Bayes Theorem, Conserved Sequence, Egg Proteins chemistry, Egg Proteins genetics, Female, Gene Expression, Likelihood Functions, Molecular Sequence Data, Phylogeny, Protein Subunits genetics, Protein Subunits metabolism, Proteome chemistry, Proteome genetics, Sequence Analysis, DNA, Snails cytology, Snails genetics, Egg Proteins metabolism, Oviposition, Ovum metabolism, Proteome metabolism, Snails metabolism

Abstract

Pomacea canaliculata is a freshwater snail that deposits eggs on solid substrates above the water surface. Previous studies have emphasized the nutritional and protective functions of the three most abundant perivitelline fluid (PVF) protein complexes (ovorubin, PV2, and PV3) during its embryonic development, but little is known about the structure and function of other less abundant proteins. Using 2-DE, SDS-PAGE, MALDI TOF/TOF, and LC-MS/MS, we identified 59 proteins from the PVF of P. canaliculata, among which 19 are novel. KEGG analysis showed that the functions of the majority of these proteins are "unknown" (n=34), "environmental information processing" (10), 9 of which are related to innate immunity, and "metabolism" (7). Suppressive subtractive hybridization revealed 21 PVF genes to be specific to the albumen gland, indicating this organ is the origin of many of the PVF proteins. Further, the 3 ovorubin subunits were identified with 30.2-35.0% identity among them, indicating their common origin but ancient duplications. Characterization of the PVF proteome has opened the gate for further studies aiming to understand the evolution of the novel proteins and their contribution to the switch to aerial oviposition.

Published

2012

17. Agglutinating activity and structural characterization of scalarin, the major egg protein of the snail Pomacea scalaris (d'Orbigny, 1832).

Author

Ituarte S, Dreon MS, Ceolin M, and Heras H

Subjects

Agglutination drug effects, Animals, Calcium chemistry, Cations, Divalent, Erythrocytes cytology, Galactosamine pharmacology, Glucosamine pharmacology, Humans, Hydrogen-Ion Concentration, Magnesium chemistry, Protein Stability, Rabbits, Scattering, Small Angle, Sequence Analysis, Protein, Spectrometry, Fluorescence, Vitellins isolation & purification, X-Ray Diffraction, Erythrocytes drug effects, Ovum chemistry, Snails chemistry, Vitellins chemistry, Vitellins pharmacology

Abstract

Apple snail perivitellins are emerging as ecologically important reproductive proteins. To elucidate if the protective functions of the egg proteins of Pomacea canaliculata (Caenogastropoda, Ampullariidae), involved in embryo defenses, are present in other Pomacea species we studied scalarin (PsSC), the major perivitellin of Pomacea scalaris. Using small angle X-ray scattering, fluorescence and absorption spectroscopy and biochemical methods, we analyzed PsSC structural stability, agglutinating activity, sugar specificity and protease resistance. PsSC aggluttinated rabbit, and, to a lesser extent, human B and A erythrocytes independently of divalent metals Ca(2+) and Mg(2+) were strongly inhibited by galactosamine and glucosamine. The protein was structurally stable between pH 2.0 to 10.0, though agglutination occurred only between pH 4.0 to 8.0 (maximum activity at pH 7.0). The agglutinating activity was conserved up to 60 °C and completely lost above 80 °C, in agreement with the structural thermal stability of the protein (up to 60 °C). PsSC was able to withstand in vitro gastrointestinal digestion, and showed no trypsin inhibition activity. The presence of lectin activity has been reported in eggs of other Pomacea snails, but here we link for the first time, this activity to an apple snail multifunctional perivitellin. This novel role for a snail egg storage protein is different from closely related P.canaliculata defensive proteins.

Published

2012

18. Triacylglycerol catabolism in the prawn Macrobrachium borellii (Crustacea: Palaemoniade).

Author

Pasquevich MY, Dreon MS, Lavarías S, and Heras H

Subjects

Animals, Crustacea chemistry, Fatty Acids chemistry, Fatty Acids metabolism, Fatty Acids, Unsaturated chemistry, Fatty Acids, Unsaturated metabolism, Hepatopancreas chemistry, Hepatopancreas enzymology, Hepatopancreas metabolism, Kinetics, Lipase chemistry, Metabolism, Palaemonidae chemistry, Sensitivity and Specificity, Substrate Specificity, Triglycerides chemistry, Crustacea metabolism, Lipase metabolism, Lipid Metabolism physiology, Palaemonidae metabolism, Triglycerides metabolism

Abstract

While invertebrates store neutral lipids as their major energy source, little is known about triacylglycerol (TAG) class composition and their differential catabolism in aquatic arthropods. This study focuses on the composition of the main energy source and its catabolism by lipase from the midgut gland (hepatopancreas) of the crustacean Macrobrachium borellii. Silver-ion thin-layer chromatography of prawn large TAG deposit (80% of total lipids) and its subsequent fatty acid analysis by gas chromatography allowed the identification of 4 major fractions. These are composed of fatty acids of decreasing unsaturation and carbon chain length, the predominant being 18:1n-9. Fraction I, the most unsaturated one, contained mainly 20:5n-3; fraction II 18:2n-6; fraction III 18:1n-9 while the most saturated fraction contained mostly 16:0. Hepatopancreas main lipase (Mr 72 kDa) cross-reacted with polyclonal antibodies against insect lipase, was not dependent on the presence of Ca(2+) and had an optimum activity at 40°C and pH 8.0. Kinetic analysis showed a Michaelis-Menten behavior. A substrate competition assay evidenced lipase specificity following the order: 18:1n-9-TAG>PUFA-enriched-TAG>16:0-TAG different from that in vertebrates. These data indicate there is a reasonable correspondence between the fatty acid composition of TAG and the substrate specificity of lipase, which may be an important factor in determining which fatty acids are mobilized during lipolysis for oxidation in crustaceans., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published

2011

19. The role of the proteinase inhibitor ovorubin in apple snail eggs resembles plant embryo defense against predation.

Author

Dreon MS, Ituarte S, and Heras H

Subjects

Animals, Anti-Infective Agents pharmacology, Egg Proteins chemistry, Female, Gastrointestinal Diseases metabolism, Hydrogen-Ion Concentration, Male, Predatory Behavior, Protein Structure, Tertiary, Rats, Sequence Analysis, DNA, Snails, Tandem Mass Spectrometry methods, Temperature, Trypsin chemistry, Egg Proteins pharmacology, Protease Inhibitors pharmacology

Abstract

Background: Fieldwork has thoroughly established that most eggs are intensely predated. Among the few exceptions are the aerial egg clutches from the aquatic snail Pomacea canaliculata which have virtually no predators. Its defenses are advertised by the pigmented ovorubin perivitellin providing a conspicuous reddish coloration. The nature of the defense however, was not clear, except for a screening for defenses that identified a neurotoxic perivitellin with lethal effect on rodents. Ovorubin is a proteinase inhibitor (PI) whose role to protect against pathogens was taken for granted, according to the prevailing assumption. Through biochemical, biophysical and feeding experiments we studied the proteinase inhibitor function of ovorubin in egg defenses., Methodology/principal Findings: Mass spectrometry sequencing indicated ovorubin belongs to the Kunitz-type serine proteinase inhibitor family. It specifically binds trypsin as determined by small angle X-ray scattering (SAXS) and cross-linking studies but, in contrast to the classical assumption, it does not prevent bacterial growth. Ovorubin was found extremely resistant to in vitro gastrointestinal proteolysis. Moreover feeding studies showed that ovorubin ingestion diminishes growth rate in rats indicating that this highly stable PI is capable of surviving passage through the gastrointestinal tract in a biologically active form., Conclusions: To our knowledge, this is the first direct evidence of the interaction of an egg PI with a digestive protease of potential predators, limiting predator's ability to digest egg nutrients. This role has not been reported in the animal kingdom but it is similar to plant defenses against herbivory. Further, this would be the only defense model with no trade-offs between conspicuousness and noxiousness by encoding into the same molecule both the aposematic warning signal and an antinutritive/antidigestive defense. These defenses, combined with a neurotoxin and probably unpalatable factors would explain the near absence of predators, opening new perspectives in the study of the evolution and ecology of egg defensive strategies.

Published

2010

20. Carbohydrates and glycoforms of the major egg perivitellins from Pomacea apple snails (Architaenioglossa: Ampullariidae).

Author

Ituarte S, Dreon MS, Pasquevich MY, Fernández PE, and Heras H

Subjects

Animals, Egg Proteins chemistry, Egg Proteins metabolism, Glycoproteins chemistry, Glycoproteins metabolism, Glycosylation, Lectins chemistry, Lectins metabolism, Monosaccharides chemistry, Monosaccharides metabolism, Oligosaccharides chemistry, Oligosaccharides metabolism, Oviposition, Polysaccharides metabolism, Protein Isoforms chemistry, Protein Isoforms metabolism, Protein Subunits chemistry, Protein Subunits metabolism, Vitellins metabolism, Polysaccharides chemistry, Snails enzymology, Snails physiology, Vitellins chemistry

Abstract

To better understand how glycans contribute to the multiple roles of perivitellins in embryo development, the carbohydrate moieties and glycoforms of the carotenoglycoproteins ovorubin and scalarin from the eggs of Pomaceacanaliculata (Lamarck, 1822) and Pomaceascalaris (d'Orbigny, 1835) were studied. All subunits of both proteins are glycosylated and appear to be glycoforms with isoelectric points ranging from approximately 5.3 to approximately 9.1. Complete deglycosylation reduced subunit heterogeneity to spots of similar molecular weight (approximately 27 and approximately 25 kDa in scalarin and ovorubin, respectively) but with varying IP. Serine phosphorylation, present in both perivitellins, explains part of the isoforms. Glycosylation patterns of scalarin were determined using biotinylated lectins, PNGaseF treatment and selective chemical deglycosylation, which revealed the presence of hybrid and oligomannose N-linked glycans in all subunits. Scalarin has terminal sialic acid residues possibly resistant to neuraminidase and O-linked residues derived from the T- and Tn antigens. Ovorubin displayed predominantly the same glycans, though in different amounts. Capillary gas chromatography (GC) showed galactose and mannose as the major monosaccharides followed by GlcNAc and fucose. An interesting feature was the important amount of sialylated and fucosylated structures found in both perivitellins determined by GC, spectroscopy and lectins. This is the first report of these structures in gastropods other than heterobranchs., (2010 Elsevier Inc. All rights reserved.)

Published

2010

21. Structure and stability of the neurotoxin PV2 from the eggs of the apple snail Pomacea canaliculata.

Author

Frassa MV, Ceolín M, Dreon MS, and Heras H

Subjects

Animals, Circular Dichroism, Disulfides chemistry, Endopeptidase K chemistry, Mollusca, Protein Conformation, Protein Structure, Quaternary, Protein Structure, Secondary, Protein Structure, Tertiary, Scattering, Radiation, Snails, Spectrometry, Fluorescence methods, Tryptophan chemistry, X-Rays, Mollusk Venoms chemistry, Neurotoxins chemistry

Abstract

There is little information on the egg proteins of gastropod mollusks. Here we focus on PV2, a novel neurotoxin from snail eggs, studying its size, shape, structure, and stability, using small angle X-ray scattering (SAXS), absorption and fluorescence spectroscopy, circular dichroism, electron microscopy and partial proteolysis. Results indicate that PV2 is a compact and well folded oligomer of 130x44 A. It is an octamer of four 98 kDa heterodimers composed of 67 and 31 kDa subunits. Subunits are held together by disulfide bonds. Dimers are assembled into native PV2 by non-covalent forces. The larger subunit is more susceptible to proteolysis, indicating it is less compactly folded and/or more exposed. Quenching of tryptophan fluorescence showed a single class of tryptophyl side chains occluded in hydrophobic regions. Native structure shows loss of secondary structure (alpha+beta) at 6 M urea or 60-70 degrees C; the effects on the quaternary structure suggest an unfolding without disassembling of the protein. The 3D model of PV2 presented here is the first for an egg proteinaceous neurotoxin in animals., (Copyright (c) 2010 Elsevier B.V. All rights reserved.)

Published

2010

22. Partial characterization of a malonyl-CoA-sensitive carnitine O-palmitoyltransferase I from Macrobrachium borellii (Crustacea: Palaemonidae).

Author

Lavarías S, Pasquevich MY, Dreon MS, and Heras H

Subjects

Animals, Carnitine O-Palmitoyltransferase immunology, Digestive System enzymology, Dose-Response Relationship, Drug, Kinetics, Malonyl Coenzyme A metabolism, Mitochondria enzymology, Rats, Sensitivity and Specificity, Temperature, Carnitine O-Palmitoyltransferase antagonists & inhibitors, Carnitine O-Palmitoyltransferase metabolism, Malonyl Coenzyme A pharmacology, Palaemonidae enzymology

Abstract

The shuttle system that mediates the transport of fatty acids across the mitochondrial membrane in invertebrates has received little attention. Carnitine O-palmitoyltransferase I (EC 2.3.1.21; CPT I) is a key component of this system that in vertebrates controls long-chain fatty acid beta-oxidation. To gain knowledge on the acyltransferases in aquatic arthropods, physical, kinetic, regulatory and immunological properties of CPT of the midgut gland mitochondria of Macrobrachium borellii were assayed. CPT I optimum conditions were 34 degrees C and pH=8.0. Kinetic analysis revealed a Km for carnitine of 2180+/-281 microM and a Km for palmitoyl-CoA of 98.9+/-8.9 microM, while V(max) were 56.5+/-6.6 and 36.7+/-4.8 nmol min(-1) mg protein(-1), respectively. A Hill coefficient, n~1, indicate a Michaelis-Menten behavior. The CPT I activity was sensitive to regulation by malonyl-CoA, with an IC(50) of 25.2 microM. Electrophoretic and immunological analyses showed that a 66 kDa protein with an isoelectric point of 5.1 cross-reacted with both rat liver and muscle-liver anti CPT I polyclonal antibodies, suggesting antigenic similarity with the rat enzymes. Although CPT I displayed kinetic differences with insect and vertebrates, prawn showed a high capacity for energy generation through beta-oxidation of long-chain fatty acids.

Published

2009

23. First egg protein with a neurotoxic effect on mice.

Author

Heras H, Frassa MV, Fernández PE, Galosi CM, Gimeno EJ, and Dreon MS

Subjects

Animals, Calbindins, Calcium-Binding Proteins genetics, Calcium-Binding Proteins metabolism, Cell Death drug effects, Central Nervous System pathology, Female, Gene Expression Regulation drug effects, Immunohistochemistry, Mice, Nerve Tissue Proteins genetics, Nerve Tissue Proteins metabolism, S100 Calcium Binding Protein G, Central Nervous System drug effects, Egg Proteins toxicity, Snails metabolism

Abstract

While many invertebrates sequester toxic compounds to endow eggs with chemical defences, here we show, for the first time to our knowledge, the identification of a neurotoxin of proteinaceous nature localized inside an egg. Egg extracts from the freshwater apple snail Pomacea canaliculata displayed a neurotoxic effect in mice upon intraperitoneal injection (i.p.) (LD50, 96h 2.3mg/kg). Egg protein and total lipids were analysed separately and the only fraction displaying a highly toxic effect (LD50, 96h 0.25mg/kg, i.p.) was further purified to homogeneity as an oligomeric glyco-lipoprotein of 400kDa and two subunits biochemically and immunologically indistinguishable from the previously described perivitellin PV2. The neurotoxin was heat sensitive and there was evidence of circulating antibody response to sublethal i.p. doses on mice. Clinical signs, histopathological and immunocytochemical studies revealed damage mostly in mice spinal cord. Experiments showed chromatolysis and a decreased response to calbindin D-28K associated with a significant increase of TUNEL-positive cells in the dorsal horn neurons. These results suggest that calcium buffering and apoptosis may play a role in the neurological disorders induced by the toxin in mammalian central nervous system. This is the first report of a mollusc neurotoxin genetically encoded outside the cone-snail species.

Published

2008

24. Isolation and characterization of a novel perivitellin from the eggs of Pomacea scalaris (Mollusca, Ampullariidae).

Author

Ituarte S, Dreon MS, Ceolín M, and Heras H

Subjects

Animals, Carbohydrates analysis, Carotenoids analysis, Female, Lipids analysis, Molecular Weight, Oxidative Stress physiology, Protein Subunits analysis, Protein Subunits isolation & purification, Egg Proteins analysis, Egg Proteins isolation & purification, Mollusca chemistry

Abstract

Perivitellins are important components of the perivitelline fluid (PVF) that surrounds gastropod embryos. The glyco-lipo-carotenoprotein ovorubin (OR) from eggs of the snail Pomacea canaliculata has been the most studied to date. Here we report the characterization of scalarin (SC), a glyco-lipo-carotenoprotein from the PVF of P. scalaris. SC was purified by ultracentrifugation and exclusion chromatography. It is the major egg protein, representing 64% of the total soluble protein. The particle has a hydration density of 1.26 g/ml, an apparent molecular mass of 380 kDa and it is an elongated compact protein as estimated by small angle X-ray scattering (SAXS). It is composed of three subunits of ca. 35, 28, and 24 kDa noncovalently bonded. SC is highly glycosylated (carbohydrate content 20.1%, by wt.), with a low lipid content (0.7%), being esterified sterols, pigments and polar lipids the most abundant lipid classes. HPTLC and spectrophotometric analysis of the carotenoid fraction revealed the presence of free astaxanthin (ASX; 62.0%), and an unidentified carotenoid (38.0%). The carotenoid-apoprotein interaction was studied by spectrophotometry. Carotenoids do not seem to affect the structural characteristics of the oligomer. However, the carotenoid-protein association protected ASX against oxidation. The cross-reactivity between SC and perivitellins of P. canaliculata was tested using polyclonal antibodies (PAb) against SC, OR, and perivitellin PV2. The PAbs failed to cross-react with any egg proteins of either the same or other species. SC, among other functional similarities with OR, would be an antioxidant carrier, protecting at the same time carotenoids from oxidation in the perivitellin fluid of the egg.

Published

2008

25. Global shape and pH stability of ovorubin, an oligomeric protein from the eggs of Pomacea canaliculata.

Author

Dreon MS, Ituarte S, Ceolín M, and Heras H

Subjects

Animals, Egg Proteins ultrastructure, Hydrogen-Ion Concentration, Ovum chemistry, Protein Conformation, Scattering, Small Angle, X-Ray Diffraction, Egg Proteins chemistry, Gastropoda chemistry

Abstract

Ovorubin, a 300-kDa thermostable oligomer, is the major egg protein from the perivitellin fluid that surrounds the embryos of the apple snail Pomacea canaliculata. It plays essential roles in embryo development, including transport and protection of carotenoids, protease inhibition, photoprotection, storage, and nourishment. Here, we report ovorubin dimensions and global shape, and test the role of electrostatic interactions in conformational stability by analyzing the effects of pH, using small-angle X-ray scattering (SAXS), transmission electron microscopy, CD, and fluorescence and absorption spectroscopy. Analysis of SAXS data shows that ovorubin is an anisometric particle with a major axis of 130 A and a minor one varying between 63 and 76 A. The particle shape was not significantly affected by the absence of the cofactor astaxanthin. The 3D model presented here is the first for an invertebrate egg carotenoprotein. The quaternary structure is stable over a wide pH range (4.5-12.0). At a pH between 2.0 and 4.0, a reduction in the gyration radius and a loss of tertiary structure are observed, although astaxanthin binding is not affected and only minor alterations in secondary structure are observed. In vitro pepsin digestion indicates that ovorubin is resistant to this protease action. The high stability over a considerable pH range and against pepsin, together with the capacity to bear temperatures > 95 degrees C, reinforces the idea that ovorubin is tailored to withstand a wide variety of conditions in order to play its key role in embryo protection during development.

Published

2008

26. Egg carotenoproteins in neotropical Ampullariidae (Gastropoda: Arquitaenioglossa).

Author

Heras H, Dreon MS, Ituarte S, and Pollero RJ

Subjects

Animals, Fresh Water, Xanthophylls analysis, Xanthophylls metabolism, Ovum chemistry, Snails physiology, Vitellogenesis physiology

Abstract

Carotenoid-binding proteins are commonly found in invertebrates. Their carotenoids form non-covalent complexes with proteins giving tissues a variety of colors. In molluscs they have been described in only a few species. In particular, the egg perivitellin fluid of those Ampullariid species which deposit eggs above the waterline is provided with carotenoproteins playing several roles ranging from photoprotection, antioxidant or antitrypsin actions to nutrient provision for development. These molecules form complex glyco-lipo-carotenoproteins of high molecular weight where either free astaxanthin (3,3'-dihydroxy-beta, beta'-carotene- 4,4'dione) or astaxanthin esterified with fatty acids, occur more frequently. This review compiles the current knowledge on the biochemical composition and biophysical data on the chemical and thermal stability of egg carotenoproteins in ampullariid. In addition, recent data on their metabolism, their cellular site of biosynthesis during perivitellogenesis, as well as their carotenoid binding properties are reviewed, highlighting the physiological significance of carotenoproteins in the context of the reproductive biology of these molluscs.

Published

2007

27. Astaxanthin binding and structural stability of the apple snail carotenoprotein ovorubin.

Author

Dreon MS, Ceolín M, and Heras H

Subjects

Animals, Apoproteins chemistry, Apoproteins metabolism, Binding Sites, Circular Dichroism, Protein Denaturation, Protein Structure, Secondary, Snails physiology, Spectrometry, Fluorescence, Temperature, Xanthophylls metabolism, Egg Proteins chemistry, Egg Proteins metabolism

Abstract

Ovorubin (OR) is the major perivitellin of the eggs of Pomacea canaliculata. The astaxanthin (ASX) binding and structural stability of OR were investigated by fluorescence spectroscopy and circular dichroism (CD). The apo-OR (without astaxanthin) shows a single, high affinity binding site for ASX (K(D)=0.5 microM). The quenching of tryptophan fluorescence by ASX indicates that about 22% are near the carotenoid-binding site in a non-polar environment, as indicated by tryptophan resonance energy transfer to the ligand. Secondary structure (alpha+beta) was virtually not affected by cofactor removal. Holo-OR shows unusually high thermal stability. The removal of ASX does not affect the thermal or chemical stability of the quaternary structure. In conclusion, although subtle changes were observed, ASX is not essential for OR stability, unlike most invertebrate carotenoproteins. This supports the idea that OR plays an important physiological role in the storage, transport and protection of carotenoids during snail embryogenesis.

Published

2007

28. Biochemical composition, tissue origin and functional properties of egg perivitellins from Pomacea canaliculata.

Author

Dreon MS, Heras H, and Pollero RJ

Subjects

Animals, Gastropoda cytology, Ovum chemistry, Vitellins chemistry, Vitellins metabolism

Published

2006

29. Pallial oviduct of Pomacea canaliculata (Gastropoda): ultrastructural studies of the parenchymal cellular types involved in the metabolism of perivitellins.

Author

Catalán M, Dreon MS, Heras H, Pollero RJ, Fernández SN, and Winik B

Subjects

Animals, Calcium physiology, Cilia ultrastructure, Egg Proteins biosynthesis, Endoplasmic Reticulum, Rough metabolism, Endoplasmic Reticulum, Rough ultrastructure, Female, Gastropoda physiology, Golgi Apparatus metabolism, Golgi Apparatus ultrastructure, Immunohistochemistry, Microscopy, Electron, Transmission, Oviducts physiology, Oviducts ultrastructure, Reproduction physiology, Seasons, Gastropoda cytology, Vitellins biosynthesis

Abstract

Seasonal variations in the morphology of the parenchymal mass and function of the albumen gland/capsule gland complex have been studied in Pomacea canaliculata, together with the cellular types involved in the synthesis and secretion of perivitellin fluid components. The two major parenchymal cell types, albumen secretory cells (AS) and labyrinthic cells (LC), undergo seasonal variations throughout the annual reproductive cycle, which is divided into three periods. Both cellular types show maximal development and structural complexity during the reproductive period (spring and summer). AS cells have a well-developed Golgi complex and rough endoplasmic reticulum and their secretory granules show electron-dense particles of about 20 nm (probably galactogen). These cells are uniquely involved in ovorubin and PV2 perivitellin synthesis and their secretory granules are the single storage site for these two major perivitellins, as revealed by immunoelectron microscopy. AS also possess calcium deposits that infiltrate the cytoplasmic matrix. The luminal surfaces of LC exhibit long cilia intermingled with sparce short microvilli. Basally, the plasma membrane shows deep irregular folds that extend through the cytoplasm up to the subapical region. Calcium deposits infiltrate the cytoplasm and accumulate in the extracellular space of the basal labyrinth. Nerve terminals seem to be involved in the regulation of parenchymal cell secretion. At the post-reproductive period, AS markedly change their aspect following the release of most of the secretory granules into the acinar lumen. LC decrease in volume, the number of their cilia decreases, their cytoplasmic folds are much thinner and their extracellular spaces lack calcium particles. At the pre-reproductive period (winter), AS and LC recover and prepare for the subsequent period.

Published

2006

30. Changes in phosphatidylcholine molecular species in the shrimp Macrobrachium borellii in response to a water-soluble fraction of petroleum.

Author

Lavarías S, Dreon MS, Pollero RJ, and Heras H

Subjects

Animals, Chromatography, High Pressure Liquid, Fatty Acids analysis, Female, Hepatopancreas chemistry, Hepatopancreas drug effects, Ovum chemistry, Ovum drug effects, Palaemonidae metabolism, Solubility, Palaemonidae drug effects, Petroleum adverse effects, Phosphatidylcholines chemistry, Water Pollutants, Chemical pharmacology

Abstract

The effect of the water-soluble fraction (WSF) of crude oil on lipid contents, lipid classes, FA, and PC molecular species was studied in high-phospholipid (hepatopancreas) and low-phospholipid (egg) tissues of a freshwater crustacean. After a 21-d exposure to a sublethal concentration of WSF, a significant decrease in shrimp total lipids was observed, although no alterations could be detected in the hepatopancreas or egg lipid contents. TAG/phospholipid ratios increased in the hepatopancreas and decreased in the eggs, suggesting alterations either in the mobilization of TAG to phospholipid pools or in the energy balance. The FA composition of phosphoglycerides in the hepatopancreas and eggs was dominated by PUFA, whereas the n-3/n-6 ratio was not affected by WSF exposure, although there was a significant increase in hepatopancreas 18:1n-9. Analysis of the PC molecular species by HPLC-ELSD showed the presence of 15 species, with 16:0/18:1, 18:1/18:2, 16:0/20:5, and 16:1/20:5 being the major species in the hepatopancreas. The PC molecular species in the eggs showed a different pattern, dominated by 16:0/18:1 and 18:1/18:2. Of the PC molecular species, 10 contained 22:6n-3, 20:5n-3, and 20:4n-6. Small amounts of di-PUFA species were also found. Exposure to WSF altered the PC molecular species in both tissues. The four major hepatopancreas molecular species and most of the ones containing PUFA decreased. This was compensated for by an increase in 16:1/18:1 (152%) and 18:1/18:1 (50%). The two major egg PC molecular species decreased, whereas the PUFA-containing ones increased. The contrasting responses of both tissues to WSF contamination suggests the presence of different homeostatic mechanisms.

Published

2005

31. Characterization of the major egg glycolipoproteins from the perivitellin fluid of the apple snail Pomacea canaliculata.

Author

Dreon MS, Heras H, and Pollero RJ

Subjects

Animals, Chromatography, Gel, Chromatography, High Pressure Liquid, Fatty Acids chemistry, Glycosylation, Oligosaccharides chemistry, Ultracentrifugation, Egg Proteins chemistry, Glycoproteins chemistry, Ovum chemistry, Snails chemistry

Abstract

Ovorubin and PV2 are the major lipoglycocarotenoproteins present in the perivitellus of the freshwater snail eggs of Pomacea canaliculata, a rapidly expanding rice field pest. We have previously characterized these two particles regarding their lipid and protein compositions, their synthesis and tissular distribution, and their contributions of energy and structural precursors for the developing embryo. In the present study, we have characterized the glycosidic moieties associated to these perivitellines. Both proteins were isolated from egg homogenates by ultracentrifugation, and high performance liquid chromatography (HPLC) using anionic exchange and size exclusion columns. Total carbohydrates accounted for 17.8% and 2.5% (w/w) of the apparent molecular mass of ovorubin and PV2, respectively. Analysis by size exclusion chromatography showed that the amount of O-linked oligosaccharides is higher than that of the N-linked species (59% and 67% w/w of total carbohydrates of ovorubin and PV2, respectively). Glycosylation patterns were determined by a set of biotinilated lectins onto blotted purified proteins. Lectin affinities confirmed the presence of aspargine-linked carbohydrates, probably of hybrid and high mannose types. Jacaline affinity suggested the presence of O-linked residues derived from the T-antigen. Total carbohydrate composition determined by gas liquid chromatography (GLC) showed that mannose was the major monosaccharide in both perivitellins followed by GlcNAc and Gal in ovorubin, and Gal and GlcNAc in PV2. Only one fatty acid (22:1 n-9) accounted for 46% and 56% of the fatty acids present in ovorubin and PV2, respectively. Carbohydrate role on these reserve proteins during embryogenesis of the apple snail is discussed., (Copyright 2004 Wiley-Liss, Inc.)

Published

2004

32. Antioxidant defense system in the apple snail eggs, the role of ovorubin.

Author

Dreon MS, Schinella G, Heras H, and Pollero RJ

Subjects

Animals, Antioxidants chemistry, Antioxidants physiology, Apoproteins analysis, Apoproteins chemistry, Apoproteins pharmacology, Carotenoids analysis, Carotenoids chemistry, Dose-Response Relationship, Drug, Egg Proteins chemistry, Egg Proteins physiology, Fatty Acids analysis, Fatty Acids chemistry, Female, Fluorescence, Microsomes, Liver chemistry, Microsomes, Liver drug effects, Microsomes, Liver metabolism, Oxidation-Reduction, Rats, Xanthophylls, beta Carotene metabolism, beta Carotene radiation effects, Antioxidants pharmacology, Egg Proteins pharmacology, Snails chemistry, Snails physiology, beta Carotene analogs & derivatives

Abstract

A novel role of ovorubin as a protection system against oxidative damage in eggs from Pomacea canaliculata was investigated. Carotenoid composition, and their antioxidant capacity, as well as the carotenoid-apoprotein interaction, were studied for this lipoglycocarotenoprotein. Carotenoid extracts from ovorubin were analysed by TLC and spectrophotometry. The major carotenoid was astaxanthin in its free (40%), monoester (24%), and diester (35%) forms, mainly esterified with 16:0 fatty acid. The antioxidant capacity of ovorubin carotenoids was studied by the inhibition of microsomal oxidation in a non-enzymatic system, showing strong protection against oxidative damage (IC50=3.9 nmol/mg protein). The carotenoid-apoprotein interaction was studied by spectrophotometry and electrophoresis using reconstituted ovorubin. Astaxanthin does not seem to affect the structural characteristics of ovorubin, however the carotenoid-protein association significantly protected astaxanthin against oxidation. Ovorubin therefore, besides its role in providing energy and structural precursors during embryogenesis, would be an antioxidant carrier, protecting at the same time this pigment from oxidation in the perivitellin fluid environment of the egg.

Published

2004

33. Metabolism of ovorubin, the major egg lipoprotein from the apple snail.

Author

Dreon MS, Heras H, and Pollero RJ

Subjects

Animals, Blotting, Western, Chromatography, High Pressure Liquid, Egg Proteins chemistry, Electrophoresis, Polyacrylamide Gel, Enzyme-Linked Immunosorbent Assay, Female, Immunoblotting, Leucine chemistry, Snails, Temperature, Time Factors, Tissue Distribution, Egg Proteins metabolism, Lipoproteins chemistry

Abstract

The site of synthesis of molluscs lipoproteins is little known and was investigated for the egg lipoprotein perivitellin 1 (PV 1) or ovorubin in the freshwater snail Pomacea canaliculata. Tissues (albumen gland, gonad-digestive gland complex and muscle) of vitellogenic females were incubated in vitro at 25 degrees C for 12 h with 14C Leucine. After that, soluble proteins from tissue homogenates and medium samples were analysed for de novo protein synthesis by electrophoresis and HPLC, and radiolabelled proteins quantified by liquid scintillation. Gonad-digestive gland complex did not synthesise ovorubin, in spite its high protein synthesis levels. Three albumen gland radiolabelled proteins (35, 32 and 28 kDa) comigrated with the subunits of ovorubin and represented 1.3% of the total labelled protein of that tissue. Western blot analysis with polyclonal antibodies confirmed that these were ovorubin subunits. In vivo experiments where vitellogenic females were injected with 3H Leucine, revealed that ovorubin was not present in hemolymph. ELISA analysis confirmed ovorubin presence only in albumen gland and developing eggs with levels of 800 and 582 mg/g protein, which represent 30.3 and 28.4 mg ovorubin/g of tissue, respectively. Therefore, albumen gland is the single site of ovorubin synthesis as no extragland synthesis, circulation or accumulation could be detected in the apple snail.

Published

2003