Your search keyword '"Paracentrotu"' showing total 19 results

1. Living in future ocean acidification, physiological adaptive responses of the immune system of sea urchins resident at a CO2 vent system

Author

Valeria Matranga, Abigail M. Smith, Anna Palumbo, Gabriella Tedeschi, Maria Cristina Gambi, Elisa Maffioli, Oriana Migliaccio, Maria Byrne, Annalisa Pinsino, Claudio Agnisola, Simona Nonnis, Migliaccio, O., Pinsino, A., Maffioli, E., Smith, A. M., Agnisola, C., Matranga, V., Nonnis, S., Tedeschi, G., Byrne, M., Gambi, M. C., and Palumbo, A.

Subjects

Sea urchin, Environmental Engineering, 010504 meteorology & atmospheric sciences, Population, Zoology, 010501 environmental sciences, Cell morphology, 01 natural sciences, Paracentrotus lividus, Mesocosm, Immune system, biology.animal, Eco-physiology, Environmental Chemistry, Seawater, 14. Life underwater, Adaptation, education, Waste Management and Disposal, Immune cells, Ocean acidification, Proteomics, Sea urchins, 0105 earth and related environmental sciences, Immune cell, Phenotypic plasticity, education.field_of_study, biology, Animal, Proteomic, Carbon Dioxide, Hydrogen-Ion Concentration, biology.organism_classification, Adaptation, Physiological, Pollution, 13. Climate action, Immune System, Paracentrotu, Hydrothermal Vent, Water Pollutants, Chemical, Environmental Monitoring

Abstract

The effects of ocean acidification, a major anthropogenic impact on marine life, have been mainly investigated in laboratory/mesocosm experiments. We used the CO2 vents at Ischia as a natural laboratory to study the long-term effects of ocean acidification on the sea urchin Paracentrotus lividus population resident in low-pH (7.8 ± 0.2) compared to that at two control sites (pH 8.02 ± 0.00; 8.02 ± 0.01). The novelty of the present study is the analysis of the sea urchin immune cells, the sentinels of environmental stress responses, by a wide-ranging approach, including cell morphology, biochemistry and proteomics. Immune cell proteomics showed that 311 proteins were differentially expressed in urchins across sites with a general shift towards antioxidant processes in the vent urchins. The vent urchin immune cells showed higher levels of total antioxidant capacity, up-regulation of phagosome and microsomal proteins, enzymes of ammonium metabolism, amino-acid degradation, and modulation of carbon metabolism proteins. Lipid-hydroperoxides and nitric oxide levels were not different in urchins from the different sites. No differences in the coelomic fluid pH, immune cell composition, animal respiration, nitrogen excretion and skeletal mineralogy were observed. Our results reveal the phenotypic plasticity of the immune system of sea urchins adapted to life at vent site, under conditions commensurate with near-future ocean acidification projections.

Published

2019

2. Sub-Chronic Effects of Slight PAH- and PCB-Contaminated Mesocosms in Paracentrotus lividus Lmk: A Multi-Endpoint Approach and De Novo Transcriptomic

Author

Maria Toscanesi, Marco Trifuoggi, Maria Costantini, Valerio Zupo, Giovanni Libralato, Luisa Albarano, Davide Caramiello, Marco Guida, Albarano, L., Zupo, V., Caramiello, D., Toscanesi, M., Trifuoggi, M., Guida, M., Libralato, G., and Costantini, M.

Subjects

0301 basic medicine, Geologic Sediments, polycyclic aromatic hydrocarbons, 010501 environmental sciences, medicine.disease_cause, 01 natural sciences, Mesocosm, Transcriptome, Geologic Sediment, Polychlorinated Biphenyl, Biology (General), Sea urchin, Spectroscopy, de novo transcriptomic, biology, Biota, marine sediment, General Medicine, Polycyclic aromatic hydrocarbon, Congenital Abnormalitie, Computer Science Applications, Chemistry, Bioaccumulation, Environmental chemistry, Paracentrotus, Human, polychlorinated biphenyls, QH301-705.5, Short-term effect, Article, Catalysis, Paracentrotus lividus, Congenital Abnormalities, sea urchin, Inorganic Chemistry, 03 medical and health sciences, biology.animal, medicine, Animals, Humans, Seawater, 14. Life underwater, Physical and Theoretical Chemistry, Molecular Biology, QD1-999, 0105 earth and related environmental sciences, short-term effects, Animal, Gene Expression Profiling, Organic Chemistry, biology.organism_classification, 030104 developmental biology, Gene Expression Regulation, 13. Climate action, Paracentrotu, Polychlori-nated biphenyl, Water Pollutants, Chemical, Genotoxicity

Abstract

Sediment pollution is a major issue in coastal areas, potentially endangering human health and the marine environments. We investigated the short-term sublethal effects of sediments contaminated with polycyclic aromatic hydrocarbons (PAHs) and polychlorinated biphenyls (PCBs) on the sea urchin Paracentrotus lividus for two months. Spiking occurred at concentrations below threshold limit values permitted by the law (TLVPAHs = 900 µg/L, TLVPCBs = 8 µg/L, Legislative Italian Decree 173/2016). A multi-endpoint approach was adopted, considering both adults (mortality, bioaccumulation and gonadal index) and embryos (embryotoxicity, genotoxicity and de novo transcriptome assembly). The slight concentrations of PAHs and PCBs added to the mesocosms were observed to readily compartmentalize in adults, resulting below the detection limits just one week after their addition. Reconstructed sediment and seawater, as negative controls, did not affect sea urchins. PAH- and PCB-spiked mesocosms were observed to impair P. lividus at various endpoints, including bioaccumulation and embryo development (mainly PAHs) and genotoxicity (PAHs and PCBs). In particular, genotoxicity tests revealed that PAHs and PCBs affected the development of P. lividus embryos deriving from exposed adults. Negative effects were also detected by generating a de novo transcriptome assembly and its annotation, as well as by real-time qPCR performed to identify genes differentially expressed in adults exposed to the two contaminants. The effects on sea urchins (both adults and embryos) at background concentrations of PAHs and PCBs below TLV suggest a need for further investigations on the impact of slight concentrations of such contaminants on marine biota.

Published

2021

3. Two Benthic Diatoms, Nanofrustulum shiloi and Striatella unipunctata, Encapsulated in Alginate Beads, Influence the Reproductive Efficiency of Paracentrotus lividus by Modulating the Gene Expression

Author

Valerio Zupo, Emanuele Somma, Giuseppe De Rosa, Pasquale Ametrano, Virginia Campani, Maria Costantini, Francesca Glaviano, Nadia Ruocco, Davide Caramiello, Glaviano, Francesca, Ruocco, Nadia, Somma, Emanuele, De Rosa, Giuseppe, Campani, Virginia, Ametrano, Pasquale, Caramiello, Davide, Costantini, Maria, Zupo, Valerio, Glaviano, F., Ruocco, N., Somma, E., De Rosa, G., Campani, V., Ametrano, P., Caramiello, D., Costantini, M., and Zupo, V.

Subjects

0106 biological sciences, Pharmaceutical Science, 01 natural sciences, encapsulation, microalgae, modulated genes, sea urchin development, Drug Discovery, Gene expression, Gene Regulatory Networks, Protein Interaction Maps, Biology (General), Pharmacology, Toxicology and Pharmaceutics (miscellaneous), Sea urchin, 0303 health sciences, Gene Regulatory Network, biology, Chemistry, Reproduction, Gene Expression Regulation, Developmental, Biochemistry, Benthic zone, Paracentrotus, Protein Interaction Map, Nutritive Value, Signal Transduction, QH301-705.5, Alginates, Test (biology), Paracentrotus lividus, Article, 03 medical and health sciences, biology.animal, Animals, 14. Life underwater, 030304 developmental biology, Invertebrate, Diatoms, Animal, 010604 marine biology & hydrobiology, Alginate, fungi, Diatom, modulated gene, Marine invertebrates, biology.organism_classification, Animal Feed, Modulated gene, Paracentrotu

Abstract

Physiological effects of algal metabolites is a key step for the isolation of interesting bioactive compounds. Invertebrate grazers may be fed on live diatoms or dried, pelletized, and added to compound feeds. Any method may reveal some shortcomings, due to the leaking of wound-activated compounds in the water prior to ingestion. For this reason, encapsulation may represent an important step of bioassay-guided fractionation, because it may assure timely preservation of the active compounds. Here we test the effects of the inclusion in alginate (biocompatible and non-toxic delivery system) matrices to produce beads containing two benthic diatoms for sea urchin Paracentrotus lividus feeding. In particular, we compared the effects of a diatom whose influence on P. lividus was known (Nanofrustulum shiloi) and those of a diatom suspected to be harmful to marine invertebrates, because it is often present in blooms (Striatella unipunctata). Dried N. shiloi and S. unipunctata were offered for one month after encapsulation in alginate hydrogel beads and the larvae produced by sea urchins were checked for viability and malformations. The results indicated that N. shiloi, already known for its toxigenic effects on sea urchin larvae, fully conserved its activity after inclusion in alginate beads. On the whole, benthic diatoms affected the embryogenesis of P. lividus, altering the expression of several genes involved in stress response, development, skeletogenesis and detoxification processes. Interactomic analysis suggested that both diatoms activated a similar stress response pathway, through the up-regulation of hsp60, hsp70, NF-κB, 14-3-3 ε and MDR1 genes. This research also demonstrates that the inclusion in alginate beads may represent a feasible technique to isolate diatom-derived bioactive compounds.

Published

2021

4. Comparative toxicity of ionic and nanoparticulate zinc in the species Cymodoce truncata, Gammarus aequicauda and Paracentrotus lividus

Author

Adele Fabbrocini, Giusy Lofrano, Isabella Parlapiano, Giovanni Libralato, Federica Carraturo, Raffaele D'Adamo, Francesca Biandolino, Loredana Manfra, Alice Rotini, Luciana Migliore, Ermelinda Prato, Marco Trifuoggi, Prato, E., Fabbrocini, A., Libralato, G., Migliore, L., Parlapiano, I., D'Adamo, R., Rotini, A., Manfra, L., Lofrano, G., Carraturo, F., Trifuoggi, M., and Biandolino, F.

Subjects

Sea urchin, Settore BIO/07, Health, Toxicology and Mutagenesis, Metal Nanoparticles, chemistry.chemical_element, Crustacean, 02 engineering and technology, Zinc, 010501 environmental sciences, 01 natural sciences, Paracentrotus lividus, Metal Nanoparticle, biology.animal, Animals, Environmental Chemistry, Ecotoxicology, Amphipoda, Sea urchins, 0105 earth and related environmental sciences, Invertebrate, EC50, biology, Animal, Zinc oxide nanoparticle, Zinc sulphate, General Medicine, 021001 nanoscience & nanotechnology, biology.organism_classification, Pollution, Crustaceans, chemistry, Environmental chemistry, Toxicity, Paracentrotus, Paracentrotu, Zinc oxide nanoparticles, Zinc Oxide, 0210 nano-technology, Nano-ecotoxicology, Research Article, Isopoda

Abstract

Due to the continuous development, production and consumption of nanoparticles (NPs), their release, fate and effects in marine coastal environment can represent a major concern. The aim of this study was to evaluate the toxicity of ZnO nanoparticles (ZnO NPs) and compare it to bulk ZnSO4 on three macroinvertebrates: the isopod Cymodoce truncata (i.e. used for the first time in ecotoxicology), the amphipod Gammarus aequicauda and the sea urchin Paracentrotus lividus. This study showed concentration- and time-dependent relationships for all biological models for both ZnO NPs and ZnSO4. Both Zn forms elicited high toxicity to G. aequicauda and C. truncata juveniles, but ZnO NPs induced comparable responses to both species (96h-LC50 = 0.30 and 0.37 mg/L for G. aequicauda and C. truncata, respectively; p > 0.05), while differences were found after ZnSO4 exposure (96h-LC50 = 0.28 and 0.63 mg/L, respectively; p < 0.05). ZnO NPs generated sub-lethal effects on P. lividus embryos (72h-EC50 = 0.04 (0.03, 0.05) mg/L), not significantly different from ZnSO4 ones (72h-EC50 = 0.06 (0.05, 0.07) mg/L). Effects of ZnO NPs were similar to existing literature data for other testing species. C. truncata can be considered as a promising new biological model in (nano)ecotoxicology. Graphical abstract

Published

2021

5. Mild toxicity of polystyrene and polymethylmethacrylate microplastics in Paracentrotus lividus early life stages

Author

Giovanni Pagano, Serkan Tez, Maria Toscanesi, Rahime Oral, Daniel Mark Lyons, Pasquale Ranieri, Philippe J. Thomas, Marco Trifuoggi, Ege Üniversitesi, Thomas, P. J., Oral, R., Pagano, G., Tez, S., Toscanesi, M., Ranieri, P., Trifuoggi, M., and Lyons, D. M.

Subjects

0106 biological sciences, Male, Sea urchin, Embryo, Nonmammalian, Microplastics, Oceanography, 01 natural sciences, Developmental anomaly, Sphaerechinus granularis, Sea urchins, biology, microplastics, sea urchins, early life stages, embryo, toxicity, fertilisation, offspring, developmental anomaly, Microplastic, Biota, General Biology, General Medicine, Pollution, Early life, 3. Good health, Embryo, Toxicity, Paracentrotus, Plastics, Early life stage, Zoology, Aquatic Science, Plastic, 010603 evolutionary biology, Paracentrotus lividus, Fertilisation, Offspring, biology.animal, Animals, Polymethyl Methacrylate, Marine Science, 14. Life underwater, Polystyrene, Early life stages, Animal, 010604 marine biology & hydrobiology, biology.organism_classification, Sperm, 13. Climate action, Environmental Science, Polystyrenes, Paracentrotu, Water Pollutants, Chemical

Abstract

The vast category of microplastics in the marine environment, encompassing among other aspects their persistence, degradation and impact on biota, has become an important topic of research. in spite of environmental health concerns, much work has yet to be done on understanding the potential roles of polymer sources, composition and particle sizes in causing adverse effects which have already been observed in a number of biota. the present study was aimed at adding to current knowledge by verifying if, and to what extent, embryogenesis in the sea urchin species Paracentrotus lividus is adversely affected by polystyrene and polymethylmethacrylate virgin microparticles over a size range 1-230 mu m and at concentrations of 0.1-10 mg L-1. Developing embryos which came in contact with the microplastics only after fertilisation did not display a significant increase of developmental defects. Unlike embryo exposures, when P. lividus sperm were exposed to the microplastics or their leachates, modest, yet significant effects were observed, both in terms of decreased fertilisation rate and increase of transmissible damage to offspring. Further, it was noted that larvae more readily ingested polymethylmethacrylate than polystyrene microparticles after 3 days which may represent a route for enhancing the toxicity of the former compared to the latter. Overall, these findings provide evidence for lesser sensitivity of P. lividus early life stages to microplastics compared to other urchins such as Sphaerechinus granularis. in turn, the more robust response of P. lividus highlights the importance of choosing an appropriate test species with the highest sensitivity when investigating mildly harmful materials., Croatian Science Foundation [IP-2018-01-5351]; Environment and Climate Change Canada, This work has been supported by the Croatian Science Foundation under grant number IP-2018-01-5351, and Environment and Climate Change Canada. the authors are grateful to Dr. Ozge Kozgus Guldu for DLS measurements.

Published

2020

6. Changes in the proteome of sea urchin Paracentrotus lividus coelomocytes in response to LPS injection into the body cavity

Author

Károly Vékey, Marco Chiaramonte, Rosa Pitonzo, Vita Di Stefano, Vincenzo Arizza, Lilla Turiák, Giuseppe Avellone, Luigi Inguglia, László Drahos, Inguglia L., Chiaramonte M., Arizza V., Turiak L., Vekey K., Drahos L., Pitonzo R., Avellone G., and Di Stefano V.

Subjects

Proteomics, Lipopolysaccharides, Proteome, Hydrolases, Biochemistry, 0302 clinical medicine, Paracentrotus, Medicine and Health Sciences, Sea urchin, Coelomocyte, Immune Response, Cytoskeleton, 0303 health sciences, Phagocytes, Multidisciplinary, biology, Chemistry, Eukaryota, Animal Models, Cell biology, Enzymes, Echinoderm, Experimental Organism Systems, 030220 oncology & carcinogenesis, Medicine, Protein Interaction Networks, Cellular Structures and Organelles, Network Analysis, Research Article, Echinoderms, Computer and Information Sciences, food.ingredient, Science, Immunology, Lipopolysaccharide, Endocytosis, Research and Analysis Methods, Paracentrotus lividus, Lymphatic System, 03 medical and health sciences, food, Phagocytosis, biology.animal, Heat shock protein, DNA-binding proteins, Animals, Protein Interactions, 030304 developmental biology, Phagocytosi, Animal, Organisms, Biology and Life Sciences, Proteins, Cell Biology, biology.organism_classification, Invertebrates, Cytoskeletal Proteins, Guanosine Triphosphatase, Protein-Protein Interactions, Phagocyte, Immune System, Sea Urchins, Animal Studies, Enzymology, Paracentrotu

Abstract

Background The immune system of echinoderm sea urchins is characterised by a high degree of complexity that is not completely understood. The Mediterranean sea urchin Paracentrotus lividus coelomocytes mediate immune responses through phagocytosis, encapsulation of non-self particles, and production of diffusible factors including antimicrobial molecules. Details of these processes, and molecular pathways driving these mechanisms, are still to be fully elucidated. Principal findings In the present study we treated the sea urchin P. lividus with the bacterial lipopolysaccharide (LPS) and collected coelomocytes at different time-points (1, 3, 6 and 24 hours). We have shown, using label-free quantitative mass spectrometry, how LPS is able to modulate the coelomocyte proteome and to effect cellular pathways, such as endocytosis and phagocytosis, as soon as the immunomodulating agent is injected. The present study has also shown that treatment can modulate various cellular processes such as cytoskeleton reorganisation, and stress and energetic homeostasis. Conclusions Our data demonstrates, through mass spectrometry and the following functional annotation bioinformatics analysis, how the bacterial wall constituent is sufficient to set off an immune response inducing cytoskeleton reorganisation, the appearance of clusters of heat shock proteins (Hsp) and histone proteins and the activation of the endocytic and phagocytic pathways. Data are available via ProteomeXchange with identifier PXD008439.

Published

2020

7. Lipoxygenase Pathways in Diatoms: Occurrence and Correlation with Grazer Toxicity in Four Benthic Species

Author

Genoveffa Nuzzo, Angelo Fontana, Angela Sardo, Emiliano Manzo, Giovanna Romano, Maria Costantini, Nadia Ruocco, Antonella Iuliano, Giuliana d'Ippolito, Adrianna Ianora, Valerio Zupo, Ruocco, Nadia, Nuzzo, Genoveffa, D'Ippolito, Giuliana, Manzo, Emiliano, Sardo, Angela, Ianora, Adrianna, Romano, Giovanna, Iuliano, Antonella, Zupo, Valerio, Costantini, Maria, and Fontana, Angelo

Subjects

0106 biological sciences, 010504 meteorology & atmospheric sciences, Oxylipin, Pharmaceutical Science, 01 natural sciences, fatty acid derivatives, Skeletonema marinoi, Drug Discovery, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), Sea urchin, lcsh:QH301-705.5, mass spectrometry, Alismatales, biology, Chemistry, Fatty Acids, Lipoxygenases, Alismatale, Closterium, fatty acid derivative, Benthic zone, Posidonia oceanica, Paracentrotus, Plant Leave, Signal Transduction, Aldehyde, oxylipins, Paracentrotus lividus, Article, diatoms, Copepoda, biosynthesi, biology.animal, Botany, Animals, 14. Life underwater, 0105 earth and related environmental sciences, Aldehydes, Animal, 010604 marine biology & hydrobiology, fungi, chemical ecology, Diatom, Scutellum, biology.organism_classification, Lipid Metabolism, lipoxygenase, Plant Leaves, lcsh:Biology (General), Paracentrotu, biosynthesis, Copepod, Fatty Acid

Abstract

Oxygenated derivatives of fatty acids, collectively called oxylipins, are a highly diverse family of lipoxygenase (LOX) products well described in planktonic diatoms. Here we report the first investigation of these molecules in four benthic diatoms, Cylindrotheca closterium, Nanofrustulum shiloi, Cocconeis scutellum, and Diploneis sp. isolated from the leaves of the seagrass Posidonia oceanica from the Gulf of Naples. Analysis by hyphenated MS techniques revealed that C. closterium, N. shiloi, and C. scutellum produce several polyunsaturated aldehydes (PUAs) and linear oxygenated fatty acids (LOFAs) related to the products of LOX pathways in planktonic species. Diploneis sp. also produced other unidentified fatty acid derivatives that are not related to LOX metabolism. The levels and composition of oxylipins in the benthic species match their negative effects on the reproductive success in the sea urchin Paracentrotus lividus. In agreement with this correlation, the most toxic species N. shiloi revealed the same LOX pathways of Skeletonema marinoi and Thalassiosira rotula, two bloom-forming planktonic diatoms that affect copepod reproduction. Overall, our data highlight for the first time a major role of oxylipins, namely LOFAs, as info-chemicals for benthic diatoms, and open new perspectives in the study of the structuring of benthic communities.

Published

2020

8. Biotic and environmental stress induces nitration and changes in structure and function of the sea urchin major yolk protein toposome

Author

Gabriella Tedeschi, Antonello Merlino, Immacolata Castellano, Anna Palumbo, Oriana Migliaccio, Elisa Maffioli, Daniela Marasco, Adriana Zingone, Giarita Ferraro, Castellano, Immacolata, Migliaccio, Oriana, Ferraro, Giarita, Maffioli, Elisa, Marasco, Daniela, Merlino, Antonello, Zingone, Adriana, Tedeschi, Gabriella, and Palumbo, Anna

Subjects

0301 basic medicine, food.ingredient, Protein Conformation, Harmful Algal Bloom, Population, lcsh:Medicine, Nitric Oxide, Algal bloom, Article, Nitric oxide, 03 medical and health sciences, chemistry.chemical_compound, 0302 clinical medicine, food, Stress, Physiological, biology.animal, Yolk, Nitration, Animals, 14. Life underwater, Gonads, education, lcsh:Science, Egg Protein, Environmental Pollutant, Sea urchin, Gametogenesis, Glycoproteins, education.field_of_study, Multidisciplinary, biology, Animal, Chemistry, Egg Proteins, lcsh:R, Embryo, Gonad, Cell biology, 030104 developmental biology, Paracentrotus, Paracentrotu, Environmental Pollutants, Calcium, lcsh:Q, Glycoprotein, 030217 neurology & neurosurgery

Abstract

The major yolk protein toposome plays crucial roles during gametogenesis and development of sea urchins. We previously found that nitration of toposome increases in the gonads of a Paracentrotus lividus population living in a marine protected area affected by toxic blooms of Ostreospsis cf. ovata, compared to control populations. This modification is associated with ovatoxin accumulation, high levels of nitric oxide in the gonads, and a remarkable impairment of progeny development. However, nothing is known about the environmental-mediated-regulation of the structure and biological function of toposome. Here, we characterize through wide-ranging biochemical and structural analyses the nitrated toposome of sea urchins exposed to the bloom, and subsequently detoxified. The increased number of nitrated tyrosines in toposome of sea urchins collected during algal bloom induced structural changes and improvement of the Ca2+-binding affinity of the protein. After 3 months’ detoxification, ovatoxin was undetectable, and the number of nitric oxide-modified tyrosines was reduced. However, the nitration of specific residues was irreversible and occurred also in embryos treated with metals, used as a proxy of environmental pollutants. The structural and functional changes of toposome caused by nitration under adverse environmental conditions may be related to the defective development of sea urchins’ progeny.

Published

2018

9. Antioxidant and immune response of the sea urchin Paracentrotus lividus to different re-suspension patterns of highly polluted marine sediments

Author

Giovanna Romano, Carola Murano, Anna Palumbo, Alfonsina Milito, Immacolata Castellano, Milito, A., Murano, C., Castellano, I., Romano, G., and Palumbo, A.

Subjects

0106 biological sciences, Sea urchin, Geologic Sediments, Pollution effect, Sediment re-working, Zoology, Water turbulence, Aquatic Science, Biology, Oceanography, Ecotoxicology, 010603 evolutionary biology, 01 natural sciences, Paracentrotus lividus, Antioxidants, Marine pollution, Environmental impact, Geologic Sediment, Immune system, biology.animal, Metallothionein, Animals, Humans, Ecosystem, Water Pollutants, 14. Life underwater, Immune response, Brownfield, Animal, 010604 marine biology & hydrobiology, General Medicine, biology.organism_classification, Pollution, 13. Climate action, Benthic zone, Paracentrotus, Oxidative stre, Paracentrotu, Antioxidant, Human

Abstract

Marine pollution due to disused industrial activities is a major threat to ecosystems and human health, for example through the effects of re-suspension of toxic substances that are present in contaminated sediments. Here, we examined the effects of different re-suspension patterns of polluted sediments from the site of national interest Bagnoli-Coroglio, on the immune system of the sea urchin Paracentrotus lividus. An indoor experiment was set up exposing sea urchins for 34 days to such sediments and evaluating the effects of two patterns of water turbulence, mimicking natural storms at sea. One group of animals experienced an "aggregated" pattern of turbulence, consisting in two events, each lasting 2 days, separated by only 3 calm days, while a second group experienced two events of turbulence separated by 17 calm days (spaced pattern). At different times from the beginning of the experiment, coelomic fluid was collected from the animals and immune cells were examined for cell count and morphology, oxidative stress variables, and expression of genes involved in metal detoxification, stress response and inflammation. Our results highlighted that the aggregated pattern of turbulence was more noxious for sea urchins. Indeed, their immune system was altered, over the exposure time, as indicated by the increase of red amoebocytes number. Moreover, despite of an increase of the antioxidant power, animals from this group displayed a very significant ROS over-production at the end of the experiment. Conversely, animals in the spaced condition activated a different immune response, mainly having phagocytes as actors, and were able to partially recover from the received stress at the end of the experiment. No changes in the expression of genes related to antioxidant and anti-inflammatory responses were observed in both groups. By contrast, a down-regulation of various metallothioneins (4, 6, 7 and 8) in the group subjected to aggregated pattern was observed, while metallothionein 8 was up-regulated in the animals from the group exposed to the spaced pattern of turbulence. This work provides the first evidence of how sea urchins can respond to different re-suspension patterns of polluted sediments by modulating their immune system functions. The present data are relevant in relation to the possible environmental restoration of the study site, whose priorities include the assessment of the effects of marine pollution on local organisms, among which P. lividus represents a key benthic species.

Published

2019

10. Molecular and Morphological Toxicity of Diatom-Derived Hydroxyacid Mixtures to Sea Urchin Paracentrotus lividus Embryos

Author

Nadia Ruocco, Maria Costantini, Giovanni Libralato, Luisa Albarano, Loredana Manfra, Adrianna Ianora, Albarano, Luisa, Ruocco, N., Ianora, A., Libralato, G., Manfra, L., and Costantini, M.

Subjects

Embryo, Nonmammalian, hydroxyacids, Harmful Algal Bloom, Oxylipin, Pharmaceutical Science, Embryonic Development, 010501 environmental sciences, 01 natural sciences, Gene, Paracentrotus lividus, Article, sea urchin, 03 medical and health sciences, chemistry.chemical_compound, biology.animal, Hydroxyacid, Drug Discovery, Animals, 14. Life underwater, Oxylipins, genes, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), Sea urchin, lcsh:QH301-705.5, 030304 developmental biology, 0105 earth and related environmental sciences, HEPES, chemistry.chemical_classification, Diatoms, 0303 health sciences, biology, Chemistry, Animal, Gene Expression Profiling, Embryogenesis, Gene Expression Regulation, Developmental, Embryo, Diatom, Marine invertebrates, biology.organism_classification, Biochemistry, lcsh:Biology (General), Paracentrotus, Paracentrotu, Polyunsaturated fatty acid

Abstract

Oxylipins such as polyunsaturated aldehydes (PUAs) and hydroxyacids (HEPEs) are signaling molecules derived from the oxidation of polyunsaturated fatty acids. They are common in diatoms that constitute a major group of microalgae in freshwater and oceanic ecosystems. Although HEPEs represent the most common oxylipins produced by diatoms, little information is available on their effects on marine invertebrates, and most of the information has been obtained by testing individual HEPEs. Our previous studies reported that four hydroxyacids, i.e., 5-, 9-, 11-, and 15-HEPE, were able to induce malformations and a marked developmental delay in sea urchin Paracentrotus lividus embryos, which had not been reported for other oxylipins. Here, we tested a mixture of 5-, 9-, 11-, and 15-HEPE at different concentrations for the first time. The results showed that mixtures of HEPEs have synergistic effects that are much more severe compared to those of individual HEPEs: The HEPE mixtures induced malformations in sea urchin embryos at lower concentrations. Increasing HEPE mixture concentrations induced a marked increase in the number of delayed embryos, until all embryos were delayed at the highest concentration tested. At the molecular level, the HEPE mixtures induced variations in the expression of 50 genes involved in different functional processes, mainly down-regulating these genes at the earliest stages of embryonic development. These findings are ecologically significant, considering that during diatom blooms, sea urchins could accumulate HEPEs in concentrations comparable to those tested in the present study.

Published

2019

11. Leachates of micronized plastic toys provoke embryotoxic effects upon sea urchin Paracentrotus lividus

Author

Verónica Fernández, Ricardo Beiras, Sonia Manzo, Maria Oliviero, Simona Schiavo, Tania Tato, Oliviero, M., Tato, T., Schiavo, S., Fernandez, V., Manzo, S., and Beiras, R.

Subjects

Microplastics, Embryo, Nonmammalian, 010504 meteorology & atmospheric sciences, Health, Toxicology and Mutagenesis, Chemical, 010501 environmental sciences, Plastic, Toxicology, 01 natural sciences, Leachates, Marine larvae, PVC, Seawater, Animals, Ecosystem, Larva, Metals, Heavy, Paracentrotus, Plastics, Water Pollutants, Chemical, Paracentrotus lividus, Human fertilization, biology.animal, Water Pollutants, Leachate, Sea urchin, 0105 earth and related environmental sciences, Nonmammalian, biology, Chemistry, Animal, fungi, Microplastic, Plasticizer, General Medicine, Heavy, biology.organism_classification, Pollution, Embryo, Metals, Environmental chemistry, Toxicity, Paracentrotu

Abstract

Microplastics are defined as plastic fragments

Published

2019

12. Aberrant gene expression profiles in Mediterranean sea urchin reproductive tissues after metal exposures

Author

Salvatore Costa, Calogera Monastero, Marilena Di Natale, Marcello Tagliavia, Aldo Nicosia, Maria Antonietta Ragusa, Angela Cuttitta, Tiziana Masullo, Marco Torri, Carmelo Bennici, Girolama Biondo, Di Natale, Marilena, Bennici, Carmelo, Biondo, Girolama, Masullo, Tiziana, Monastero, Calogera, Tagliavia, Marcello, Torri, Marco, Costa, Salvatore, Ragusa, Maria Antonietta, Cuttitta, Angela, and Nicosia, Aldo

Subjects

Transcriptional profiling, Health, Toxicology and Mutagenesis, 0208 environmental biotechnology, Settore BIO/05 - Zoologia, 02 engineering and technology, 010501 environmental sciences, Co-exposures, 01 natural sciences, Gene expression, Sea urchin, biology, Echinoderm, Metal, Reproduction, Chemistry (all), General Medicine, Gonad, Phenotype, Pollution, Metals, Defence mechanism, Paracentrotus, Echinoderms, Settore BIO/07 - Ecologia, Environmental Engineering, Offspring, Sea Urchin, Zoology, Settore BIO/11 - Biologia Molecolare, Defence mechanisms, biology.animal, Detoxification, Mediterranean Sea, Animals, Environmental Chemistry, Epigenetics, Co-exposure, Gonads, Gene, Gametogenesis, 0105 earth and related environmental sciences, Animal, Stress response, Public Health, Environmental and Occupational Health, General Chemistry, 020801 environmental engineering, Sea Urchins, Paracentrotu, Environmental Pollution, Transcriptome

Abstract

Marine organisms are simultaneously exposed to numerous pollutants, among which metals probably represent the most abundant in marine environments. In order to evaluate the effects of metal exposure at molecular level in reproductive tissues, we profiled the sea urchin transcriptional response after non-lethal exposures using pathway-focused mRNA expression analyses. Herein, we show that exposures to relatively high concentrations of both essential and toxic metals hugely affected the gonadic expression of several genes involved in stress-response, detoxification, transcriptional and post-transcriptional regulation, without significant changes in gonadosomatic indices. Even though treatments did not result in reproductive tissues visible alterations, metal exposures negatively affected the main mechanisms of stress-response, detoxification and survival of adult P. lividus. Additionally, transcriptional changes observed in P. lividus gonads may cause altered gametogenesis and maintenance of heritable aberrant epigenetic effects. This study leads to the conclusion that exposures to metals, as usually occurs in polluted coastal areas, may affect sea urchin gametogenesis, thus supporting the hypothesis that parental exposure to environmental stressors affects the phenotype of the offspring.

Published

2019

13. Antimicrobial and Antibiofilm Activity of a Recombinant Fragment of β-Thymosin of Sea Urchin Paracentrotus lividus

Author

Angelo Spinello, Giampaolo Barone, Vincenzo Arizza, Domenico Schillaci, Luigi Inguglia, Maria Grazia Cusimano, Spinello, Angelo, Cusimano, Maria Grazia, Schillaci, Domenico, Inguglia, Luigi, Barone, Giampaolo, and Arizza, Vincenzo

Subjects

0301 basic medicine, Settore BIO/05 - Zoologia, Pharmaceutical Science, Staphylococcus aureus, Peptide, Paracentrotus lividus, Settore BIO/19 - Microbiologia Generale, medicine.disease_cause, biofilm, Drug Discovery, Pharmacology, Toxicology and Pharmaceutics (miscellaneous), lcsh:QH301-705.5, chemistry.chemical_classification, biology, Microbial Sensitivity Test, Chemistry, molecular dynamic, Biological activity, Recombinant Protein, Antimicrobial, Recombinant Proteins, Anti-Bacterial Agents, Biochemistry, Settore CHIM/03 - Chimica Generale E Inorganica, Pseudomonas aeruginosa, Staphylococcus aureu, Paracentrotus, Antibacterial activity, AMP (antimicrobial peptides), Sea Urchin, Antimicrobial peptides, Microbial Sensitivity Tests, Article, 03 medical and health sciences, Anti-Bacterial Agent, medicine, Animals, molecular dynamics, thymosin, Animal, Biofilm, biology.organism_classification, 030104 developmental biology, lcsh:Biology (General), Biofilms, Sea Urchins, Paracentrotu, Peptides, Paracentrotus lividu

Abstract

With the aim to obtain new antimicrobials against important pathogens such as Staphylococcus aureus and Pseudomonas aeruginosa, we focused on antimicrobial peptides (AMPs) from Echinoderms. An example of such peptides is Paracentrin 1 (SP1), a chemically synthesised peptide fragment of a sea urchin thymosin. In the present paper, we report on the biological activity of a Paracentrin 1 derivative obtained by recombination. The recombinant paracentrin RP1, in comparison to the synthetic SP1, is 22 amino acids longer and it was considerably more active against the planktonic forms of S. aureus ATCC 25923 and P. aeruginosa ATCC 15442 at concentrations of 50 &micro, g/mL. Moreover, it was able to inhibit biofilm formation of staphylococcal and P. aeruginosa strains at concentrations equal to 5.0 and 10.7 &micro, g/mL, respectively. Molecular dynamics (MD) simulations allowed to rationalise the results of the experimental investigations, providing atomistic insights on the binding of RP1 toward models of mammalian and bacterial cell membranes. Overall, the results obtained point out that RP1 shows a remarkable preference for bacterial membranes, in excellent agreement with the antibacterial activity, highlighting the promising potential of using the tested peptide as a template for the development of novel antimicrobial agents.

Published

2018

14. Exposure of key marine species to sunscreens: Changing ecotoxicity as a possible indirect effect of global warming

Author

Monia Renzi, Paolo Fastelli, Fastelli, P., and Renzi, M.

Subjects

0106 biological sciences, Sunscreens, Salinity, Chemical, 010501 environmental sciences, Aquatic Science, Oceanography, Ecotoxicology, 01 natural sciences, Corophium orientalis, Nanoparticles, Organic cosmetic, Paracentrotus lividus, Phaeodactylum tricornutum, Amphipoda, Animals, Diatoms, Ecosystem, Global Warming, Paracentrotus, Sunscreening Agents, Water Pollutants, Chemical, Sunscreen, Nanoparticle, Algae, Water Pollutants, 0105 earth and related environmental sciences, Sunscreening Agent, biology, Animal, 010604 marine biology & hydrobiology, Aquatic ecosystem, Global warming, Diatom, biology.organism_classification, Pollution, Environmental chemistry, Paracentrotu, Corophium, Environmental science, Ecotoxicity, Paracentrotus lividu, Corophium orientali

Abstract

Sunscreens can induce ecotoxicological effects and may cause significant impacts in the aquatic ecosystem. In spite of that, ecotoxicological responses of key marine species to sunscreens are scarcely studied in Mediterranean ecosystems, and literature data are lacking. Furthermore, changes in water salinity induced by global warming could significantly affect the ecotoxicological responses of marine species exposed to sunscreens. This research focuses on the evaluation of ecotoxicological responses of Phaeodactylum tricornutum (algae), Corophium orientalis (macroinvertebrate), and Paracentrotus lividus (echinoderms) exposed to sunscreens, which include both chemical- and physical-based. This study, also, analyzes the changes in ecotoxicological responses of the tested species linked to increase in salinity. Results showed that salinity stress significantly increases the toxicity of sunscreens on the tested marine species. Physical-based sunscreens resulted in more toxicity at higher salinity than chemical-based ones toward C. orientalis and P. tricornutum. This study evidenced that risk classifications of sunscreens recorded under standard salinity conditions could be significantly different from that recorded in the natural environment under salinity stress. The collection of a complete dataset on the ecotoxicological effects of sunscreens on marine species tested under salinity stress could be useful to correctly weigh risks for the marine environment under possible future ecological changing scenarios following the global changing driver.

Published

2018

15. The impact of propranolol, 17α-ethinylestradiol, and gemfibrozil on early life stages of marine organisms: effects and risk assessment

Author

María Laura Martín-Díaz, Marco Capolupo, Beatriz Díaz-Garduño, Capolupo, Marco, Díaz-Garduño, Beatriz, and Martín-Díaz, Maria Laura

Subjects

0301 basic medicine, Aquatic Organisms, animal structures, Health, Toxicology and Mutagenesis, Mytilu, Zoology, 010501 environmental sciences, Ethinyl Estradiol, 01 natural sciences, Risk Assessment, Paracentrotus lividus, 03 medical and health sciences, Early-life stage, Human fertilization, biology.animal, medicine, Environmental Chemistry, Gemfibrozil, Bioassay, Ecotoxicology, Animals, Gamete fertilization, Sea urchin, 0105 earth and related environmental sciences, Mytilus, biology, Animal, Aquatic Organism, Marine specie, fungi, General Medicine, Mussel, biology.organism_classification, Pollution, Propranolol, 030104 developmental biology, Pharmaceutical, Paracentrotus, Embryotoxicity, Paracentrotu, Biological Assay, Water Pollutants, Chemical, medicine.drug

Abstract

Pharmaceuticals are ubiquitously detected in the marine environment at the ng–μg/L range. Given their biological activity, these compounds are known to induce detrimental effects on biota at relatively low exposure levels; however, whether they affect early life stages of marine species is still unclear. In this study, a set of bioassays was performed to assess the effects of propranolol (PROP), 17-α ethinylestradiol (EE2), and gemfibrozil (GEM) on gamete fertilization and embryonic development of mussels (Mytilus galloprovincialis) and sea urchins (Paracentrotus lividus), and on the survival of seabream (Sparus aurata) larvae. Treatments of PROP (500, 5000, 50,000 ng/L), EE2 (5, 50, 500 ng/L), and GEM (50, 500, 5000 ng/L) were selected to encompass levels comparable or superior to environmental concentrations. Obtained data were tested for dose-response curve fitting and the lowest EC10/LC10 used to calculate risk quotients (RQs) based on the MEC/PNEC. No alteration was induced by PROP on the mussel gamete fertilization, while inhibitory effects were observed at environmental levels of EE2 (500 ng/L) and GEM (5000 ng/L). Fertilization was significantly reduced in sea urchin at all PROP and EE2 dosages. The 48-h exposure to all pharmaceuticals induced the onset of morphological abnormalities in either mussel or sea urchin embryos. Alterations were generally observed at environmentally relevant dosages, except for PROP in mussels, in which alterations occurred only at 50,000 ng/L. A decreased survival of seabream larvae was recorded after 96-h exposure to PROP (all treatments), EE2 (50–500 ng/L), and GEM (500 ng/L). A median RQ > 1 was obtained for all pharmaceuticals, assigning a high risk to their occurrence in marine environments. Overall, results showed that current levels of contamination by pharmaceuticals can impact early stages of marine species, which represent critical junctures in the resilience of coastal ecosystems.

Published

2018

16. Response to metals treatment of Fra1, a member of the AP-1 transcription factor family, in P. lividus sea urchin embryos

Author

Marco Chiaramonte, Rosa Bonaventura, Caterina Costa, Roberta Russo, Francesca Zito, Valeria Matranga, Russo, Roberta, Bonaventura, Rosa, Chiaramonte, Marco, Costa, Caterina, Matranga, Valeria, and Zito, Francesca

Subjects

0301 basic medicine, Embryo, Nonmammalian, Proto-oncogene, Sea Urchin, Settore BIO/05 - Zoologia, Aquatic Science, Oceanography, Paracentrotus lividus, 03 medical and health sciences, Animals, Metallothionein, Transcription factor, biology, Cell growth, Chemistry, Animal, Metal, Stress response, Embryo, General Medicine, Leucin zipper, Blastula, biology.organism_classification, Pollution, Cell biology, Gene expression profiling, Transcription Factor AP-1, AP-1 transcription factor, 030104 developmental biology, Heavy metal, Gene Expression Regulation, Metals, Sea Urchins, Paracentrotus, Paracentrotu, Water Pollutants, Chemical

Abstract

Lithium (Li), Nickel (Ni), and Zinc (Zn) are metals normally present in the seawater, although they can have adverse effects on the marine ecosystem at high concentrations by interfering with many biological processes. These metals are toxic for sea urchin embryos, affecting their morphology and developmental pathways. In particular, they perturb differently the correct organization of the embryonic axes (animal-vegetal, dorso-ventral): Li is a vegetalizing agent and Ni disrupts the dorso-ventral axis, while Zn has an animalizing effect. To deeply address the response of Paracentrotus lividus embryos to these metals, we studied the expression profiling of Pl-Fra transcription factor (TF), relating it to Pl-jun, a potential partner for AP-1 complex formation, and to Pl-MT, known to be an AP-1 target and to have a protective role against heavy metals. The AP-1 TFs are found throughout the animal kingdom and are involved in many cellular events, i.e. cell proliferation and differentiation, immune and stress responses, cancer growth. Here, we isolated the complete Pl-Fra cDNA and showed that Pl-Fra transcript, already present in the unfertilized eggs, was newly synthesized from the blastula stage, while its spatial distribution was mainly observed in skeletogenic cells, similarly to Pl-jun. Interestingly, Pl-Fra expression was induced by the different metals and the induction kinetics revealed its persistent expression during treatments. Moreover, its temporal and spatial behavior in response to the three metals was comparable to that of Pl-jun and Pl-MT. The understanding of AP-1 functions in invertebrates may provide new knowledge about the mechanisms of response to metal injuries, as well as it might lead to acknowledge the TFs as new type of biomarkers for the evaluation of hazards in polluted environment.

Published

2018

17. Nickel toxicity in P. lividus embryos: Dose dependent effects and gene expression analysis

Author

Marco Chiaramonte, Rosa Bonaventura, Caterina Costa, Roberta Russo, Francesca Zito, Bonaventura, Rosa, Zito, Francesca, Chiaramonte, Marco, Costa, Caterina, and Russo, Roberta

Subjects

0301 basic medicine, Embryo, Nonmammalian, Pigment cell, mRNA, Settore BIO/05 - Zoologia, Embryonic Development, Gene Expression, Development, Aquatic Science, Oceanography, Paracentrotus lividus, 03 medical and health sciences, Nickel, Gene expression, Animals, Invertebrate, Protein kinase A, Gene, Skeleton, Echinoderm, biology, Animal, Chemistry, Stress response, Embryo, General Medicine, biology.organism_classification, Pollution, Phenotype, Cell biology, Heavy metal, 030104 developmental biology, Toxicity, Unfolded protein response, Paracentrotus, Paracentrotu, Water Pollutants, Chemical

Abstract

Many industrial activities release Nickel (Ni) in the environment with harmful effects for terrestrial and marine organisms. Despite many studies on the mechanisms of Ni toxicity are available, the understanding about its toxic effects on marine organisms is more limited. We used Paracentrotus lividus as a model to analyze the effects on the stress pathways in embryos continuously exposed to different Ni doses, ranging from 0.03 to 0.5 mM. We deeply examined the altered embryonic morphologies at 24 and 48 h after Ni exposure. Some different phenotypes have been classified, showing alterations at the expenses of the dorso-ventral axis as well as the skeleton and/or the pigment cells. At the lowest dose used, Ni mainly induced a multi-spicule phenotype observed at 24 h after treatment. On the contrary, at the highest dose of Ni (0.5 mM), 90% of embryos showed no skeleton and no pigment cells. Therefore, we focused on this dose to study protein and gene expression patterns at 24 and 48 h after exposure. Among the proteins analyzed, i.e. p38MAPK, Grp78 and Mn-SOD, only p38MAPK was induced by Ni treatment. Moreover, we analyzed the mRNA profiles of a pool of genes that are involved in stress response and in development mechanisms, i.e. the transcription factors Pl-NFkB and Pl-FOXO; a marker of DNA repair, Pl-XPB/ERCC3; a mitogen-activated protein kinase (MAPK), Pl-p38; an ER stress gene, Pl-grp78; an adapter protein, Pl-14-3-3e; two markers of pigment cells, Pl-PKS1 and Pl-gcm. The spatial expression of mesenchymal marker genes has been evaluated in Ni-treated embryos at both 24 and 48 h after exposure. Our results indicated that Ni acts at several levels in P. lividus sea urchin, by affecting embryo development, influencing the embryonic immune response and activating stress response pathways to counteract the suffered injury and to promote embryos surviving.

Published

2017

18. Stress response to cadmium and manganese in Paracentrotus lividus developing embryos is mediated by nitric oxide

Author

Immacolata Castellano, Anna Palumbo, Giovanna Romano, Oriana Migliaccio, Migliaccio, O., Castellano, I., Romano, G., and Palumbo, A.

Subjects

Embryo, Nonmammalian, Stre, Health, Toxicology and Mutagenesis, Embryonic Development, chemistry.chemical_element, Manganese, Development, Aquatic Science, Nitric Oxide, Paracentrotus lividus, Nitric oxide, chemistry.chemical_compound, Stress, Physiological, biology.animal, Botany, Animals, 14. Life underwater, Gene, Sea urchin, Cadmium, biology, Animal, Embryo, biology.organism_classification, Cell biology, chemistry, Paracentrotus, Paracentrotu, Efflux, Paracentrotus lividu, Water Pollutants, Chemical

Abstract

Increasing concentrations of contaminants, often resulting from anthropogenic activities, have been reported to occur in the marine environment and affect marine organisms. Among these, the metal ions cadmium and manganese have been shown to induce developmental delay and abnormalities, mainly reflecting skeleton elongation perturbation, in the sea urchin Paracentrotus lividus, an established model for toxicological studies. Here, we provide evidence that the physiological messenger nitric oxide (NO), formed by l-arginine oxidation by NO synthase (NOS), mediates the stress response induced by cadmium and manganese in sea urchins. When NO levels were lowered by inhibiting NOS, the proportion of abnormal plutei increased. Quantitative expression of a panel of 19 genes involved in stress response, skeletogenesis, detoxification and multidrug efflux processes was followed at different developmental stages and under different conditions: metals alone, metals in the presence of NOS inhibitor, NO donor and NOS inhibitor alone. These data allowed the identification of different classes of genes whose metal-induced transcriptional expression was directly or indirectly mediated by NO. These results open new perspectives on the role of NO as a sensor of different stress agents in sea urchin developing embryos. © 2014 Elsevier B.V.

Published

2014

19. Subtle reproductive impairment through nitric oxide-mediated mechanisms in sea urchins from an area affected by harmful algal blooms

Author

Gabriella Tedeschi, Anna Palumbo, Davide Di Cioccio, Paola Cirino, Armando Negri, Adriana Zingone, Giovanna Romano, Oriana Migliaccio, Immacolata Castellano, Migliaccio, O., Castellano, I., Di Cioccio, D., Tedeschi, G., Negri, A., Cirino, P., Romano, G., Zingone, A., and Palumbo, A.

Subjects

0106 biological sciences, 0301 basic medicine, food.ingredient, Harmful Algal Bloom, Population, Biology, Nitric Oxide, 01 natural sciences, Algal bloom, Article, Paracentrotus lividus, 03 medical and health sciences, food, Mediterranean sea, Benthos, Yolk, biology.animal, Mediterranean Sea, Animals, 14. Life underwater, education, Sea urchin, education.field_of_study, Multidisciplinary, Animal, Ecology, Reproduction, 010604 marine biology & hydrobiology, fungi, biology.organism_classification, 030104 developmental biology, Paracentrotus, Paracentrotu, Bloom

Abstract

The health of the sea urchin Paracentrotus lividus, a key species in the Mediterranean Sea, is menaced by several pressures in coastal environments. Here, we aimed at assessing the reproductive ability of apparently healthy P. lividus population in a marine protected area affected by toxic blooms of Ostreospsis cf. ovata. Wide-ranging analyses were performed in animals collected prior to and during the bloom, as well as at several times thereafter, during the reproductive season. Adults showed a low fertilization rate, along with high nitric oxide (NO) levels in the gonads and the nitration of the major yolk protein toposome, which is an important player in sea urchin development. Serious developmental anomalies were observed in the progeny, which persist several months after the bloom. NO levels were high in the different developmental stages, which also showed variations in the transcription of several genes that were found to be directly or indirectly modulated by NO. These results highlight subtle but important reproductive flaws transmitted from the female gonads to the offspring with the NO involvement. Despite a recovery along time after the bloom, insidious damages can be envisaged in the local sea urchin population, with possible reverberation on the whole benthic system.

Published

2016