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1. Effects of tire particles and associated-chemicals on the Pacific oyster (Magallana gigas) physiology, reproduction and next-generation

Author

Bernardini, Ilaria, Tallec, Kevin, Paul-Pont, Ika, Peruzza, Luca, Dalla Rovere, Giulia, Huber, Matthias, Di Poi, Carole, Koechlin, Hugo, Quéré, Claudie, Quillien, Virgile, Le Grand, Jacqueline, Le Goïc, Nelly, Lambert, Christophe, Lagarde, Fabienne, Détrée, Camille, Trevisan, Rafael, Corporeau, Charlotte, Patarnello, Tomaso, Milan, Massimo, and Huvet, Arnaud

Published
2024
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18. Polystyrene microbeads modulate the energy metabolism of the marine diatom Chaetoceros neogracile.

Author

Seoane, Marta, González-Fernández, Carmen, Soudant, Philippe, Huvet, Arnaud, Esperanza, Marta, Cid, Ángeles, and Paul-Pont, Ika

Subjects
ENERGY metabolism, MICROBEADS, DIATOMS, CELL metabolism, MARINE phytoplankton, POLYSTYRENE
Abstract

Due to the growing concern about the presence of microplastics (MP) in the environment, the number of studies evaluating the toxicity of these small persistent particles on different marine species has increased in recent years. Few studies have addressed their impact on marine phytoplankton, a subject of great concern since they are primary producers of the aquatic food web. The aim of this study is to unravel the cytotoxicity of 2.5 μg mL−1 unlabelled amino-modified polystyrene beads of different sizes (0.5 and 2 μm) on the marine diatom Chaetoceros neogracile. In addition to traditional growth and photosynthesis endpoints, several physiological and biochemical parameters were monitored every 24 h in C. neogracile cells by flow cytometry during their exponential growth (72 h). Dynamic Light Scattering measurements revealed the strong aggregation and the negative charge of the beads assayed in the culture medium, which seemed to minimize particle interaction with cells and potentially associated impacts. Indeed, MP were not attached to the microalgal cell wall, as evidenced by scanning electron micrographs. Cell growth, morphology, photosynthesis, reactive oxygen species levels and membrane potential remained unaltered. However, exposure to MP significantly decreased the cellular esterase activity and the neutral lipid content. Microalgal oil bodies could serve as an energy source for maintaining a healthy cellular status. Thus, MP-exposed cells modulate their energy metabolism to properly acclimate to the stress conditions. Image 1 • Effects of 0.5 and 2 μm PS-NH 2 microplastics (MP) were evaluated on C. neogracile. • MP showed negative charge, were aggregated and were not attached to the cell wall. • Exposure to MP decreased the cellular metabolic activity and neutral lipid content. • Cells modulate their energy metabolism to properly acclimate to the stress conditions. • Microalgal oil bodies serve as an energy source for maintaining a healthy status. Diatoms' cells adjust their metabolism to cope with the stress promoted by microplastic exposure. [ABSTRACT FROM AUTHOR]

Published
2019
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19. Microplastic contamination and pollutant levels in mussels and cockles collected along the channel coasts.

Author

Hermabessiere, Ludovic, Paul-Pont, Ika, Cassone, Anne-Laure, Himber, Charlotte, Receveur, Justine, Jezequel, Ronan, El Rakwe, Maria, Rinnert, Emmanuel, Rivière, Gilles, Lambert, Christophe, Huvet, Arnaud, Dehaut, Alexandre, Duflos, Guillaume, and Soudant, Philippe

Subjects
MUSSELS, PLASTIC additives, POLLUTANTS, MYTILUS edulis, POTASSIUM hydroxide
Abstract

Nowadays, environmental pollution by microplastics (<5 mm; MP) is a major issue. MP are contaminating marine organisms consumed by humans. This work studied MP contamination in two bivalve species of commercial interest: blue mussel (Mytilus edulis) and common cockle (Cerastoderma edule) sampled on the Channel coastlines (France). In parallel, 13 plastic additives and 27 hydrophobic organic compounds (HOC) were quantified in bivalves flesh using SBSE-TD-GS-MS/MS to explore a possible relationship between their concentrations and MP contamination levels. MP were extracted using a 10% potassium hydroxide digestion method then identified by μ-Raman spectroscopy. The proportion of contaminated bivalves by MP ranged from 34 to 58%. Blue mussels and common cockles exhibited 0.76 ± 0.40 and 2.46 ± 1.16 MP/individual and between 0.15 ± 0.06 and 0.74 ± 0.35 MP/g of tissue wet weight. Some HOC and plastic additives were detected in bivalves. However, no significant Pearson or Spearman correlation was found between MP loads and plastic additives or HOC concentrations in bivalve tissues for the two species. Image 1 • Quantification of MP and additives in two commercial bivalve species. • First study measuring MP contamination in the common cockle. • Proportion of contaminated bivalves by MP is up to 58% along the Channel. • No relationship between MP and HOC/plastic additive concentrations was found. Microplastic contamination and pollutant levels of commercially important bivalves in France. [ABSTRACT FROM AUTHOR]

Published
2019
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20. Do transparent exopolymeric particles (TEP) affect the toxicity of nanoplastics on Chaetoceros neogracile?

Author

González-Fernández, Carmen, Toullec, Jordan, Lambert, Christophe, Le Goïc, Nelly, Seoane, Marta, Moriceau, Brivaela, Huvet, Arnaud, Berchel, Mathieu, Vincent, Dorothée, Courcot, Lucie, Soudant, Philippe, and Paul-Pont, Ika

Subjects
CELL growth, NANOPARTICLES, AQUATIC organisms, OXIDATIVE stress, DIATOMS, PHAEODACTYLUM tricornutum
Abstract

The potential presence of nanoplastics (NP) in aquatic environments represents a growing concern regarding their possible effects on aquatic organisms. The objective of this study was to assess the impact of polystyrene (PS) amino-modified particles (50 nm PS NH 2) on the cellular and metabolic responses of the diatom Chaetoceros neogracile cultures at two essential phases of the growth cycle, i.e. exponential (division) and stationary (storage) phases. Both cultures were exposed for 4 days to low (0.05 μg mL−1) and high (5 μg mL−1) concentrations of PS-NH 2. Exposure to NP impaired more drastically the major cellular and physiological parameters during exponential phase than during the stationary phase. Only an increase in ROS production was observed at both culture phases following NP exposures. In exponential phase cultures, large decreases in chlorophyll content, esterase activity, cellular growth and photosynthetic efficiency were recorded upon NP exposure, which could have consequences on the diatoms life cycle and higher food-web levels. The observed differential responses to NP exposure according to culture phase could reflect i) the higher concentration of Transparent Exopolymer Particles (TEP) at stationary phase leading to NP aggregation and thus, probably minimizing NP effects, and/or ii) the fact that dividing cells during exponential phase may be intrinsically more sensitive to stress. This work evidenced the importance of algae physiological state for assessing the NP impacts with interactions between NP and TEP being one key factor affecting the fate of NP in algal media and their impact to algal' cells. Image 1 • Interaction of NP and diatoms was studied at exponential and stationary phases. • Transparent Exopolymer Particles (TEP) alter NP fate by aggregating NP. • NP impairs major physiological traits of diatoms at exponential phase. • Whatever the aggregation state, NP promotes oxidative stress at both growth phases. The interaction between nanoplastics (NP) and transparent exopolymeric particles is one key factor affecting the fate of NP in algal media and their impact to algal' cells. [ABSTRACT FROM AUTHOR]

Published
2019
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21. Nanoplastics impaired oyster free living stages, gametes and embryos.

Author

Tallec, Kevin, Huvet, Arnaud, Di Poi, Carole, González-Fernández, Carmen, Lambert, Christophe, Petton, Bruno, Le Goïc, Nelly, Berchel, Mathieu, Soudant, Philippe, and Paul-Pont, Ika

Subjects
OYSTER fisheries, PLASTIC marine debris, ENVIRONMENTAL toxicology, ENVIRONMENTAL exposure, FERTILIZATION (Biology)
Abstract

Abstract In the marine environment, most bivalve species base their reproduction on external fertilization. Hence, gametes and young stages face many threats, including exposure to plastic wastes which represent more than 80% of the debris in the oceans. Recently, evidence has been produced on the presence of nanoplastics in oceans, thus motivating new studies of their impacts on marine life. Because no information is available about their environmental concentrations, we performed dose-response exposure experiments with polystyrene particles to assess the extent of micro/nanoplastic toxicity. Effects of polystyrene with different sizes and functionalizations (plain 2-μm, 500-nm and 50-nm; COOH-50 nm and NH 2 -50 nm) were assessed on three key reproductive steps (fertilization, embryogenesis and metamorphosis) of Pacific oysters (Crassostrea gigas). Nanoplastics induced a significant decrease in fertilization success and in embryo-larval development with numerous malformations up to total developmental arrest. The NH 2 -50 beads had the strongest toxicity to both gametes (EC 50 = 4.9 μg/mL) and embryos (EC 50 = 0.15 μg/mL), showing functionalization-dependent toxicity. No effects of plain microplastics were recorded. These results highlight that exposures to nanoplastics may have deleterious effects on planktonic stages of oysters, presumably interacting with biological membranes and causing cyto/genotoxicity with potentially drastic consequences for their reproductive success. Graphical abstract Image 1 Highlights • Oyster gametes, embryos and larvae were exposed to nano- and microplastics. • Nanoplastics caused significant decrease in fertilization and embryogenesis success. • Nanoplastics functionalization influences their behavior and toxicity. • No effect of plain microplastics was demonstrated on all endpoints. Particle size and functionalization influence plastic toxicity on oyster free living stages. [ABSTRACT FROM AUTHOR]

Published
2018
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22. Microplastic bacterial communities in the Bay of Brest: Influence of polymer type and size.

Author

Frère, Laura, Maignien, Lois, Chalopin, Morgane, Huvet, Arnaud, Rinnert, Emmanuel, Morrison, Hilary, Kerninon, Sandrine, Cassone, Anne-Laure, Lambert, Christophe, Reveillaud, Julie, and Paul-Pont, Ika

Subjects
PLASTIC marine debris, HYDROPHOBIC surfaces, BIOFILMS, COASTAL zone management, PATHOGENIC microorganisms
Abstract

Microplastics (<5 mm) exhibit intrinsic features such as density, hydrophobic surface, or high surface/volume ratio, that are known to promote microbial colonization and biofilm formation in marine ecosystems. Yet, a relatively low number of studies have investigated the nature of microplastic associated bacterial communities in coastal ecosystems and the potential factors influencing their composition and structure. Here, we characterized microplastics collected in the Bay of Brest by manual sorting followed by Raman spectroscopy and studied their associated bacterial assemblages using 16S amplicon high-throughput sequencing. Our methodology allowed discriminating polymer type (polyethylene, polypropylene and polystyrene) within small size ranges (0.3–1 vs. 1–2 vs. 2–5 mm) of microplastics collected. Data showed high species richness and diversity on microplastics compared to surrounding seawater samples encompassing both free living and particle attached bacteria. Even though a high proportion of operational taxonomic units (OTU; 94 ± 4%) was shared among all plastic polymers, polystyrene fragments exhibited distinct bacterial assemblages as compared to polyethylene and polypropylene samples. No effect of microplastic size was revealed regardless of polymer type, site and date of collection. The Vibrio genus was commonly detected in the microplastic fraction and specific PCR were performed to determine the presence of potentially pathogenic Vibrio strains (namely V. aestuarianus and the V. splendidus polyphyletic group). V. splendidus related species harboring putative oyster pathogens were detected on most microplastic pools (77%) emphasizing the need of further research to understand the role of microplastics on pathogen population transport and ultimate disease emergence. [ABSTRACT FROM AUTHOR]

Published
2018
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23. Interactions between polystyrene microplastics and marine phytoplankton lead to species-specific hetero-aggregation.

Author

Long, Marc, Paul-Pont, Ika, Hégaret, Hélène, Moriceau, Brivaela, Lambert, Christophe, Huvet, Arnaud, and Soudant, Philippe

Subjects
PLASTIC marine debris, PLASTIC scrap, MARINE ecology, PHYTOPLANKTON, MARINE organisms, MARINE phytoplankton
Abstract

To understand the fate and impacts of microplastics (MP) in the marine ecosystems, it is essential to investigate their interactions with phytoplankton as these may affect MP bioavailability to marine organisms as well as their fate in the water column. However, the behaviour of MP with marine phytoplanktonic cells remains little studied and thus unpredictable. The present study assessed the potential for phytoplankton cells to form hetero-aggregates with small micro-polystyrene (micro-PS) particles depending on microalgal species and physiological status. A prymnesiophycea, Tisochrysis lutea, a dinoflagellate, Heterocapsa triquetra, and a diatom, Chaetoceros neogracile, were exposed to micro-PS (2 μm diameter; 3.96 μg L −1 ) during their growth culture cycles. Micro-PS were quantified using an innovative flow-cytometry approach, which allowed the monitoring of the micro-PS repartition in microalgal cultures and the distinction between free suspended micro-PS and hetero-aggregates of micro-PS and microalgae. Hetero-aggregation was observed for C. neogracile during the stationary growth phase. The highest levels of micro-PS were “lost” from solution, sticking to flasks, with T. lutea and H. triquetra cultures. This loss of micro-PS sticking to the flask walls increased with the age of the culture for both species. No effects of micro-PS were observed on microalgal physiology in terms of growth and chlorophyll fluorescence. Overall, these results highlight the potential for single phytoplankton cells and residual organic matter to interact with microplastics, and thus potentially influence their distribution and bioavailability in experimental systems and the water column. [ABSTRACT FROM AUTHOR]

Published
2017
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24. On the horns of a dilemma: Evaluation of synthetic and natural textile microfibre effects on the physiology of the pacific oyster Crassostrea gigas.

Author

Détrée, Camille, Labbé, Clémentine, Paul-Pont, Ika, Prado, Enora, El Rakwe, Maria, Thomas, Lena, Delorme, Nicolas, Le Goïc, Nelly, and Huvet, Arnaud

Subjects
SYNTHETIC textiles, PACIFIC oysters, CRASSOSTREA, OYSTERS, MICROFIBERS, SYNTHETIC fibers, DIGESTIVE enzymes, PHYSIOLOGY, POLYESTER fibers
Abstract

Fast fashion and our daily use of fibrous materials cause a massive release of microfibres (MF) into the oceans. Although MF pollution is commonly linked to plastics, the vast majority of collected MF are made from natural materials (e.g. cellulose). We investigated the effects of 96-h exposure to natural (wool, cotton, organic cotton) and synthetic (acrylic, nylon, polyester) textile MF and their associated chemical additives on the capacity of Pacific oysters Crassostrea gigas to ingest MF and the effects of MF and their leachates on key molecular and cellular endpoints. Digestive and glycolytic enzyme activities and immune and detoxification responses were determined at cellular (haemocyte viability, ROS production, ABC pump activity) and molecular (Ikb1, Ikb2, caspase 1 and EcSOD expression) levels, considering environmentally relevant (10 MF L−1) and worst-case scenarios (10 000 MF L−1). Ingestion of natural MF perturbed oyster digestive and immune functions, but synthetic MF had few effects, supposedly related with fibers weaving rather than the material itself. No concentration effects were found, suggesting that an environmental dose of MF is sufficient to trigger these responses. Leachate exposure had minimal effects on oyster physiology. These results suggest that the manufacture of the fibres and their characteristics could be the major factors of MF toxicity and stress the need to consider both natural and synthetic particles and their leachates to thoroughly evaluate the impact of anthropogenic debris. Environmental Implication. Microfibres (MF) are omnipresent in the world oceans with around 2 million tons released every year, resulting in their ingestion by a wide array of marine organisms. In the ocean, a domination of natural MF- representing more than 80% of collected fibres-over synthetic ones was observed. Despite MF pervasiveness, research on their impact on marine organisms, is still in its infancy. The current study aims to investigate the effects of environmental concentrations of both synthetic and natural textile MF and their associated leachates on a model filter feeder. [Display omitted] • Environmental concentration of MF is sufficient to perturb oyster physiology. • Tested natural MF elicit higher digestive and inflammatory responses than synthetic. • The physical properties of natural MF might explain the observed perturbation. • In general MF toxicity depends on their properties and intended use. [ABSTRACT FROM AUTHOR]

Published
2023
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25. Exposure of marine mussels Mytilus spp. to polystyrene microplastics: Toxicity and influence on fluoranthene bioaccumulation.

Author

Paul-Pont, Ika, Lacroix, Camille, González Fernández, Carmen, Hégaret, Hélène, Lambert, Christophe, Le Goïc, Nelly, Frère, Laura, Cassone, Anne-Laure, Sussarellu, Rossana, Fabioux, Caroline, Guyomarch, Julien, Albentosa, Marina, Huvet, Arnaud, and Soudant, Philippe

Subjects
FLUORANTHENE, POLYSTYRENE -- Environmental aspects, BLOOD cells, FOODBORNE diseases, COMMUNICABLE diseases
Abstract

The effects of polystyrene microbeads (micro-PS; mix of 2 and 6 μm; final concentration: 32 μg L −1 ) alone or in combination with fluoranthene (30 μg L −1 ) on marine mussels Mytilus spp. were investigated after 7 days of exposure and 7 days of depuration under controlled laboratory conditions. Overall, fluoranthene was mostly associated to algae Chaetoceros muelleri (partition coefficient Log Kp = 4.8) used as a food source for mussels during the experiment. When micro-PS were added in the system, a fraction of FLU transferred from the algae to the microbeads as suggested by the higher partition coefficient of micro-PS (Log Kp = 6.6), which confirmed a high affinity of fluoranthene for polystyrene microparticles. However, this did not lead to a modification of fluoranthene bioaccumulation in exposed individuals, suggesting that micro-PS had a minor role in transferring fluoranthene to mussels tissues in comparison with waterborne and foodborne exposures. After depuration, a higher fluoranthene concentration was detected in mussels exposed to micro-PS and fluoranthene, as compared to mussels exposed to fluoranthene alone. This may be related to direct effect of micro-PS on detoxification mechanisms, as suggested by a down regulation of a P-glycoprotein involved in pollutant excretion, but other factors such as an impairment of the filtration activity or presence of remaining beads in the gut cannot be excluded. Micro-PS alone led to an increase in hemocyte mortality and triggered substantial modulation of cellular oxidative balance: increase in reactive oxygen species production in hemocytes and enhancement of anti-oxidant and glutathione-related enzymes in mussel tissues. Highest histopathological damages and levels of anti-oxidant markers were observed in mussels exposed to micro-PS together with fluoranthene. Overall these results suggest that under the experimental conditions of our study micro-PS led to direct toxic effects at tissue, cellular and molecular levels, and modulated fluoranthene kinetics and toxicity in marine mussels. [ABSTRACT FROM AUTHOR]

Published
2016
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26. Microplastics in seafood: Benchmark protocol for their extraction and characterization.

Author

Dehaut, Alexandre, Cassone, Anne-Laure, Frère, Laura, Hermabessiere, Ludovic, Himber, Charlotte, Rinnert, Emmanuel, Rivière, Gilles, Lambert, Christophe, Soudant, Philippe, Huvet, Arnaud, Duflos, Guillaume, and Paul-Pont, Ika

Subjects
PLASTIC marine debris, SEAFOOD contamination, POLLUTION, ORGANIC compounds, POLYMERS
Abstract

Pollution of the oceans by microplastics (<5 mm) represents a major environmental problem. To date, a limited number of studies have investigated the level of contamination of marine organisms collected in situ . For extraction and characterization of microplastics in biological samples, the crucial step is the identification of solvent(s) or chemical(s) that efficiently dissolve organic matter without degrading plastic polymers for their identification in a time and cost effective way. Most published papers, as well as OSPAR recommendations for the development of a common monitoring protocol for plastic particles in fish and shellfish at the European level, use protocols containing nitric acid to digest the biological tissues, despite reports of polyamide degradation with this chemical. In the present study, six existing approaches were tested and their effects were compared on up to 15 different plastic polymers, as well as their efficiency in digesting biological matrices. Plastic integrity was evaluated through microscopic inspection, weighing, pyrolysis coupled with gas chromatography and mass spectrometry, and Raman spectrometry before and after digestion. Tissues from mussels, crabs and fish were digested before being filtered on glass fibre filters. Digestion efficiency was evaluated through microscopical inspection of the filters and determination of the relative removal of organic matter content after digestion. Five out of the six tested protocols led to significant degradation of plastic particles and/or insufficient tissue digestion. The protocol using a KOH 10% solution and incubation at 60 °C during a 24 h period led to an efficient digestion of biological tissues with no significant degradation on all tested polymers, except for cellulose acetate. This protocol appeared to be the best compromise for extraction and later identification of microplastics in biological samples and should be implemented in further monitoring studies to ensure relevance and comparison of environmental and seafood product quality studies. [ABSTRACT FROM AUTHOR]

Published
2016
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27. Cryogrinding and sieving techniques as challenges towards producing controlled size range microplastics for relevant ecotoxicological tests.

Author

Gardon, Tony, Paul-Pont, Ika, Le Moullac, Gilles, Soyez, Claude, Lagarde, Fabienne, and Huvet, Arnaud

Subjects
MICROPLASTICS, PARTICLE size distribution, PEARL oysters, CRYOGENIC grinding, SIEVES
Abstract

The impact of microplastics (MP) has attracted much attention from the scientific community and many laboratory assessments have been made of their effects on aquatic organisms. To produce MP from real environmental plastic waste, which would enable more realistic experiments, we used plastic pearl farming equipment from French Polynesian lagoons. Here, the pearl oyster Pinctada margaritifera could encounter MP coming from their breakdown in its surrounding environment. We tested an established method based on mechanical cryogenic grinding and liquid sieving. Our desired size range was 20–60 μm, corresponding to the optimal particle size ingested by P. margaritifera. The protocol was effective, generating MP particles of 20–60 μm (∼17,000–28,000 MP μg−1), but also produced too many smaller particles. The peak in the desired size range was thus flattened by the many small particles <3 μm (∼82,000–333,000 MP μg−1; 53–70% of total analysed particles), visible at the limit of Coulter counter analysis (cut-off point: 2 μm). Laser diffraction analysis (cut-off point: 0.4 μm) provided greater detail, showing that ∼80–90% of the total analysed particles were <1 μm. Diverging particle size distributions between those expected based on sieving range and those really observed, highlight the need to perform fine-scaled particle size distribution analyses to avoid underestimating the number of small micro- and nanoplastics (MNP) and to obtain an exact estimation of the fractions produced. Size and microstructure characterization by scanning electron microscopy suggested spontaneous particle self-assembly into crystal superstructures, which is the supposed cause of the divergence we observed. Overall, our results emphasize that particle self-assembly is a technical hurdle requiring further work and highlight the specific need to finely characterize the size distribution of MNP used in ecotoxicological experiments to avoid overestimating effects. [Display omitted] • "Homemade" microplastics may underestimate exposure level and overestimate impact. • Particle sieving range was inconsistent with size distribution. • Particle self-assembly may cause biased sieving and size distribution. • Particle size distribution needs to be systematically characterized very finely. • For standardization, it is vital to improve microplastic manufacture and sizing. [ABSTRACT FROM AUTHOR]

Published
2022
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28. Contrasted survival under field or controlled conditions displays associations between mRNA levels of candidate genes and response to OsHV-1 infection in the Pacific oyster Crassostrea gigas.

Author

Normand, Julien, Li, Ronghua, Quillien, Virgile, Nicolas, Jean-Louis, Boudry, Pierre, Pernet, Fabrice, and Huvet, Arnaud

Abstract

Abstract: Pacific oyster Crassostrea gigas suffers from chronic or sporadic mortality outbreaks worldwide, resulting from infectious diseases and/or physiological disorders triggered by environmental factors. Since 2008, ostreid herpesvirus OsHV-1 μVar has been identified as the main agent responsible for mass mortality of juvenile oysters in Europe. Previous studies of genome-wide expression profiling have provided candidate genes that potentially contribute to genetically-based resistance to summer mortality. To assess their value in determining resistance to the juvenile mass mortality that has occurred in France since 2008, we analyzed the expression of 17 candidate genes in an experimental infection by OsHV-1 μVar, and in an in vivo field experiment. Individual quantification of mRNA levels of 10 out of the 17 targeted genes revealed significant variation, of which 7 genes were showed differences between conditions that created significant differences in mortality, and 6 depended on the number of OsHV-1 genome copies individually quantified in mantle tissue. Complex SOD metalloenzymes known to be part of the antioxidant defense strategies may at least partly determine susceptibility or resistance to OsHV-1-associated mortality. Furthermore, inhibitor 2 of NF-κB, termed CgIκB2, exhibited highly significant variation of mRNA levels depending on OsHV-1 load in both experiments, suggesting its implication in the antiviral immune response of C. gigas. Our results suggest that CgIκB2 expression would make a good starting point for further functional research and that it could be used in marker-assisted selection. [Copyright &y& Elsevier]

Published
2014
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29. Tire rubber chemicals reduce juvenile oyster (Crassostrea gigas) filtration and respiration under experimental conditions.

Author

Tallec, Kevin, Gabriele, Marta, Paul-Pont, Ika, Alunno-Bruscia, Marianne, and Huvet, Arnaud

Subjects
CRASSOSTREA, PACIFIC oysters, TIRES, OYSTERS, RESPIRATION, LEACHATE, AQUATIC organisms
Abstract

Tires can release a large number of chemical compounds that are potentially hazardous for aquatic organisms. An ecophysiological system was used to do high-frequency monitoring of individual clearance, respiration rates, and absorption efficiency of juvenile oysters (8 months old) gradually exposed to four concentrations of tire leachates (equivalent masses: 0, 1, 10, and 100 μg tire mL−1). Leachates significantly reduced clearance (52 %) and respiration (16 %) rates from 1 μg mL−1, while no effect was observed on the absorption efficiency. These results suggest that tire leachates affect oyster gills, which are the organ of respiration and food retention as well as the first barrier against contaminants. Calculations of scope for growth suggested a disruption of the energy balance with a significant reduction of 57 %. Because energy balance directs whole-organism functions (e.g., growth, reproductive outputs), the present study calls for an investigation of the long-term consequences of chemicals released by tires. [Display omitted] • Leachates of tires affected clearance and respirations rates of juvenile oysters. • Decreases in Scope For Growth (SFG) calculations suggest energy balance impairment. • Leachates did not affect the absorption efficiency suggesting no effect on the digestive functions. [ABSTRACT FROM AUTHOR]

Published
2022
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30. Study of the antioxidant capacity in gills of the Pacific oyster Crassostrea gigas in link with its reproductive investment

Author

Béguel, Jean-Philippe, Huvet, Arnaud, Quillien, Virgile, Lambert, Christophe, and Fabioux, Caroline

Subjects
*PACIFIC oysters, *ANTIOXIDANTS, *GILLS, *REPRODUCTION, *LIFE history theory, *SUPEROXIDE dismutase, *GLUTATHIONE peroxidase, *OXIDATIVE stress
Abstract

Abstract: Energy allocation principle is a core element of life-history theory in which “the cost of reproduction” corresponds to an acceleration of senescence caused by an increase in reproductive investment. In the “theory of aging”, senescence is mainly due to the degradation of lipids, proteins and DNA by reactive oxygen species (ROS), by-products of oxidative metabolism. Some studies have shown that oxidative stress susceptibility could be a cost of reproduction. The present study investigates the effect of reproductive investment on antioxidant capacity in the gills of a species with a very high reproductive investment, the Pacific oyster Crassostrea gigas. We used RNA interference targeting the oyster vasa-like gene (Oyvlg) to produce oysters with contrasted reproductive investment. Antioxidant capacity was studied by measuring the mRNA levels of genes encoding major antioxidant enzymes, and the activity of these enzymes. The highest reproductive investment was associated with the highest transcript levels for glutathione peroxidase and extra-cellular and mitochondrial superoxide dismutase. In contrast, lipid peroxidation did not show any sign of oxidative damage whatever the reproductive investment. Up-regulation of certain genes encoding enzymes involved in the first step of ROS detoxification could therefore be a part of the organism''s strategy for managing the pro-oxidant species produced by heavy reproductive investment. [Copyright &y& Elsevier]

Published
2013
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31. Identification of a tubulin-α gene specifically expressed in testis and adductor muscle during stable reference gene selection in the hermaphrodite gonad of the lion's paw scallop Nodipecten subnodosus.

Author

Llera-Herrera, Raúl, García-Gasca, Alejandra, Huvet, Arnaud, and Ibarra, Ana M.

Subjects
TUBULINS, GENE expression, TESTIS, MUSCLES, INTERSEXUALITY in animals, GONADS
Abstract

Abstract: For non-model species, as many used for aquaculture, with minimal or no genomic information, relative quantification of gene expression studies requires preliminary research including the isolation of potential reference genes and the identification of those stably expressed under the biological conditions of interest. Here we report on the isolation of five partial gene sequences from gonad tissue cDNA in the functional hermaphrodite scallop Nodipecten subnodosus to be evaluated as reference genes: 18S-rRNA, riboprotein l8 (rp-l8), actin-β (act-β), elongation factor 1α (ef-1α) and alpha-tubulin-α (tub-α). We found that 18S-rRNA was stably expressed independently of the priming method used to reverse transcribe RNA to cDNA, oligo-dT or random hexamer. Stability analysis for the five putative reference genes with geNorm and NormFinder indicated that 18S together with rp-l8 were the most stable genes for normalization of gene expression during gonad development in both, male and female sexual regions of the hermaphrodite N. subnodosus. The least stable gene was tub-α, showing a biased expression profile between sexual regions of the gonad, therefore this gene was analyzed thereafter as a target gene together with vitellogenin (vit) and a DEAD-box RNA helicase (dbx) gene. Relative expression, estimated by normalization with the combination of 18S and rp-l8 as reference genes, indicated that as gonad development advanced two of the target genes were up-regulated, tub-α in the male region and vit in the female region. Whereas an increased expression was expected during development for vit for its known role in vitellogenesis, the increased expression of tub-α in the male sexual region was unexpected, and pointed toward this gene being a testis-specific α-tubulin isotype. Further analyses of gene expression among tissues indicated that tub-α is specifically and highly expressed in the male gonad, although expression in adductor muscle was also observed at significantly lower levels. The existence of testis specific α- and β-tubulins has been previously reported in other taxa, relating their function to sperm axoneme formation. Tissue-specific tubulin genes, particularly their promoters, have recently found an application as native promoters for transgene tissue-specific expression in research and reproductive control of insect plagues. The third target gene, a putative member of the DEAD-box RNA helicase family (dbx), showed no changes in expression during gonad development or between sexual regions, therefore it was chosen to discuss the different statistical inferences resulting from the arbitrary use of ‘randomly chosen’ reference genes when normalizing gene expression. [Copyright &y& Elsevier]

Published
2012
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32. The identification of genes from the oyster Crassostrea gigas that are differentially expressed in progeny exhibiting opposed susceptibility to summer mortality

Author

Huvet, Arnaud, Herpin, Amaury, Dégremont, Lionel, Labreuche, Yannick, Samain, Jean-François, and Cunningham, Charles

Subjects
*MORTALITY, *PATHOGENIC microorganisms, *HEREDITY, *FATTY acids
Abstract

Abstract: Summer mortality associated with juveniles of the oyster Crassostrea gigas is probably the result of a complex interaction between the host, pathogens and environmental factors. Genetic variability in the host appears to be a major determinant in its sensitivity to summer mortality. Previously, divergent selection criteria based on summer survival have been applied to produce oyster families with resistant and susceptible progeny. In this paper, we describe the use of suppression subtractive hybridization to generate 150 C. gigas clones that were differentially regulated between resistant and susceptible F2 progeny. The nucleotide sequence of these clones was determined. In 28%, the inferred amino sequence was found to match the products of known genes, 14% matched hypothetical proteins and a further 14% appeared to contain open reading frames (ORFs) whose product had no obvious homologue in the nucleotide databases. It has been hypothesized that differences exist in the level of energy generation and immune function between resistant and susceptible progeny. In light of this, clones encoding homologues of cavortin, cyclophilin, isocitrate dehydrogenase, sodium glucose cotransporter, fatty acid binding protein, ATPase H+ transporting lysosomal protein, precerebellin, and scavenger receptor were analyzed by real-time PCR. These transcripts were induced in resistant progeny when compared to their susceptible counterparts. A bacterial challenge of oysters resulted in the suppression of six of these transcripts in only those that were resistant to summer mortality. This study has identified potential candidates for further investigation into the functional basis of resistance and susceptibility to summer mortality. [Copyright &y& Elsevier]

Published
2004
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33. Microplastics induce dose-specific transcriptomic disruptions in energy metabolism and immunity of the pearl oyster Pinctada margaritifera.

Author

Gardon, Tony, Morvan, Lucie, Huvet, Arnaud, Quillien, Virgile, Soyez, Claude, Le Moullac, Gilles, and Le Luyer, Jérémy

Subjects
PEARL oysters, ENERGY metabolism, POLLUTANTS, MICROBEADS, PLASTIC marine debris, IMMUNITY, ENERGY budget (Geophysics)
Abstract

A combined approach integrating bioenergetics and major biological activities is essential to properly understand the impact of microplastics (MP) on marine organisms. Following experimental exposure of polystyrene microbeads (micro-PS of 6 and 10 μm) at 0.25, 2.5, and 25 μg L−1, which demonstrated a dose-dependent decrease of energy balance in the pearl oyster Pinctada margaritifera, a transcriptomic study was conducted on mantle tissue. Transcriptomic data helped us to decipher the molecular mechanisms involved in P. margaritifera responses to micro-PS and search more broadly for effects on energetically expensive maintenance functions. Genes related to the detoxification process were impacted by long-term micro-PS exposure through a decrease in antioxidant response functioning, most likely leading to oxidative stress and damage, especially at higher micro-PS doses. The immune response was also found to be dose-specific, with a stress-related activity stimulated by the lowest dose present after a 2-month exposure period. This stress response was not observed following exposure to higher doses, reflecting an energy-limited capacity of pearl oysters to cope with prolonged stress and a dramatic shift to adjust to pessimum conditions, mostly limited and hampered by a lowered energetic budget. This preliminary experiment lays the foundation for exploring pathways and gene expression in P. margaritifera , and marine mollusks in general, under MP exposure. We also propose a conceptual framework to properly assess realistic MP effects on organisms and population resilience in future investigations. Image 1 • Antioxidant and detoxification processes are impacted by long-term polystyrene microbeads exposure in P. margaritifera. • Energy metabolism and immunity are dose specific response to micro-PS exposure. • Bioenergetics and transcriptomics refine the energy-limited tolerance to stress concept for emerging pollutants. [ABSTRACT FROM AUTHOR]

Published
2020
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34. Toxic effects of leachates from plastic pearl-farming gear on embryo-larval development in the pearl oyster Pinctada margaritifera.

Author

Gardon, Tony, Huvet, Arnaud, Paul-Pont, Ika, Cassone, Anne-Laure, Sham Koua, Manaarii, Soyez, Claude, Jezequel, Ronan, Receveur, Justine, and Le Moullac, Gilles

Subjects
*PEARL oysters, *PHTHALATE esters, *LEACHATE, *PLASTIC scrap, *HAZARDOUS substances, *POLLUTANTS
Abstract

Pearl-farming leads to significant plastic pollution in French Polynesia (FP) as the end of life of most farming gear is currently poorly managed. Plastic debris released into the aquatic environment accumulates, with potentially detrimental effects on the lagoon ecosystem and pearl oyster Pinctada margaritifera , a species of ecological, commercial and social value. Here, we tested the effects of leachates from new (N) and aged (A) plastic pearl-farming gear (spat collector and synthetic rope) obtained after 24 h and 120 h incubation, on the embryo-larval development of the pearl oyster using an in-vitro assay. Embryos were exposed for 24 h and 48 h to a negative control (0) and the leachate from 0.1, 1, 10 and 100 g of plastic. L−1. After 24 h exposure to leachate at 100 g.L−1, effects were observed on embryo development (−38% to −60% of formed larvae) and mortality (+72% to +82%). Chemical analyses of plastic gear indicated the presence of 26 compounds, consisting of organic contaminants (PAHs) and additives (mainly phthalates). Screening of leachates demonstrated that these compounds leach into the surrounding seawater with an additional detection of pesticides. Higher levels of phthalates were measured in leachates obtained from new (6.7–9.1 μg.L−1) than from aged (0.4–0.5 μg.L−1) plastics, which could be part of the explanation of the clear difference in toxicity observed after 48 h exposure at lower concentrations (0.1–10 g.L−1), associated with mortality ranging from 26 to 86% and 17–28%, respectively. Overall, this study suggests that plastic gear used in the pearl-farming industry releases significant amounts of hazardous chemicals over their lifetime, which may affect pearl oyster development that call for in-situ exploration. Image 1 • Leachates from plastic pearl-farming gear impair pearl oyster embryo-larval development. • Chemical screening showed a complex mixture of chemicals in plastic leachates. • Leachates obtained from new plastic gear are more toxic than from aged ones. • Plastic pearl-farming gear releases phthalates into the environment during use. [ABSTRACT FROM AUTHOR]

Published
2020
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35. Nanoplastics exposure modulate lipid and pigment compositions in diatoms.

Author

González-Fernández, Carmen, Le Grand, Fabienne, Bideau, Antoine, Huvet, Arnaud, Paul-Pont, Ika, and Soudant, Philippe

Subjects
ALGAE physiology, DIATOMS, LIPIDS, MEMBRANE lipids, PIGMENTS, POLYSTYRENE, CELL anatomy, NONYLPHENOL
Abstract

The impact of nanoplastics (NP) using model polystyrene nanoparticles amine functionalized (PS–NH 2) has been investigated on pigment and lipid compositions of the marine diatom Chaetoceros neogracile , at two growth phases using a low (0.05 μg mL−1) and a high (5 μg mL−1) concentrations for 96 h. Results evidenced an impact on pigment composition associated to the light-harvesting function and photoprotection mainly at exponential phase. NP also impacted lipid composition of diatoms with a re-adjustment of lipid classes and fatty acids noteworthy. Main changes upon NP exposure were observed in galactolipids and triacylglycerol's at both growth phases affecting the thylakoids membrane structure and cellular energy reserve of diatoms. Particularly, exponential cultures exposed to high NP concentration showed an impairment of long chain fatty acids synthesis. Changes in pigment and lipid content of diatom' cells revealed that algae physiology is determinant in the way cells adjust their thylakoid membrane composition to cope with NP contamination stress. Compositions of reserve and membrane lipids are proposed as sensitive markers to assess the impact of NP exposure, including at potential predicted environmental doses, on marine organisms. Image 1 • Nanoplastics (NP) effect on algae was studied at exponential and stationary phase. • NP impact pigment and lipid composition of diatoms at both growth phases. • Algae adjust their thylakoid membrane lipid composition to cope with NP stress. • Algae physiological state is a determinant factor to evaluate NP impact on diatoms. Exposure to nanoplastics impact algal pigment and lipid composition at both growth phases affecting thylakoids membrane structure and cellular energy reserve of diatoms. [ABSTRACT FROM AUTHOR]

Published
2020
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36. Discussion about suitable applications for biodegradable plastics regarding their sources, uses and end of life.

Author

Paul-Pont, Ika, Ghiglione, Jean-François, Gastaldi, Emmanuelle, Ter Halle, Alexandra, Huvet, Arnaud, Bruzaud, Stéphane, Lagarde, Fabienne, Galgani, François, Duflos, Guillaume, George, Matthieu, and Fabre, Pascale

Subjects
*BIODEGRADABLE plastics, *SCIENTIFIC literature, *WASTE treatment, *WASTE management, *ORGANIC wastes, *PLASTICS
Abstract

• - Biodegradable plastics are relevant for selected applications. • - Better certification and clearer instructions are needed to improve waste management. • - Methodological limits hamper the evaluation of plastic biodegradability and toxicity. • - Considering the environment as a waste treatment system is not acceptable. This opinion paper offers a scientific view on the current debate of the place of biodegradable plastics as part of the solution to deal with the growing plastic pollution in the world's soil, aquatic, and marine compartments. Based on the current scientific literature, we focus on the current limits to prove plastic biodegradability and to assess the toxicity of commercially used biobased and biodegradable plastics in natural environments. We also discuss the relevance of biodegradable plastics for selected applications with respect to their use and end of life. In particular, we underlined that there is no universal biodegradability of plastics in any ecosystem, that considering the environment as a waste treatment system is not acceptable, and that the use of compostable plastics requires adaptation of existing organic waste collection and treatment channels. [ABSTRACT FROM AUTHOR]

Published
2023
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37. Structural and functional characterizations of an Activin type II receptor orthologue from the pacific oyster Crassostrea gigas

Author

Le Quéré, Hervé, Herpin, Amaury, Huvet, Arnaud, Lelong, Christophe, and Favrel, Pascal

Subjects
*ACTIVIN, *STRUCTURAL analysis (Science), *HORMONE receptors, *PACIFIC oysters, *TRANSFORMING growth factors-beta, *CELLULAR signal transduction, *POLYPEPTIDES, *GENE expression
Abstract

Abstract: Members of the Transforming Growth factor beta (TGF-β) superfamily of cell signalling polypeptides are known to play important roles in cell proliferation and differentiation during development and in various physiological processes of most animal clades. Recent findings in the mollusc Crassostrea gigas demonstrate the occurrence of a diversity of TGF-β signalling components including various ligands, three type I receptors but only a single type II receptor. This report describes the characterization of Cg-ActRII, a new type II receptor displaying homology with vertebrate and Drosophila Activin type II receptors. The use of zebrafish embryo as a reporter organism revealed that, in a way similar to its zebrafish counterpart, overexpression of Cg-ActRII or its dominant negative acting truncated form resulted in a dose dependent range of dorsoventral defects coupled with anterior disorders. Expression pattern of Cg-ActRII transcripts examined by real time PCR and in situ PCR in C. gigas showed high levels of Cg-ActRII transcripts in early embryonic stages and in the developing larval central nervous system. Except for a high expression in the visceral ganglia, most oyster adult tissues displayed rather low levels of transcripts. Altogether, the data suggest a high degree of conservation at both the structural and functional levels during evolution for this class of receptors. [Copyright &y& Elsevier]

Published
2009
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38. Cellular responses of Pacific oyster (Crassostrea gigas) gametes exposed in vitro to polystyrene nanoparticles.

Author

González-Fernández, Carmen, Tallec, Kevin, Le Goïc, Nelly, Lambert, Christophe, Soudant, Philippe, Huvet, Arnaud, Suquet, Marc, Berchel, Mathieu, and Paul-Pont, Ika

Subjects
*PACIFIC oysters, *GAMETES, *POLYSTYRENE, *NANOPARTICLES, *SPERMATOZOA, *OVUM
Abstract

While the detection and quantification of nano-sized plastic in the environment remains a challenge, the growing number of polymer applications mean that we can expect an increase in the release of nanoplastics into the environment by indirect outputs. Today, very little is known about the impact of nano-sized plastics on marine organisms. Thus, the objective of this study was to investigate the toxicity of polystyrene nanoplastics (NPs) on oyster ( Crassostrea gigas ) gametes. Spermatozoa and oocytes were exposed to four NPs concentrations ranging from 0.1 to 100 mg L −1 for 1, 3 and 5 h. NPs coated with carboxylic (PS-COOH) and amine groups (PS-NH 2 ) were used to determine how surface properties influence the effects of nanoplastics. Results demonstrated the adhesion of NPs to oyster spermatozoa and oocytes as suggested by the increase of relative cell size and complexity measured by flow-cytometry and confirmed by microscopy observations. A significant increase of ROS production was observed in sperm cells upon exposure to 100 mg L −1 PS-COOH, but was not observed with PS-NH 2 , suggesting a differential effect according to the NP-associated functional group. Altogether, these results demonstrate that the effects of NPs occur rapidly, are complex and are possibly associated with the cellular eco-corona, which could modify NPs behaviour and toxicity. [ABSTRACT FROM AUTHOR]

Published
2018
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39. Intertidal limits shape covariation between metabolic plasticity, oxidative stress and telomere dynamics in Pacific oyster (Crassostrea gigas).

Author

Dupoué, Andréaz, Mello, Danielle Ferraz, Trevisan, Rafael, Dubreuil, Christine, Queau, Isabelle, Petton, Sébastien, Huvet, Arnaud, Guével, Blandine, Com, Emmanuelle, Pernet, Fabrice, Salin, Karine, Fleury, Elodie, and Corporeau, Charlotte

Subjects
*PACIFIC oysters, *OXIDATIVE stress, *TELOMERES, *PHENOTYPIC plasticity, *INTERTIDAL zonation, *COST of living
Abstract

In intertidal zones, species such as sessile shellfish exhibit extended phenotypic plasticity to face rapid environmental changes, but whether frequent exposure to intertidal limits of the distribution range impose physiological costs for the animal remains elusive. Here, we explored how phenotypic plasticity varied along foreshore range at multiple organization levels, from molecular to cellular and whole organism acclimatization, in the Pacific oyster (Crassostrea gigas). We exposed 7-month-old individuals for up to 16 months to three foreshore levels covering the vertical range for this species, representing 20, 50 and 80% of the time spent submerged monthly. Individuals at the upper range limit produced energy more efficiently, as seen by steeper metabolic reactive norms and unaltered ATP levels despite reduced mitochondrial density. By spending most of their time emerged, oysters mounted an antioxidant shielding concomitant with lower levels of pro-oxidant proteins and postponed age-related telomere attrition. Instead, individuals exposed at the lower limit range near subtidal conditions showed lower energy efficiencies, greater oxidative stress and shorter telomere length. These results unraveled the extended acclimatization strategies and the physiological costs of living too fast in subtidal conditions for an intertidal species. [Display omitted] • Growing at different foreshore levels shape acclimatization in an intertidal shellfish. • Oysters in high shores produce antioxidant shielding and use energy more efficiently. • These oysters have longer telomeres than those growing in middle and low shores. [ABSTRACT FROM AUTHOR]

Published
2023
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40. Harsh intertidal environment enhances metabolism and immunity in oyster (Crassostrea gigas) spat.

Author

Corporeau, Charlotte, Petton, Sébastien, Vilaça, Romain, Delisle, Lizenn, Quéré, Claudie, Le Roy, Valérian, Dubreuil, Christine, Lacas-Gervais, Sandra, Guitton, Yann, Artigaud, Sébastien, Bernay, Benoît, Pichereau, Vianney, Huvet, Arnaud, Petton, Bruno, Pernet, Fabrice, Fleury, Elodie, Madec, Stéphanie, Brigaudeau, Christophe, Brenner, Catherine, and Mazure, Nathalie M.

Subjects
*PACIFIC oysters, *OYSTERS, *OYSTER culture, *METABOLISM, *NATURAL immunity, *INTERTIDAL zonation, *HERPESVIRUS diseases
Abstract

The Pacific oyster Crassostrea gigas is established in the marine intertidal zone, experiencing rapid and highly dynamic environmental changes throughout the tidal cycle. Depending on the bathymetry, oysters face oxygen deprivation, lack of nutrients, and high changes in temperature during alternation of the cycles of emersion/immersion. Here we showed that intertidal oysters at a bathymetry level of 3 and 5 m delayed by ten days the onset of mortality associated with Pacific Oyster Mortality Syndrome (POMS) as compared to subtidal oysters. Intertidal oysters presented a lower growth but similar energetic reserves to subtidal oysters but induced proteomic changes indicative of a boost in metabolism, inflammation, and innate immunity that may have improved their resistance during infection with the Ostreid herpes virus. Our work highlights that intertidal harsh environmental conditions modify host-pathogen interaction and improve oyster health. This study opens new perspectives on oyster farming for mitigation strategies based on tidal height. [Display omitted] • The metabolism and immunity of oysters are modified as a function of their habitat. • Increasing oysters' bathymetry is an advantage against pathogens in the field. • An intertidal footprint in oysters is detected at the proteomic level. [ABSTRACT FROM AUTHOR]

Published
2022
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41. Characterization of a gonad-specific transforming growth factor-β superfamily member differentially expressed during the reproductive cycle of the oyster Crassostrea gigas

Author

Fleury, Elodie, Fabioux, Caroline, Lelong, Christophe, Favrel, Pascal, and Huvet, Arnaud

Subjects
*GROWTH factors, *CYTOKINES, *PEPTIDES, *HUMAN growth hormone, *BONE morphogenetic proteins
Abstract

Abstract: Through differential screening between oyster families selected for high and low summer survival, we have characterized a new transforming growth factor-β (TGF-β) superfamily member. This novel factor, named oyster-gonadal-TGFβ-like (og-TGFβ-like), is synthesized as a 307 amino acid precursor and displays 6 of the 7 characteristic cysteine residues of the C-terminal, mature peptide. Sequence comparison revealed that og-TGFβ-like has a low percentage of identity with other known TGF-β superfamily members, suggesting that og-TGFβ-like is a derived member of this large superfamily. Real-time PCR (RT-PCR) analysis in different oyster tissues showed that og-TGFβ-like is specifically expressed in both male and female gonads, at distinct levels according to the reproductive stage. Og-TGFβ-like relative expression was the lowest at the initiation of the reproductive cycle and increased as maturation proceeded to achieve a maximal level in fully mature female and male oysters. In situ hybridisation demonstrated that expression was exclusively detected in the somatic cells surrounding oocytes and spermatocytes. The role of this newly-characterized TGFβ member in the reproduction of cupped oyster is discussed in regard to the specificity and the localization of its expression, which singularly contrasts with the pleiotropic roles in a variety of physiological processes commonly ascribed to most TGF-β family members identified so far. [Copyright &y& Elsevier]

Published
2008
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42. Increasing genomic information in bivalves through new EST collections in four species: Development of new genetic markers for environmental studies and genome evolution

Author

Tanguy, Arnaud, Bierne, Nicolas, Saavedra, Carlos, Pina, Benjamin, Bachère, Evelyne, Kube, Michael, Bazin, Eric, Bonhomme, François, Boudry, Pierre, Boulo, Viviane, Boutet, Isabelle, Cancela, Leonor, Dossat, Carole, Favrel, Pascal, Huvet, Arnaud, Jarque, Sergio, Jollivet, Didier, Klages, Sven, Lapègue, Sylvie, and Leite, Ricardo

Subjects
*GENOMICS, *SPECIES, *DNA, *GENETIC polymorphisms
Abstract

Abstract: The generation of EST information is an essential step in the genomic characterisation of species. In the context of the European Network Marine Genomics, a common goal was to significantly increase the amount of ESTs in commercial marine mollusk species and more specifically in the less studied but ecologically and commercially important groups, such as mussel and clam genera. Normalized cDNA libraries were constructed for four different relevant bivalves species (Crassostrea gigas, Mytilus edulis, Ruditapes decussatus and Bathymodiolus azoricus), using numerous tissues and physiological conditions. In this paper, we present the analysis of the 13,013 expressed sequence tags (ESTs) generated. Each EST library was independently assembled and 1300–3000 unique sequences were identified in each species. For the different species, functional categories could be assigned to only about 16 to 27% of ESTs using the GO annotation tool. All sequences have been incorporated into a publicly available database and form the basis for subsequent microarray design, SNP detection and polymorphism analysis, and the placement of novel markers on genetic linkage maps. [Copyright &y& Elsevier]

Published
2008
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43. Cellular and molecular hemocyte responses of the Pacific oyster, Crassostrea gigas, following bacterial infection with Vibrio aestuarianus strain 01/32

Author

Labreuche, Yannick, Lambert, Christophe, Soudant, Philippe, Boulo, Viviane, Huvet, Arnaud, and Nicolas, Jean-Louis

Subjects
*BLOOD cells, *GENE expression, *BACTERIAL diseases, *PACIFIC oysters
Abstract

Abstract: The strategies used by bacterial pathogens to circumvent host defense mechanisms remain largely undefined in bivalve molluscs. In this study, we investigated experimentally the interactions between the Pacific oyster (Crassostrea gigas) immune system and Vibrio aestuarianus strain 01/32, a pathogenic bacterium originally isolated from moribund oysters. First, an antibiotic-resistant V. aestuarianus strain was used to demonstrate that only a limited number of bacterial cells was detected in the host circulatory system, suggesting that the bacteria may localize in some organs. Second, we examined the host defense responses to V. aestuarianus at the cellular and molecular levels, using flow-cytometry and real-time PCR techniques. We showed that hemocyte phagocytosis and adhesive capabilities were affected during the course of infection. Our results also uncovered a previously-undescribed mechanism used by a Vibrio in the initial stages of host interaction: deregulation of the hemocyte oxidative metabolism by enhancing the production of reactive oxygen species and down-regulating superoxide dismutase (Cg-EcSOD) gene expression. This deregulation may provide an opportunity to the pathogen by impairing hemocyte functions and survival. These findings provide new insights into the cellular and molecular bases of the host–pathogen interactions in C. gigas oyster. [Copyright &y& Elsevier]

Published
2006
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