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28 results on '"Huelvan, C."'

2. Dietary vitamin mix levels influence the ossification process in European sea bass (Dicentrarchus labrax) larvae

Author

Mazurais, D., Darias, M.J., Gouillou-Coustans, M.F., Le Gall, M.M., Huelvan, C., Desbruyeres, E., Quazuguel, P., Cahu, C., and Zambonino-Infante, J.L.

Subjects
Morphogenesis -- Research, Gene expression -- Research, Vitamin metabolism -- Research, Bones -- Growth, Bones -- Research, Physiological research, Biological sciences
Abstract

The influence of dietary vitamins on growth, survival, and morphogenesis was evaluated until day 38 of posthatching life in European sea bass larvae (Dicentrarchus labrax). A standard vitamin mix (VM), at double the concentration of the U.S. National Research Council's recommendations, was incorporated into larval feeds at 0.5%, 1.5%, 2.5%, 4.0%, and 8.0% to give treatments VM 0.5, VM 1.5, VM 2.5, VM 4.0, and VM 8.0, respectively. The group fed the VM 0.5 diet all died before day 30. At day 38, the larvae group fed VM 1.5 had 33% survival, while the other groups, with higher vitamin levels, showed at least 50% survival. The higher the percentage VM in the diet, the lower the percentage of column deformities. High dietary vitamin levels positively influenced the formation of mineralized bone in larvae: the higher the dietary vitamin level, the higher the ossification status. In the larvae group fed at the highest vitamin levels, we observed a temporal sequence of coordinated growth factor expression, in which the expression of bone morphometric protein (BMP-4) preceded the expression of IGF-1, which stimulated the maturation of osteoblasts (revealed by high osteocalcin expression levels). In groups fed lower proportions of vitamins, elevated proliferator peroxisomeactivated receptors (PPAR-[gamma]) expression coincided with low BMP-4 expression. Our results suggest that high levels of PPAR-[gamma]/transcripts in larvae-fed diets with a low VM content converted some osteoblasts into adipocytes during the first two weeks of life. This loss of osteoblasts is likely to have caused skeletal deformities. morphogenesis; bone differentiation; dietary vitamins; gene expression

Published
2008

9. The effects of a probiotic treatment of live food organisms on the larvae of Atlantic bluefin tuna, Thunnus thynnus : microbiological and immunological criteria

Author

Covès, D., De Vogue, B., Desbruyères, Elizabeth, Dhormes, B., Fievet, Julie, Huelvan, C., Lallement, S., Le Gall, M.M., Ruelle, F., Vidal, Morgane, Castex, M., Mazurais, David, Cahu, C.L., Gatesoupe, François, Institut Français de Recherche pour l'Exploitation de la Mer (IFREMER), Lallemand S.A.S., Nutrition, Métabolisme, Aquaculture (NUMEA), and Institut National de la Recherche Agronomique (INRA)

Subjects
THUNNUS THYNNUS, [SDV]Life Sciences [q-bio], PROIE VIVANTE, [INFO]Computer Science [cs], TRAITEMENT PROBIOTIQUE, IMMUNOLOGIE, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2011

10. Gene expression pattern of digestive and antioxidant enzymes during the larval development of reared Atlantic bluefin tuna (ABFT), Thunnus thynnus L.

Author

European Commission, Mazurais, D., Covès, D., Papandroulakis, Nikos, Ortega-García, Aurelio, Desbruyeres, E., Huelvan, C., Le-Gall, M.M., de-la-Gándara, Fernando, Cahu, C.L., European Commission, Mazurais, D., Covès, D., Papandroulakis, Nikos, Ortega-García, Aurelio, Desbruyeres, E., Huelvan, C., Le-Gall, M.M., de-la-Gándara, Fernando, and Cahu, C.L.

Abstract

The aim of this study was to determine whether mortality observed during the larval development of reared bluefin tuna (Thunnus thynnus) could be related to improper expression profiles of key genes involved in digestive or anti-oxidant response capabilities. Tuna larvae were sampled at hatching, 2, 5, 10, 15 and 20 dph (days post hatching) for the relative quantification of transcripts encoded by genes involved in digestive (trypsinogen 1 [TRYP1], alpha-amylase [AMY], aminopeptidase N [ANPEP]) and antioxidant (catalase 32 [CAT]) functions. The levels of expression of ANPEP related to the development and maturation of intestinal function increased from 5 to 20 dph. Furthermore, AMY and TRYP1 genes which are pancreatic enzymes implicated in carbohydrate and peptide digestions exhibit a typical peak of expression at 5 and 15 dph respectively. The antioxidant enzyme, CAT, exhibited higher mRNA levels during the first stage of larval development. In conclusion, our investigation indicates that the expression of genes involved in digestive and antioxidant physiological processes followed typical patterns which could not explain high mortality rate observed during the first stage of larval development

Published
2014

12. Excess dietary arginine effects urea excretion but does not improve N utilisation in rainbow trout Oncorhynchus mykiss and turbot Psetta maxima

Author

Fournier, V., Gouillou-Coustans, M.F., Vachot, Christiane, Moriceau, J., Le Delliou, Hervé, Huelvan, C., Desbruyères, Elizabeth, Kaushik, S.J., Station d'hydrobiologie, Institut National de la Recherche Agronomique (INRA), and ProdInra, Migration

Subjects
[SDV.SA.STP]Life Sciences [q-bio]/Agricultural sciences/Sciences and technics of fishery, [SDV.SA.STP] Life Sciences [q-bio]/Agricultural sciences/Sciences and technics of fishery, ALIMENTATION DES POISSONS, ComputingMilieux_MISCELLANEOUS, BAR COMMUN
Abstract

International audience

Published
2003

13. Dietary arginine degradation is a major pathway in ureagenesis in juvenile turbot (Psetta maxima)

Author

Gouillou-Coustans, M.F., Fournier, V., Vachot, Christiane, Desbruyères, Elizabeth, Huelvan, C., Moriceau, J., Le Delliou, Hervé, Kaushik, S.J., ProdInra, Migration, Station d'hydrobiologie, and Institut National de la Recherche Agronomique (INRA)

Subjects
[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio], [SDV.BBM] Life Sciences [q-bio]/Biochemistry, Molecular Biology, [SDV.BBM]Life Sciences [q-bio]/Biochemistry, Molecular Biology, ALIMENTATION DES POISSONS, ComputingMilieux_MISCELLANEOUS
Abstract

International audience

Published
2001

14. Besoins en vitamine C chez les poissons : existe-t-il des differences inter-specifiques ?

Author

Gouillou-Coustans, M.F., Fournier, V., Huelvan, C., Henrique, M., Kaushik, Sadasivam, ProdInra, Migration, Station d'hydrobiologie, and Institut National de la Recherche Agronomique (INRA)

Subjects
[SDV] Life Sciences [q-bio], [SDV]Life Sciences [q-bio], ALIMENTATION DES POISSONS, ComputingMilieux_MISCELLANEOUS
Abstract

National audience

Published
1999

15. Influence of dietary bulk agents (silica, cellulose and a natural zeolite) on protein digestibility, growth, feed intake and feed transit time in European seabass (Dicentrarchus labrax) juveniles

Author

Dias, JAMES ALAN, Huelvan, C., Dinis, M.T., Station d'hydrobiologie, and Institut National de la Recherche Agronomique (INRA)

Subjects
[SDV.SA.STP]Life Sciences [q-bio]/Agricultural sciences/Sciences and technics of fishery, ALIMENTATION DES POISSONS, ComputingMilieux_MISCELLANEOUS, BAR COMMUN
Abstract

International audience

Published
1998

17. The effects of dietary marine protein hydrolysates on the development of sea bass larvae, Dicentrarchus labrax, and associated microbiota.

Author

Delcroix, J., Gatesoupe, F.‐J., Desbruyères, E., Huelvan, C., Le Delliou, H., Le Gall, M.‐M., Quazuguel, P., Mazurais, D., and Zambonino‐Infante, J.L.

Subjects
PROTEIN hydrolysates, SEA basses, FISH larvae, EUROPEAN seabass, PEPTIDES, GUT microbiome
Abstract

Protein hydrolysate is an essential component of dry starter diets for fish larvae, as promoting healthy development. Peptides are also suitable substrates for many intestinal microbes. Five experimental diets were compared to a control diet ( CONT) supplemented with a commercial fish protein hydrolysate. Each diet contained one marine protein hydrolysate, which differed by the proportion of di- and tri-peptides, and by raw materials. Two diets ( HYD4 and HYD5) stimulated larval growth compared with CONT. Two other diets ( HYD1 and HYD2) yielded inferior growth. HYD1 was detrimental for survival, which was associated with an up-regulation of genes involved in inflammation and antioxidative responses, while the gene coding for osteocalcin was down-regulated in this group. The relative activity of enzymes in the brush border membrane of enterocytes was significantly stimulated with diets HYD3 and HYD4. Gut microbiota were influenced by the diet, but the bacterial community profiles observed with HYD3 and HYD4 were the only ones that were not significantly dissimilar. Groups HYD1 and HYD2 showed the most dissimilar microbiota. It was concluded that the nature of the marine protein hydrolysate is important for larval development and health, but a high proportion of small peptides is not a sufficient criterion to assess dietary value. [ABSTRACT FROM AUTHOR]

Published
2015
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23. An early life hypoxia event has a long-term impact on protein digestion and growth in juvenile European sea bass.

Author

Zambonino-Infante JL, Mazurais D, Dubuc A, Quéau P, Vanderplancke G, Servili A, Cahu C, Le Bayon N, Huelvan C, and Claireaux G

Subjects
Animals, Basal Metabolism, Bass metabolism, Bass physiology, Body Size physiology, Climate Change, Larva growth & development, Larva metabolism, Larva physiology, Phenotype, Bass growth & development, Hypoxia metabolism, Proteolysis
Abstract

Ocean warming, eutrophication and the consequent decrease in oxygen lead to smaller average fish size. Although such responses are well known in an evolutionary context, involving multiple generations, this appears to be incompatible with current rapid environmental change. Instead, phenotypic plasticity could provide a means for marine fish to cope with rapid environmental changes. However, little is known about the mechanisms underlying plastic responses to environmental conditions that favour small phenotypes. Our aim was to investigate how and why European sea bass that had experienced a short episode of moderate hypoxia during their larval stage subsequently exhibited a growth depression at the juvenile stage compared with the control group. We examined whether energy was used to cover higher costs for maintenance, digestion or activity metabolisms, as a result of differing metabolic rate. The lower growth was not a consequence of lower food intake. We measured several respirometry parameters and we only found a higher specific dynamic action (SDA) duration and lower SDA amplitude in a fish phenotype with lower growth; this phenotype was also associated with a lower protein digestive capacity in the intestine. Our results contribute to the understanding of the observed decrease in growth in response to climate change. They demonstrate that the reduced growth of juvenile fishes as a consequence of an early life hypoxia event was not due to a change of fish aerobic scope but to a specific change in the efficiency of protein digestive functions. The question remains of whether this effect is epigenetic and could be reversible in the offspring., Competing Interests: Competing interestsThe authors declare no competing or financial interests., (© 2017. Published by The Company of Biologists Ltd.)

Published
2017
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24. The development of contemporary European sea bass larvae ( Dicentrarchus labrax ) is not affected by projected ocean acidification scenarios.

Author

Crespel A, Zambonino-Infante JL, Mazurais D, Koumoundouros G, Fragkoulis S, Quazuguel P, Huelvan C, Madec L, Servili A, and Claireaux G

Abstract

Ocean acidification is a recognized consequence of anthropogenic carbon dioxide (CO 2 ) emission in the atmosphere. Despite its threat to marine ecosystems, little is presently known about the capacity for fish to respond efficiently to this acidification. In adult fish, acid-base regulatory capacities are believed to be relatively competent to respond to hypercapnic conditions. However, fish in early life stage could be particularly sensitive to environmental factors as organs and important physiological functions become progressively operational during this period. In this study, the response of European sea bass ( Dicentrarchus labrax ) larvae reared under three ocean acidification scenarios, i.e., control (present condition, [Formula: see text] = 590 µatm, pH total = 7.9), low acidification (intermediate IPCC scenario, [Formula: see text] = 980 µatm, pH total = 7.7), and high acidification (most severe IPCC scenario, [Formula: see text] = 1520 µatm, pH total = 7.5) were compared across multiple levels of biological organizations. From 2 to 45 days-post-hatching, the chronic exposure to the different scenarios had limited influence on the survival and growth of the larvae (in the low acidification condition only) and had no apparent effect on the digestive developmental processes. The high acidification condition induced both faster mineralization and reduction in skeletal deformities. Global (microarray) and targeted (qPCR) analysis of transcript levels in whole larvae did not reveal any significant changes in gene expression across tested acidification conditions. Overall, this study suggests that contemporary sea bass larvae are already capable of coping with projected acidification conditions without having to mobilize specific defense mechanisms.

Published
2017
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25. The highly variable microbiota associated to intestinal mucosa correlates with growth and hypoxia resistance of sea bass, Dicentrarchus labrax, submitted to different nutritional histories.

Author

Gatesoupe FJ, Huelvan C, Le Bayon N, Le Delliou H, Madec L, Mouchel O, Quazuguel P, Mazurais D, and Zambonino-Infante JL

Subjects
Animals, Bacteria classification, Bacteria genetics, Bass growth & development, Bass metabolism, Oxygen analysis, Phylogeny, Animal Feed analysis, Bacteria isolation & purification, Bass microbiology, Gastrointestinal Microbiome, Intestinal Mucosa microbiology, Oxygen metabolism
Abstract

Background: The better understanding of how intestinal microbiota interacts with fish health is one of the key to sustainable aquaculture development. The present experiment aimed at correlating active microbiota associated to intestinal mucosa with Specific Growth Rate (SGR) and Hypoxia Resistance Time (HRT) in European sea bass individuals submitted to different nutritional histories: the fish were fed either standard or unbalanced diets at first feeding, and then mixed before repeating the dietary challenge in a common garden approach at the juvenile stage., Results: A diet deficient in essential fatty acids (LH) lowered both SGR and HRT in sea bass, especially when the deficiency was already applied at first feeding. A protein-deficient diet with high starch supply (HG) reduced SGR to a lesser extent than LH, but it did not affect HRT. In overall average, 94 % of pyrosequencing reads corresponded to Proteobacteria, and the differences in Operational Taxonomy Units (OTUs) composition were mildly significant between experimental groups, mainly due to high individual variability. The highest and the lowest Bray-Curtis indices of intra-group similarity were observed in the two groups fed standard starter diet, and then mixed before the final dietary challenge with fish already exposed to the nutritional deficiency at first feeding (0.60 and 0.42 with diets HG and LH, respectively). Most noticeably, the median percentage of Escherichia-Shigella OTU_1 was less in the group LH with standard starter diet. Disregarding the nutritional history of each individual, strong correlation appeared between (1) OTU richness and SGR, and (2) dominance index and HRT. The two physiological traits correlated also with the relative abundance of distinct OTUs (positive correlations: Pseudomonas sp. OTU_3 and Herbaspirillum sp. OTU_10 with SGR, Paracoccus sp. OTU_4 and Vibrio sp. OTU_7 with HRT; negative correlation: Rhizobium sp. OTU_9 with HRT)., Conclusions: In sea bass, gut microbiota characteristics and physiological traits of individuals are linked together, interfering with nutritional history, and resulting in high variability among individual microbiota. Many samples and tank replicates seem necessary to further investigate the effect of experimental treatments on gut microbiota composition, and to test the hypothesis whether microbiotypes may be delineated in fish.

Published
2016
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26. Exposure to chronic moderate hypoxia impacts physiological and developmental traits of European sea bass (Dicentrarchus labrax) larvae.

Author

Vanderplancke G, Claireaux G, Quazuguel P, Huelvan C, Corporeau C, Mazurais D, and Zambonino-Infante JL

Subjects
Alkaline Phosphatase metabolism, Aminopeptidases metabolism, Amylases metabolism, Analysis of Variance, Animals, Electron Transport Complex IV metabolism, Hypoxia physiopathology, Larva growth & development, Survival Analysis, Trypsin metabolism, Bass physiology, Energy Metabolism physiology, Fish Diseases physiopathology, Hypoxia veterinary, Mitochondria metabolism
Abstract

Since European sea bass (Dicentrarchus labrax) larvae occurred in coastal and estuarine waters at early life stages, they are likely to be exposed to reduced dissolved oxygen waters at a sensitive developmental stage. However, the effects of hypoxia at larval stage, which depend in part on fish species, remain very poorly documented in European sea bass. In the present study, the impacts of an experimental exposure to a chronic moderate hypoxia (40 % air saturation) between 30 and 38 days post-hatching on the physiological and developmental traits of European sea bass larvae were assessed. This study was based on the investigation of survival and growth rates, parameters related to energy metabolism [Citrate Synthase (CS) and Cytochrome-c Oxidase (COX) activities], and biological indicators of the maturation of digestive function [pancreatic (trypsin, amylase) and intestinal (Alkaline Phosphatase "AP" and Aminopeptidase-N "N-LAP") enzymes activities]. While condition of hypoxia exposure did not induce any significant mortality event, lower growth rate as well as CS/COX activity ratio was observed in the Hypoxia Treatment group. In parallel, intestinal enzyme activities were also lower under hypoxia. Altogether, the present data suggest that sea bass larvae cope with moderate hypoxia by (1) reducing processes that are costly in energy and (2) regulating mitochondria functions in order to respond to energy-demand conditions. Both these effects are associated with a delay in the maturation of the digestive function.

Published
2015
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27. Hypoxia tolerance of common sole juveniles depends on dietary regime and temperature at the larval stage: evidence for environmental conditioning.

Author

Zambonino-Infante JL, Claireaux G, Ernande B, Jolivet A, Quazuguel P, Sévère A, Huelvan C, and Mazurais D

Subjects
Anaerobiosis, Animals, Flatfishes growth & development, Larva growth & development, Larva physiology, Stress, Physiological, Temperature, Climate Change, Diet, Eutrophication, Flatfishes physiology
Abstract

An individual's environmental history may have delayed effects on its physiology and life history at later stages in life because of irreversible plastic responses of early ontogenesis to environmental conditions. We chose a marine fish, the common sole, as a model species to study these effects, because it inhabits shallow marine areas highly exposed to environmental changes. We tested whether temperature and trophic conditions experienced during the larval stage had delayed effects on life-history traits and resistance to hypoxia at the juvenile stage. We thus examined the combined effect of global warming and hypoxia in coastal waters, which are potential stressors to many estuarine and coastal marine fishes. Elevated temperature and better trophic conditions had a positive effect on larval growth and developmental rates; warmer larval temperature had a delayed positive effect on body mass and resistance to hypoxia at the juvenile stage. The latter suggests a lower oxygen demand of individuals that had experienced elevated temperatures during larval stages. We hypothesize that an irreversible plastic response to temperature occurred during early ontogeny that allowed adaptive regulation of metabolic rates and/or oxygen demand with long-lasting effects. These results could deeply affect predictions about impacts of global warming and eutrophication on marine organisms.

Published
2013
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28. Imbalanced dietary ascorbic acid alters molecular pathways involved in skeletogenesis of developing European sea bass (Dicentrarchus labrax).

Author

Darias MJ, Mazurais D, Koumoundouros G, Le Gall MM, Huelvan C, Desbruyeres E, Quazuguel P, Cahu CL, and Zambonino-Infante JL

Subjects
Animals, Ascorbic Acid administration & dosage, Bass growth & development, Bone Morphogenetic Protein 4 genetics, Diet, Dose-Response Relationship, Drug, Insulin-Like Growth Factor I genetics, Larva genetics, Larva growth & development, Organic Anion Transporters, Sodium-Dependent genetics, Osteocalcin genetics, Receptors, Calcitriol genetics, Receptors, Retinoic Acid genetics, Reverse Transcriptase Polymerase Chain Reaction, Signal Transduction drug effects, Signal Transduction genetics, TRPV Cation Channels genetics, Vitamins administration & dosage, Vitamins pharmacology, Retinoic Acid Receptor gamma, Ascorbic Acid pharmacology, Bass genetics, Fish Proteins genetics, Gene Expression Regulation, Developmental drug effects, Osteogenesis genetics
Abstract

The influence of dietary ascorbic acid (AA) on growth and morphogenesis during the larval development of European sea bass (Dicentrarchus labrax) was evaluated until 45days post hatching. Diets incorporated 0, 5, 15, 30, 50 or 400mg AA per kg diet to give AA-0, AA-5, AA-15, AA-30, AA-50 and AA-400 dietary treatments, respectively. Dietary AA levels lower than 15mg/kg reduced larval growth and survival was affected in specimens fed diets devoid of AA. Globally, disruption of the expression of genes involved in AA and calcium absorption in the intestine (SVCT-1, TRPV-6), skeletogenesis (BMP-4, IGF-1, RARγ) and bone mineralization (VDRβ, osteocalcin) were observed in groups fed doses lower and higher than 50mg AA/kg diet. Such disturbances detected at molecular level were associated with disruptions of the ossification process and the appearance of skeletal abnormalities., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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