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INRA
24, chemin de Borde Rouge –Auzeville – CS52627
31326 Castanet Tolosan CEDEX - France

Dernière mise à jour : Mai 2018

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Aquapôle INRA

Inra Bordeaux-Aquitaine
Quartier Ibarron
64310 Saint-Pée-sur-Nivelle
FRANCE

tél : +33 (0) 5 59 51 59 51
fax : +33 (0) 5 59 54 51 52

Stéphanie Fontagné

CR2

Stéphanie Fontagné
© inra, 2007
The topic "Nutrition and anti-oxidant functions" comes within the research context on nutritional quality control of farmed fish for human consumption. Indeed, the nutritional qualities and health-enhancing properties of fish are mainly due to the high level of polyunsatured fatty acids n-3.
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Contact  | Activities | Partnerships | Publications

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Contact

UMR NuAGe (Nutrition, Aquaculture et Génomique)
Team Nutrition - Métabolisme - Aquaculture
Quartier Ibarron
64310 Saint Pée-sur-Nivelle - France
Tel : +33 (0)5 59 51 59 96
Fax: +33 (0)5 59 54 51 52
E-mail: firstname.surname@st-pee.inra.fr

Research activities

  • Cursus and training

    PhD in Feed Sciences and Nutrition - Bordeaux University: 2000
    Post-doctorate in Institute of Aquaculture - Stirling - Scotland: 2000-2001
    Post-doctorate in INRA Dijon: 2002
    Permanent Position as researcher in INRA Saint Pée-sur-Nivelle: 2002

  • Current topics

    The topic "Nutrition and anti-oxidant functions" comes within the research context on nutritional quality control of farmed fish for human consumption. Indeed, the nutritional qualities and health-enhancing properties of fish are mainly due to the high level of polyunsatured fatty acids n-3. However, due to the presence of double bonds, polyunsaturated fatty acids are prone to oxidation. Besides the decrease of nutritional and organoleptic qualities, lipid peroxidation leads to the higher occurence of harmful compounds which have to be maintained at a low level.
    The research project aims to study the nutritional regulation of anti-oxidant functions in fish from early developmental stages in order to preserve polyunsaturated fatty acids in flesh and limit stress oxidative-associated pathologies (for instance: malformations in fish larvae, Figure 1B).  

Tem A3B149J28
Fontagne Fig2b

Figure 1. Larves de poisson colorées au bleu Alcian et rouge Alizarine S.

A : alevin de truite arc-en-ciel nourri avec des lipides oxydés                         

B : larve d'esturgeon sibérien nourrie avec des lipides oxydés présentant des déformations.

     

These anti-oxidant functions consist mainly of enzymes (superoxyde dismutase, catalase and glutathione peroxidase, reductase and transferase) and vitamins. The objective of the ongoing studies is:

  • to test the anti-oxidant role of selected vitamins such as vitamin A in fish broodstock and larval nutrition,
  • to study the nutritional regulation of anti-oxidant enzymes during early life stages in fish larvae fed diets with pro-oxidant ingredients (oxidized lipid in controlled conditions or highly unsaturated lipid) and/or anti-oxidant ingredients (vitamins E and A, astaxanthin).

We study the metabolism of vitamins by HPLC and the control of anti-oxidant enzymes by activity measurements and by quantitative RT-PCR for expression analyses of genes encoding anti-oxidant enzymes. These analyses are completed by the localization of gene expression performed by in situ hybridization on early life stages. The impact of these parameters on the larval development is evaluated (absence of any malformations).

The first results indicate differences in stress oxidant sensitivity among fish species and developmental stages. For instance rainbow trout fry fed oxidized lipid display an increase of anti-oxidant enzyme activity which allow to avoid oxidative stress whereas in the same situation, the absence of control of anti-oxidant enzymes in Siberian sturgeon larvae leads to oxidative stress which results in an increase of lipid peroxidation products in flesh and higher incidence of malformed fish (Figure 1B).

Ongoing partnerships and projects

  • Ongoing projects
    European project FineFish (Improving sustainability of European fish aquaculture by control of malformations): Study of the influence of early nutrition on the morphogenesis of rainbow trout.

Publications selection

  • Fontagné, S., Silva, N., Bazin, D., Ramos, A., Aguirre, P., Surget, A., Abrantes, A., Kaushik, S.J., Power, D.M., 2009. Effects of dietary phosphorus and calcium level on growth and skeletal development in rainbow trout (Oncorhynchus mykiss) fry. Aquaculture 297, 141-150.
  • Fontagné, S., Lataillade, E., Brèque, J., Kaushik, S., 2008. Lipid peroxidative stress and antioxidant defence status during ontogeny of rainbow trout (Oncorhynchus mykiss). Br. J. Nutr. 100, 102-111.
  • Leaver, M.J., Ezaz, M.T., Fontagné, S., Tocher, D.R., Boukouvala, E., Krey, G., 2007. Multiple peroxisome proliferator-activated receptor b subtypes from Atlantic salmon (Salmo salar). J. Mol. Endocrinol., 38, 391-400.
  • Fontagné, S., Bazin, D., Brèque, J., Vachot, C., Bernarde, C., Rouault, T., Bergot, P., 2006. Effects of dietary oxidized lipid and vitamin A on the early development and antioxidant status of Siberian sturgeon (Acipenser baeri) larvae. Aquaculture 257, 400-411.
  • Fontagné, S., Burtaire, L., Corraze, G., Bergot, P., 2000. Effects of dietary medium-chain triacylglycerols (tricaprylin and tricaproin) and phospholipid supply on survival, growth and lipid metabolism in common carp (Cyprinus carpio L.) larvae. Aquaculture 190, 289-303.
  • Fontagné, S., Corraze, G., Bergot, P., 2000. Tricaproin, tricaprin and trilaurin are utilized more efficiently than tricaprylin by carp (Cyprinus carpio L.) larvae. J. Nutr. 130, 2009-2015.