Dietary DHA and ARA level and ratio affect the occurrence of skeletal anomalies in pikeperch larvae (Sander lucioperca) through a regulation of immunity and stress related gene expression

Najlae El Kertaoui*, Ivar Lund, Monica B. Betancor, Camille Carpentier, Daniel Montero, Patrick Kestemont

*Corresponding author for this work

Research output: Contribution to journalJournal articleResearchpeer-review

Abstract

Several causative factors have been proposed for the occurrence of skeletal anomalies in fish larvae, among which we quote nutritional factors, such as LC-PUFAs. This study aimed to investigate the effect of different dietary DHA and ARA level and ratio on pikeperch (Sander lucioperca) larval development and performance, digestive capacity, fatty acids composition, skeleton anomalies and molecular markers of oxidative stress status (sod, gpx, and cat), stress response (StAR, gr, pparα, hsl and pepck), fatty acid synthesis (fadsd6, elovl5), eicosanoids synthesis (pla2, cox2, lox5, pge2, and lta4h), and bone development (twist, mef2c, sox9, and alp). Pikeperch larvae were fed six microdiets containing two different dietary levels of DHA (0.5% and 3.5%) combined with three levels of ARA (1.2%, 0.6%, and 0.3%). Dietary fatty acid changes did not affect growth performance but significantly influenced enzymatic activities. A significant increase in skeletal anomalies with DHA intake increment was recorded. StAR, cox2, pla2 and hsl expression were significantly depressed in 2.5% DHA larvae. An opposite effect of dietary DHA elevation was recorded in gpx expression. Both DHA and ARA had a significant effect on pparα, gr, and pge2 expressions. Although no significant interactions were found, pge2, gr, and pparα displayed a differential pattern of expression between the different treatments. A strong association was found for the larval tissue amount of ARA and DHA with eicosanoid metabolism, stress response and skeleton anomaly related genes. These results denoted the effects of dietary LC-PUFAs on immune/stress gene regulation and their potential implication in skeleton development.
Original languageEnglish
Article number737060
JournalAquaculture
Volume544
Number of pages13
ISSN0044-8486
DOIs
Publication statusPublished - 2021

Keywords

  • Pikeperch
  • Skeletal anomalies
  • LC-PUFA
  • Stress gene
  • Larva

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