Seasonal and genetic effects on lipid profiles of juvenile Atlantic salmon

Seasonal and genetic effects on lipid profiles of juvenile Atlantic salmon

Seasonality can influence many physiological traits requiring optimal energetic capacity for life-history stage transitions. In Atlantic salmon, high-energy status is essential for the initiation of maturation. Earlier studies have linked a genomic region encoding vgll3 to maturation age, potentiall...

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Veröffentlicht in:Biochimica et biophysica acta. Molecular and cell biology of lipids 2025-01, Vol.1870 (1), p.159565, Article 159565
Hauptverfasser: House, Andrew H., Debes, Paul V., Holopainen, Minna, Käkelä, Reijo, Donner, Iikki, Frapin, Morgane, Ahi, Ehsan Pashay, Kurko, Johanna, Ruhanen, Hanna, Primmer, Craig R.
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Animals
Atlantic salmon
Female
Fish Proteins - genetics
Fish Proteins - metabolism
Genotype
Life-history variation
Lipid droplet
Lipid Metabolism - genetics
Lipidomics
Lipids - genetics
Liver - metabolism
Male
Membrane lipids
Muscles - metabolism
Salmo salar - genetics
Salmo salar - growth & development
Salmo salar - metabolism
Seasonal metabolism
Seasonality
Seasons
Triglycerides - genetics
Triglycerides - metabolism
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container_title Biochimica et biophysica acta. Molecular and cell biology of lipids
container_volume 1870
creator House, Andrew H.
Debes, Paul V.
Holopainen, Minna
Käkelä, Reijo
Donner, Iikki
Frapin, Morgane
Ahi, Ehsan Pashay
Kurko, Johanna
Ruhanen, Hanna
Primmer, Craig R.
description Seasonality can influence many physiological traits requiring optimal energetic capacity for life-history stage transitions. In Atlantic salmon, high-energy status is essential for the initiation of maturation. Earlier studies have linked a genomic region encoding vgll3 to maturation age, potentially mediated via body condition. Vgll3 has also been shown to act as an inhibitor of adipogenesis in mice. Here we investigate the influence of season and vgll3 genotypes associating with early (EE) and late (LL) maturation on lipid profiles in the muscle and liver of juvenile Atlantic salmon. We reared Atlantic salmon for two years from fertilization and sampled muscle and liver during the spring and autumn of the second year (at which time some males were sexually mature). We found no seasonal or genotype effect in the muscle lipid profiles of immature males or females. However, in the liver we detected a triacylglycerol enrichment and a genotype specific direction of change in membrane lipids, phosphatidylcholine and phosphatidylethanolamine, from spring to autumn. Specifically, from spring to autumn membrane lipid concentrations increased in vgll3*EE individuals but decreased in vgll3*LL individuals. This could be explained by 1) a seasonally more stable capacity of endoplasmic reticulum (ER) functions in vgll3*EE individuals compared to vgll3*LL individuals or 2) vgll3*LL individuals storing larger lipid droplets from spring to autumn in the liver compared to vgll3*EE individuals at the expense of ER capacity. This genotype specific seasonal direction of change in membrane lipid concentrations provides more indirect evidence of a potential mechanism linking vgll3 with lipid metabolism and storage. •Seasonal lipid species profile separation in muscle and liver in juvenile Atlantic salmon•Genotype specific direction of change of membrane lipids from spring to autumn•Indirect evidence that a mechanism linking vgll3 with lipid metabolism and storage exists.
doi_str_mv 10.1016/j.bbalip.2024.159565
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subjects Animals
Atlantic salmon
Female
Fish Proteins - genetics
Fish Proteins - metabolism
Genotype
Life-history variation
Lipid droplet
Lipid Metabolism - genetics
Lipidomics
Lipids - genetics
Liver - metabolism
Male
Membrane lipids
Muscles - metabolism
Salmo salar - genetics
Salmo salar - growth & development
Salmo salar - metabolism
Seasonal metabolism
Seasonality
Seasons
Triglycerides - genetics
Triglycerides - metabolism
title Seasonal and genetic effects on lipid profiles of juvenile Atlantic salmon
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