1H-NMR and mass spectrometric characterization of the metabolic response of juvenile Atlantic salmon (Salmo salar) to long-term handling stress

Stressors of various kinds constantly affect fish both in the wild and in culture, examples being acute water temperature and quality changes, predation, handling, and confinement. Known physiological responses of fish to stress such as increases in plasma cortisol and glucose levels, are considered...

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Bibliographic Details
Main Authors: T Karakach, E Huenupi, E Soo, J Walter, Luis Afonso
Format: Other Non-Article Part of Journal/Newspaper
Language:unknown
Published: 2009
Subjects:
Uncategorized
1H-NMR
fish
metabolomics
salmo salar
stress
UPLC-MS
Science & Technology
Life Sciences & Biomedicine
Endocrinology & Metabolism
H-1-NMR
TRIMETHYLAMINE OXIDE
MAGNETIC-RESONANCE
PLASMA-CORTISOL
BREAST-CANCER
NMR
SPECTROSCOPY
METABONOMICS
RATS
PHOSPHOCHOLINE
Atlantic salmon
Salmo salar
Online Access:http://hdl.handle.net/10536/DRO/DU:30047877
https://figshare.com/articles/journal_contribution/1H-NMR_and_mass_spectrometric_characterization_of_the_metabolic_response_of_juvenile_Atlantic_salmon_Salmo_salar_to_long-term_handling_stress/20979712
Description
Summary:Stressors of various kinds constantly affect fish both in the wild and in culture, examples being acute water temperature and quality changes, predation, handling, and confinement. Known physiological responses of fish to stress such as increases in plasma cortisol and glucose levels, are considered to be adaptive, allowing the animal to cope in the short term. Prolonged exposure to stressors however, has the potential to affect growth, immune function, and survival. Nonetheless, little is known about the mechanisms underlying the long-term stress response. We have investigated the metabolic response of juvenile Atlantic salmon (Salmo salar) to long-term handling stress by analyzing fish plasma via 1 H nuclear magnetic resonance spectroscopy and ultra high performance liquid chromatography–mass spectrometry (UPLC–MS), and comparing results with controls. Analysis of NMR data indicated a difference in the metabolic profiles of control and stressed fish after 1 week of stress with a maximum difference observed after 2 weeks. These differences were associated with stress-induced increases in phosphatidyl choline, lactate, carbohydrates, alanine, valine and trimethylamine-N-oxide, and decreases in low density lipoprotein, very low density lipoprotein, and lipid. UPLC-MS data showed differences at week 2, associated with another set of compounds, tentatively identified on the basis of their mass/charge. Overall the results provided a multi-faceted view of the response of fish to long-term handling stress, indicating that the metabolic disparity between the control and stress groups increased to week 2, but declined by weeks 3 and 4, and revealed several new molecular indicators of long-term stress.

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