Type I collagen differences in farmed Chinook salmon (Oncorhynchus tshawytscha) in New Zealand

The integrity and function of Type I collagen (Col-I), a fundamental structural molecule, is central to fish movement. Farmed Chinook salmon in New Zealand are reported to develop a late onset curvature syndrome, lordosis, kyphosis and scoliosis (LKS), associated with inflammation and fibrosis, whic...

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Bibliographic Details
Published in:Aquaculture
Main Authors: Perrott, Matthew R., Lovett, Bailey A., De Clercq, Adelbert, Davie, Peter S., Munday, John S., Morel, Patrick C.H., Preece, Mark A., Symonds, Jane E., Walker, Seumas P., Loo, Trevor, Norris, Gill, Naffa, Rafea
Format: Article in Journal/Newspaper
Language:English
Published: 2020
Subjects:
Biology and Life Sciences
Collagen
Crosslinks
Chinook salmon
Atlantic salmon
Spinal curvature
CROSS-LINK CONCENTRATION
VERTEBRAL DEFORMITIES
SALAR L
FLESH QUALITY
DIETARY PHOSPHORUS
MUSCLE COLLAGEN
LYSYL OXIDASE
GROWTH-RATE
ABNORMALITIES
New Zealand
Online Access:https://biblio.ugent.be/publication/8671337
http://hdl.handle.net/1854/LU-8671337
https://doi.org/10.1016/j.aquaculture.2020.735264
https://biblio.ugent.be/publication/8671337/file/8673280
Description
Summary:The integrity and function of Type I collagen (Col-I), a fundamental structural molecule, is central to fish movement. Farmed Chinook salmon in New Zealand are reported to develop a late onset curvature syndrome, lordosis, kyphosis and scoliosis (LKS), associated with inflammation and fibrosis, which affects movement and product quality. To investigate if type I collagen integrity is associated with LKS, salmon from a farm with high LKS (Farm 1) were compared with a farm with low LKS (Farm 2). Representative salmon from Farm 1 and Farm 2 were harvested at 25 months of age and their physical metrics measured. Condition factor (K) was derived. White muscle samples from the abdominal and caudal regions were sampled and analysed. The properties of Col-I were determined using liquid chromatography-electrospray ionization mass spectrometry. The amount of Col-I in white muscle, inferred from hydroxy-proline [Hyp], was 0.071 and 0.130 ([Hyp (mg) / Dry sample (mg)]%) for Farm 1 and Farm 2 respectively. There was a significant (p < .0004) difference (~2-fold) in [Hyp] between farms and significant differences for all crosslinks reported below. Mature crosslinks histidinohydroxymerodesmosine (HHMD) were ~2.5-fold higher in Farm 1 salmon. Immature crosslinks were ~3-fold dihydroxylysinonorleucine (DHLNL) and >4-fold hydroxylysinonorleucine (HLNL) higher in Farm 1 salmon. Mature pyridinoline (PYR) crosslinks were readily detectable in salmon from Farm 2 but below the threshold for reliable detection in those from Farm 1. The mature crosslink of elastin, desmosine (DES), was ~1.5-fold higher in Farm 2 salmon. We have quantified Col-I in the white muscle compartment of farmed Chinook salmon and established methods to compare the crosslink profile. PYR and DHLNL crosslinks associated with myosepta were significantly different between the populations. Salmon from Farm 2 had both a higher proportion of mature PYR crosslinks and higher [Hyp], additive differences that may be of functional significance. Higher levels of ...

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