42 results on '"Sæle, Ø"'
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2. Dietary 18:2n-6 affects EPA (20:5n-3) and ARA (20:4n-6) content in cell membranes and eicosanoid production in Atlantic salmon (Salmo salar L.)
- Author
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Sissener, N.H., Araujo, P., Sæle, Ø., Rosenlund, G., Stubhaug, I., and Sanden, M.
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- 2020
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3. Ossification of Atlantic cod (Gadus morhua) – Developmental stages revisited
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Sæle, Ø., Haugen, T., Karlsen, Ø., van der Meeren, T., Bæverfjord, G., Hamre, K., Rønnestad, I., Moren, M., and Lie, K.K.
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- 2017
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4. Effect of iodine enrichment of Artemia sp. on their nutritional value for larval zebrafish ( Danio rerio)
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Hawkyard, M., Sæle, Ø., Nordgreen, A., Langdon, C., and Hamre, K.
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- 2011
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5. Increasing the level of selenium in rotifers ( Brachionus plicatilis ‘Cayman’) enhances the mRNA expression and activity of glutathione peroxidase in cod ( Gadus morhua L.) larvae
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Penglase, S., Nordgreen, A., van der Meeren, T., Olsvik, P.A., Sæle, Ø., Sweetman, J.W., Baeverfjord, G., Helland, S., and Hamre, K.
- Published
- 2010
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6. Iodine and selenium supplementation increased survival and changed thyroid hormone status in Senegalese sole (Solea senegalensis) larvae reared in a recirculation system
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Ribeiro, A. R. A., Ribeiro, L., Sæle, Ø., Dinis, M. T., and Moren, M.
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- 2012
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7. Technical feed quality influences health, digestion patterns, body mineralization and bone development in farming of the stomachless cleaner fish ballan wrasse (Labrus bergylta)
- Author
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Kousoulaki, K., primary, Grøtan, E., additional, Kortner, T.M., additional, Berge, G.M., additional, Haustveit, G., additional, Krogdahl, Å., additional, Nygaard, H., additional, Sæle, Ø., additional, Chikwati, E.M., additional, and Lein, I., additional
- Published
- 2021
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8. Chapter 3. Feeding Behaviour and Digestive Physiology in Larval Fish: Current Knowledge, and Gaps and Bottlenecks in Research
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Rønnestad, I, Yúfera, M, Ueberschär, B, Ribeiro, L, Sæle, Ø, Izquierdo, M, and Boglione, C
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Settore AGR/19 - Zootecnica Speciale ,Settore BIO/07 ,Settore AGR/20 - Zoocolture ,Settore AGR/18 - Nutrizione e Alimentazione Animale - Published
- 2018
9. Feeding behaviour and digestive physiology in larval fish: Current knowledge, and gaps and bottlenecks in research
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Rønnestad, I, Yúfera, M, Ueberschär, B, Ribeiro, L, Sæle, Ø, Izquierdo, M, and Boglione, C
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Settore BIO/07 ,media_common.quotation_subject ,Management, Monitoring, Policy and Law ,Aquatic Science ,Biology ,Predation ,Absorption ,03 medical and health sciences ,Nutrient ,Aquaculture ,Gut ,14. Life underwater ,absorption, digestion, gut, ingestion ,030304 developmental biology ,media_common ,0303 health sciences ,Ecology ,business.industry ,Ingestion ,fungi ,Appetite ,04 agricultural and veterinary sciences ,Ichthyoplankton ,040102 fisheries ,0401 agriculture, forestry, and fisheries ,Digestion ,Digestive functions ,Adaptation ,business - Abstract
Food uptake follows rules defined by feeding behaviour that determines the kind and quantity of food ingested by fish larvae as well as how live prey and food particles are detected, captured and ingested. Feeding success depends on the progressive development of anatomical characteristics and physiological functions and on the availability of suitable food items throughout larval development. The fish larval stages present eco-morpho-physiological features very different from adults and differ from one species to another. The organoleptic properties, dimensions, detectability, movements characteristics and buoyancy of food items are all crucial features that should be considered, but is often ignored, in feeding regimes. Ontogenetic changes in digestive function lead to limitations in the ability to process certain feedstuffs. There is still a lack of knowledge about the digestion and absorption of various nutrients and about the ontogeny of basic physiological mechanisms in fish larvae, including how they are affected by genetic, dietary and environmental factors. The neural and hormonal regulation of the digestive process and of appetite is critical for optimizing digestion. These processes are still poorly described in fish larvae and attempts to develop optimal feeding regimes are often still on a 'trial and error' basis. A holistic understanding of feeding ecology and digestive functions is important for designing diets for fish larvae and the adaptation of rearing conditions to meet requirements for the best presentation of prey and microdiets, and their optimal ingestion, digestion and absorption. More research that targets gaps in our knowledge should advance larval rearing. © 2013 Wiley Publishing Asia Pty Ltd., This study benefited from participation in LARVANET – COST action FA0801 (EU RTD framework Programme). I.R. received funding from the Research Council of Norway (CODE- 199482 and GutFeeling- 190019) and the EC FP7 (LIFECYCLE- 222719). M.Y. received financial support from the Spanish Ministry of Science and Innovation MICINN + FEDER/ERDF (projects AGL2007-64450-C02-01 and Consolider Ingenio 2010 Program-project Aquagenomics CSD2007-0002). C.B. received funding from the Italian Ministry of Agricultural, Forestry and Alimentary Policy (Law 41/82) (projects 5C49- 6C138).
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- 2013
10. Iodine nutrition and toxicity in Atlantic cod (Gadus morhua) larvae
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Penglase, S, primary, Harboe, T, additional, Sæle, Ø, additional, Helland, S, additional, Nordgreen, A, additional, and Hamre, K, additional
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- 2013
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11. Selenium supplementation changes glutathione peroxidase activity and thyroid hormone production in Senegalese sole (Solea senegalensis) larvae
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RIBEIRO, A.R.A., primary, RIBEIRO, L., additional, SAELE, Ø., additional, HAMRE, K., additional, DINIS, M.T., additional, and MOREN, M., additional
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- 2012
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12. Iodine and selenium supplementation increased survival and changed thyroid hormone status in Senegalese sole (Solea senegalensis) larvae reared in a recirculation system
- Author
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Ribeiro, A. R. A., primary, Ribeiro, L., additional, Sæle, Ø., additional, Dinis, M. T., additional, and Moren, M., additional
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- 2011
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13. Iodine-enriched rotifers and Artemia prevent goitre in Senegalese sole (Solea senegalensis) larvae reared in a recirculation system
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RIBEIRO, A.R.A., primary, RIBEIRO, L., additional, SAELE, Ø., additional, HAMRE, K., additional, DINIS, M.T., additional, and MOREN, M., additional
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- 2011
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14. Pre-digestion of dietary lipids has only minor effects on absorption, retention and metabolism in larval stages of Atlantic cod (Gadus morhua)
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Hamre, K., primary, Lukram, I. M., additional, Rønnestad, I., additional, Nordgreen, A., additional, and Sæle, Ø., additional
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- 2010
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15. Looking closer at the determining of a phenotype? Compare by stages or size, not age
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Saele, Ø., primary and Pittman, K. A., additional
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- 2010
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16. Phenotypic plasticity as a correlate of metabolic scaling in teleosts
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Finn, R.N., primary, Sæle, Ø., additional, and Pittman, K.A., additional
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- 2008
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17. Staging of Atlantic halibut (Hippoglossus hippoglossus L.) from first feeding through metamorphosis, including cranial ossification independent of eye migration
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Sæle, Ø., primary, Solbakken, J.S., additional, Watanabe, K., additional, Hamre, K., additional, Power, D., additional, and Pittman, K., additional
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- 2004
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18. The effect of diet on ossification and eye migration in Atlantic halibut larvae (Hippoglossus hippoglossus L.)
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Sæle, Ø., primary, Solbakken, J.S., additional, Watanabe, K., additional, Hamre, K., additional, and Pittman, K., additional
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- 2003
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19. Pre-digestion of dietary lipids has only minor effects on absorption, retention and metabolism in larval stages of Atlantic cod (Gadus morhua).
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Hamre, K., Lukram, I. M., Rønnestad, I., Nordgreen, A., and Sæle, Ø.
- Abstract
The hypothesis of the present study was that cod larvae have a limitation in lipid digestion, and that absorption of lipids would increase by pre-hydrolysation. The diets used were designed to contain 15 % lipid, of which 40 % was phosphatidylcholine (PC) and 60 % was TAG. Cod larvae (40 d post hatch (dph)) were fed a single meal where either PC or TAG was radioactively labelled, and the labelled PC or TAG was either intact or hydrolysed (pre-digested). The larvae were then incubated individually in chambers with collection of CO2 for 10 h. The following fractions were analysed for radioactivity: the incubation water (evacuated feed); the intestine; the body; the CO2 trap. The larvae ate a 16–29 μg diet, equivalent to 3·4–5·2 % of dry body weight. In the whole population, 0–16 % of the lipid was evacuated. The larvae that had eaten less than 1·9–2·7 μg lipid absorbed close to 100 % of the lipid, absorption being defined conservatively as the amount contained in the carcass and CO2, excluding the intestinal tissue. In these larvae, approximately 100 % of the absorbed lipid was also catabolised. In the larvae that ingested more than 1·9–2·7 μg lipid, there was a linear reduction in lipid absorption to a minimum of 55 % at the highest lipid intakes parallel to an increasing retention of lipids in the carcass. There were only minor differences in digestion, absorption, retention and metabolism of lipids between the larvae fed the different diets, and the larvae tended to retain lipid classes as they were present in the feed. The study shows that 40-dph Atlantic cod larvae have an efficient utilisation of dietary lipids supplied as intact PC and TAG. [ABSTRACT FROM PUBLISHER]
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- 2011
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20. Looking closer at the determining of a phenotype? Compare by stages or size, not age.
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Sæle, Ø. and Pittman, K. A.
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FISH genetics , *ATLANTIC halibut , *GENOTYPE-environment interaction , *FISH development , *ONTOGENY - Abstract
During ontogeny, individual fish larvae and juveniles will develop at different paces despite apparently identical age and environment, and even genetic background. The urgent need to elucidate mechanisms critical to juvenile production, recruitment or even lifelong growth patterns implies that measures and results are compared by a meaningful standard such as developmental stage of the individual fish. Characterizations of developmental stages based on relatively invariable characteristics such as the sequence of cranial ossification have proven to be not only commercially and scientifically applicable in Atlantic halibut, but also point to a practical use for a character which is preserved in most fishes examined. Once described, useful proxies for stage determinants may be size parameters such as standard length, or preferably myotome height (particularly for flatfishes). The worst proxy for development of a batch of fish is age, exacerbated by the expense of analyzing irrelevant intervals. [ABSTRACT FROM AUTHOR]
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- 2010
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21. Influence of egg vitamin A status and egg incubation temperature on subsequent development of the early vertebral column in Atlantic salmon fry.
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Ørnsrud, R., Wargelius, A., Sæle, Ø., Pittman, K., and Waagbø, R.
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ATLANTIC salmon ,SALMON ,INCUBATION of fish eggs ,FISH development ,ABNORMALITIES in animals ,VITAMIN A ,FISHES - Abstract
The effect of egg vitamin A (VA) status and egg incubation temperature on the development of spinal disorders was investigated in Atlantic salmon Salmo salar fry. Atlantic salmon eggs were sorted into two groups with high VA (3·3 ± 0·1 μg retinol g
−1 dry mass) and low VA (2·2 ± 0·3 μg retinol g−1 dry mass) status before fertilization and incubated at high (14° C) or low (8° C) temperature from 133 day degrees until the onset of feeding. High egg incubation temperatures increased the concentration of retinol in the eggs: the high VA and high temperature group displayed a significantly higher retinol concentration than the high VA and low temperature group ( P = 0·001). After hatching, all experimental groups increased their retinol concentration. The source of the increased retinol levels was probably retinal, although astaxanthin may also be a VA precursor after hatching. Atlantic salmon fry incubated at high temperatures had increased amounts of notochord tissue. When measuring morphogenic activity in the notochord using the expression of sonic hedgehog ( shh, mRNA), however, no significant difference was found between the experimental groups. No clear effect of VA status or incubation temperature could be found on the formation of the early vertebral column although Atlantic salmon fry incubated at low temperatures had less regular constrictions of the prospective vertebral column than fry incubated at high temperatures. [ABSTRACT FROM AUTHOR]- Published
- 2004
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22. The ontogeny of lymphoid organs and IgM + B-cells in ballan wrasse (Labrus bergylta) reveals a potential site for extrarenal B-cell lymphopoiesis: The pancreas.
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Etayo A, Bjørgen H, Koppang EO, Lie KK, Bjelland RM, Hordvik I, Øvergård AC, and Sæle Ø
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- Animals, Fishes, Immunoglobulin M, Pancreas, Lymphopoiesis, Perciformes
- Abstract
Vaccination of farmed fish is the most effective prophylactic measure against contagious diseases but requires specific knowledge on when the adaptive immune system is fully developed. The present work describes kidney and spleen morphogenesis as well as B-cell development in the ballan wrasse (Labrus bergylta). The kidney was present at hatching (0 days pot hatching, dph) but was not lymphoid before larvae was 50-60 dph (stage 5), containing abundant Igμ
+ cells. The spleen anlage was first observed in larvae at 20-30 dph and was later populated with B-cells. Unexpectedly, we found strong RAG1 signal together with abundant Igμ+ and IgM+ cells in the exocrine pancreas of larvae from when the kidney was lymphoid and onwards, suggesting that B-cell lymphopoiesis occurs not only in the head kidney (HK) but also in pancreatic tissue. In this agastric fish, the pancreas is diffused along the intestine and the early presence of IgM+ B-cells in pancreatic tissue might have a role in maintain immune homeostasis in the peritoneal cavity, making a substantial contribution to early protection. IgM-secreting cells in HK indicate the presence of systemic IgM at stage 5, before the first IgM+ cells were identified in mucosal sites. This work together with our previous study on T-cell development in this species indicates that although T- and B-cells start to develop around the same time, B-cells migrate to mucosal tissues ahead of T-cells. This early migration likely involves the production of natural antibodies, contributing significantly to early protection. Moreover, a diet composed of barnacle nauplii did not result in an earlier onset of B-cell lymphopoiesis, as seen in the previous study analysing T-cell development. Nevertheless, components for adaptive immunity indicating putative immunocompetence is likely achieved in early juveniles (>100 dph). Additionally, maternal transfer of IgM to the offspring is also described. These findings provide important insights into the development of the immune system in ballan wrasse and lay the foundation for optimizing prophylactic strategies in the future. Furthermore, this work adds valuable information to broaden the knowledge on the immune system in lower vertebrates., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2023 The Authors. Published by Elsevier Ltd.. All rights reserved.)- Published
- 2024
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23. Soya saponins and prebiotics alter intestinal functions in Ballan wrasse ( Labrus bergylta ).
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Zhou W, Lie KK, Chikwati E, Kousoulaki K, Lein I, Sæle Ø, Krogdahl Å, and Kortner TM
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- Animals, Prebiotics, Fishes, Inflammation, Saponins pharmacology, Perciformes genetics
- Abstract
A 5-week feeding trial was conducted in the cleaner fish Ballan wrasse ( Labrus bergylta ) for a better understanding of the basic biology of the intestinal functions and health in this stomach less species. During the trial, Ballan wrasse was fed either a reference diet, the reference diet supplemented with (i) a commercial prebiotic (Aquate™ SG, 0·4 %) expected to have beneficial effects, (ii) soya saponins (0·7 %) expected to induce inflammation or (iii) a combination of the prebiotics and the soya saponins to find a remedy for gut inflammation. Blood, intestinal tissue and gut content from four consecutive intestinal segments (IN1 - IN4) were collected. No significant differences in fish growth were observed between the four dietary groups. Saponin supplementation, both alone and in combination with prebiotics, increased weight index of IN2 and IN3 and decreased blood plasma glucose, cholesterol and total protein. Dry matter of intestinal content and activity of digestive enzymes were not affected by diet. Histomorphological analyses revealed a progressing inflammation with increased infiltration by immune cells particularly into the distal parts of the intestine in fish fed diets with saponins, both alone and in combination with prebiotics. Gene expression profiles obtained by RNA sequencing and quantitative PCR mirrored the histological and biochemical changes induced by the saponin load. The study demonstrated that Ballan wrasse gut health and digestive function may be markedly affected by feed ingredients containing antinutrients.
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- 2023
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24. The thymus and T-cell ontogeny in ballan wrasse ( Labrus bergylta ) is nutritionally modelled.
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Etayo A, Lie KK, Bjelland RM, Hordvik I, Øvergård AC, and Sæle Ø
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- Animals, Fishes, Immunoglobulin M, T-Lymphocytes, Homeodomain Proteins, Perciformes
- Abstract
Marine fish larvae often experience high mortality unrelated to predation during early life stages, and farmed ballan wrasse ( Labrus bergylta ) is no exception. Knowing when the adaptive immune system is developed and fully functional, and how nutrition may modulate these processes is therefore of importance to establish effective prophylactic measures and will also extend the relatively limited knowledge on the immune system in lower vertebrates. The thymus anlage of ballan wrasse was found to be histologically visible for the first time at larval stage 3 (20-30 days post hatch, dph) and becomes lymphoid at stage 5 (50-60 dph) correlating with an increase of T-cell marker transcripts. At this stage, a clear zonation into a RAG1
+ cortex and a RAG1- CD3ϵ+ medulla was distinguished, indicating that T-cell maturation processes in ballan wrasse are similar to other teleosts. The higher abundance of CD4-1+ compared to CD8β+ cells in the thymus together with the apparent lack of CD8β+ cells in gill, gut, and pharynx, where CD4-1+ cells were identified, indicates that helper T-cells have a more prominent role during larval development compared to cytotoxic T-cells. As ballan wrasse lacks a stomach but has an exceptionally high IgM expression in the hindgut, we hypothesize that helper T-cells are crucial for activation and recruitment of IgM+ B-cells and possibly other leukocytes to the gut during early development. Nutritional factors such as DHA/EPA, Zn and Se may lead to an earlier expression of certain T-cell markers as well as a larger size of the thymus, indicating an earlier onset of adaptive immunity. Including live feeds that supplies the larva with higher amounts of these nutrients can therefore be beneficial for ballan wrasse farming., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2023 Etayo, Lie, Bjelland, Hordvik, Øvergård and Sæle.)- Published
- 2023
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25. Developmental stages of the ballan wrasse from first feeding through metamorphosis: Cranial ossification and the digestive system.
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Norland S, Saele Ø, and Rønnestad I
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- Animals, Metamorphosis, Biological, Mouth, Osteogenesis, Skull, Perciformes
- Abstract
We have described six developmental stages for the ballan wrasse, from the first feeding until the juvenile stage, supported by specific descriptions of cranial ossification, maturation of the digestive tract, and growth-correlated stages. The initial formation and development of bones are closely linked to the functional anatomical structures required for the mechanics of its feeding behavior and ingestion, particularly the jaws and branchial regions involved in opening the mouth and capturing food particles. The overall ontogeny of the cranial structure compares to that of other teleosts. The cranial ossification of the ballan wrasse skull and the development of its dentary apparatus-first pharyngal teeth and later oral teeth-is linked to the development of the digestive system and to their feeding habits, from preying on zooplankton to feeding on crustaceans and invertebrates on rocks and other substrates. As ballan wrasse is a nibbler, eating small meals, the digestive tract is short compared to the length of the fish; there is no stomach or peptic digestion and also no distinctive bulbus and pyloric ceca. The liver and exocrine pancreas and their outlets terminating in the lumen of the most anterior part of the intestine are important in the digestive process and develop with a larger volume than that in gastric teleosts, relative to the digestive system., (© 2022 The Authors. Journal of Anatomy published by John Wiley & Sons Ltd on behalf of Anatomical Society.)
- Published
- 2022
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26. Digestive and immune functions in the intestine of wild Ballan wrasse (Labrus bergylta).
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Zhou W, Krogdahl Å, Sæle Ø, Chikwati E, Løkka G, and Kortner TM
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- Animals, Biomarkers metabolism, Cholesterol metabolism, Female, Fish Diseases, Gene Expression Regulation, Hydrolysis, Immune System, Immunoglobulin M metabolism, Leucyl Aminopeptidase metabolism, Male, Mucous Membrane metabolism, Norway, alpha-Glucosidases metabolism, Digestion physiology, Gene Expression Profiling, Immunity physiology, Intestines metabolism, Perciformes physiology
- Abstract
This study was carried out to profile key characteristics of intestinal functions and health in wild-caught Ballan wrasse. To describe functional variation along the intestine, samples were collected from four intestinal segments, named from the proximal to the distal segment: IN1, IN2, IN3 and IN4. The sections showed quite similar structure, i.e. regarding mucosal fold height and branching, lamina propria and submucosal width and cellular composition and thickness of the muscle layers. Leucine aminopeptidase and maltase capacity decreased from IN1 to IN4, suggesting a predominant role of IN1 in digestion. Gene expression levels of vitamin C transporter (slc23a1) and fatty acid transporters (cd36 and fabp2) were higher in IN1 than in IN4, indicating a more important role of the proximal intestine regarding transport of vitamins and fatty acids. Higher expression of the gene coding for IgM heavy chain constant region (ighm) was found in IN4 than in IN1, suggesting an important immune function of the distal intestine. Other immune related genes il1b, il6, cd40, showed similar expression in the proximal and the distal part of the intestine. Parasite infection, especially the myxozoan parasite Enteromyxum leei, coincided with infiltration of lymphocytic and eosinophilic granular cells in the submucosa and lamina propria. The present study established reference information necessary for interpretation of results of studies of intestinal functions and health in cultured Ballan wrasse., (Copyright © 2021 Elsevier Inc. All rights reserved.)
- Published
- 2021
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27. Dietary Lipid Modulation of Intestinal Serotonin in Ballan Wrasse ( Labrus bergylta )- In Vitro Analyses.
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Etayo A, Le HTMD, Araujo P, Lie KK, and Sæle Ø
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- Animals, Gastrointestinal Motility drug effects, Gastrointestinal Motility genetics, Gastrointestinal Tract drug effects, Gastrointestinal Tract metabolism, Gene Expression Regulation drug effects, In Vitro Techniques, Intestines metabolism, Lipid Metabolism drug effects, Lipid Metabolism genetics, Serotonin pharmacology, Dietary Fats pharmacology, Intestines drug effects, Perciformes genetics, Perciformes metabolism, Serotonin metabolism
- Abstract
Serotonin (5-HT) is pivotal in the complex regulation of gut motility and consequent digestion of nutrients via multiple receptors. We investigated the serotonergic system in an agastric fish species, the ballan wrasse (Labrus bergylta) as it represents a unique model for intestinal function. Here we present evidence of the presence of enterochromaffin cells (EC cells) in the gut of ballan wrasse comprising transcriptomic data on EC markers like adra2a, trpa1, adgrg4, lmxa1, spack1, serpina10 , as well as the localization of 5-HT and mRNA of the rate limiting enzyme; tryptophan hydroxylase ( tph1 ) in the gut epithelium. Second, we examined the effects of dietary marine lipids on the enteric serotonergic system in this stomach-less teleost by administrating a hydrolyzed lipid bolus in ex vivo guts in an organ bath system. Modulation of the mRNA expression from the tryptophan hydroxylase tph1 (EC cells isoform), tph2 (neural isoform), and other genes involved in the serotonergic machinery were tracked. Our results showed no evidence to confirm that the dietary lipid meal did boost the production of 5-HT within the EC cells as mRNA tph1 was weakly regulated postprandially. However, dietary lipid seemed to upregulate the post-prandial expression of tph2 found in the serotonergic neurons. 5-HT in the intestinal tissue increased 3 hours after "exposure" of lipids, as was observed in the mRNA expression of tph2 . This suggest that serotonergic neurons and not EC cells are responsible for the substantial increment of 5-HT after a lipid-reach "meal" in ballan wrasse. Cells expressing tph1 were identified in the gut epithelium, characteristic for EC cells. However, Tph1 positive cells were also present in the lamina propria. Characterization of these cells together with their implications in the serotonergic system will contribute to broad the scarce knowledge of the serotonergic system across teleosts., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2021 Etayo, Le, Araujo, Lie and Sæle.)
- Published
- 2021
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28. Physical and nutrient stimuli differentially modulate gut motility patterns, gut transit rate, and transcriptome in an agastric fish, the ballan wrasse.
- Author
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Le HTMD, Lie KK, Etayo A, Rønnestad I, and Sæle Ø
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- Animal Nutritional Physiological Phenomena, Animals, Fish Proteins genetics, Fish Proteins metabolism, Fishes metabolism, Intestinal Mucosa metabolism, Fishes physiology, Gastrointestinal Motility, Movement, Nutrients metabolism, Transcriptome
- Abstract
The effects of nutrient and mechanical sensing on gut motility and intestinal metabolism in lower vertebrates remains largely unknown. Here we present the transcriptome response to luminal stimulation by nutrients and an inert bolus on nutrient response pathways and also the response on gut motility in a stomachless fish with a short digestive tract; the ballan wrasse (Labrus berggylta). Using an in vitro model, we differentiate how signals initiated by physical stretch (cellulose and plastic beads) and nutrients (lipid and protein) modulate the gut evacuation rate, motility patterns and the transcriptome. Intestinal stretch generated by inert cellulose initiated a faster evacuation of digesta out of the anterior intestine compared to digestible protein and lipid. Stretch on the intestine upregulated genes associated with increased muscle activity, whereas nutrients stimulated increased expression of several neuropeptides and receptors which are directly involved in gut motility regulation. Although administration of protein and lipid resulted in similar bulbous evacuation times, differences in intestinal motility, transit between the segments and gene expression between the two were observed. Lipid induced increased frequency of ripples and standing contraction in the middle section of the intestine compared to the protein group. We suggest that this difference in motility was modulated by factors [prepronociceptin (pnoca), prodynorphin (pdyn) and neuromedin U (nmu), opioid neurotransmitters and peptides] that are known to inhibit gastrointestinal motility and were upregulated by protein and not lipid. Our findings show that physical pressure in the intestine initiate contractions propelling the bolus distally, directly towards the exit, whereas the stimuli from nutrients modulates the motility to prolong the residence time of digesta in the digestive tract for optimal digestion., Competing Interests: The authors have declared that no competing interests exist.
- Published
- 2021
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29. Effects of Cholecystokinin (CCK) on Gut Motility in the Stomachless Fish Ballan Wrasse ( Labrus bergylta ).
- Author
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Le HTMD, Lie KK, Giroud-Argoud J, Rønnestad I, and Sæle Ø
- Abstract
Cholecystokinin (CCK) is well-known as a key hormone that inhibits stomach emptying and stimulates midgut motility in gastric species. However, the function of CCK related to gut motility in agastric fish, especially in fish with a short digestive tract such as ballan wrasse, remains unknown. Here we present a detailed description of the spatio-temporal quantification of intestinal motility activity in vitro comprising the complete intestinal tract in ballan wrasse. We show that CCK modulates intestinal motility, having multiple effects on motility patterns depending on location in the gut and types of contractions. CCK reduced propagating contractions in the foregut, but it increased both non-propagating and propagating contractions in the hindgut. CCK also altered the direction of propagating contractions, as it reduced anterograde ripples and slow propagating contractions. The velocity of propagating contractions was slowed down by CCK. CCK also reduced the amplitude of standing contractions and ripples, but it did not alter the amplitude of slow propagating contractions. The presence of CCKA receptor antagonist modulated the motility responses of ballan wrasse intestines when exposed to CCK. We also showed that CCK reduced the intestinal length and stimulated motility to empty the gallbladder. Based on our findings we hypothesize that CCK, mainly through the CCKA receptor, modulates non-propagating and propagating contractions to optimize digestion and absorption and regulate the intestinal evacuation in ballan wrasse. We also found evidence that the modulation of intestinal motility by CCK is different in agastric fish from that in gastric vertebrates. We suggest that this is an evolutionary adaptation to optimize digestion without a stomach.
- Published
- 2019
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30. A novel system to quantify intestinal lipid digestion and transport.
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Sæle Ø, Rød KEL, Quinlivan VH, Li S, and Farber SA
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- Animals, Boron Compounds chemistry, Chromatography, High Pressure Liquid methods, Dietary Fats administration & dosage, Enterocytes cytology, Fatty Acids administration & dosage, Fatty Acids chemistry, Fluorescent Dyes chemistry, Intestinal Absorption, Intestines cytology, Lipid Droplets, Lipid Metabolism, Phosphatidylcholines administration & dosage, Phosphatidylcholines chemistry, Triglycerides administration & dosage, Triglycerides chemistry, Zebrafish, Dietary Fats metabolism, Enterocytes metabolism, Fatty Acids metabolism, Intestinal Mucosa metabolism, Larva metabolism, Phosphatidylcholines metabolism, Triglycerides metabolism
- Abstract
The zebrafish larva is a powerful tool for the study of dietary triglyceride (TG) digestion and how fatty acids (FA) derived from dietary lipids are absorbed, metabolized and distributed to the body. While fluorescent FA analogues have enabled visualization of FA metabolism, methods for specifically assaying TG digestion are badly needed. Here we present a novel High Performance Liquid Chromatography (HPLC) method that quantitatively differentiates TG and phospholipid (PL) molecules with one or two fluorescent FA analogues. We show how this tool may be used to discriminate between undigested and digested TG or phosphatidylcholine (PC), and also the products of TG or PC that have been digested, absorbed and re-synthesized into new lipid molecules. Using this approach, we explored the dietary requirement of zebrafish larvae for phospholipids. Here we demonstrate that dietary TG is digested and absorbed in the intestinal epithelium, but without dietary PC, TG accumulates and is not transported out of the enterocytes. Consequently, intestinal ER stress increases and the ingested lipid is not available support the energy and metabolic needs of other tissues. In TG diets with PC, TG is readily transported from the intestine and subsequently metabolized., (Copyright © 2018 The Author(s). Published by Elsevier B.V. All rights reserved.)
- Published
- 2018
- Full Text
- View/download PDF
31. T Cell Receptor Alpha Chain Genes in the Teleost Ballan Wrasse (Labrus bergylta) Are Subjected to Somatic Hypermutation.
- Author
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Bilal S, Lie KK, Sæle Ø, and Hordvik I
- Subjects
- Amino Acid Sequence, Animals, Chromosome Mapping, Computational Biology methods, DNA, Complementary, Genome, Genomics methods, High-Throughput Nucleotide Sequencing, Mutation, Polymorphism, Single Nucleotide, Fishes genetics, Genes, T-Cell Receptor alpha, Somatic Hypermutation, Immunoglobulin
- Abstract
Previously, somatic hypermutation (SHM) was considered to be exclusively associated with affinity maturation of antibodies, although it also occurred in T cells under certain conditions. More recently, it has been shown that SHM generates diversity in the variable domain of T cell receptor (TCR) in camel and shark. Here, we report somatic mutations in TCR alpha chain genes of the teleost fish, Ballan wrasse ( Labrus bergylta ), and show that this mechanism adds extra diversity to the polymorphic constant (C) region as well. The organization of the TCR alpha/delta locus in Ballan wrasse was obtained from a scaffold covering a single copy C alpha gene, 65 putative J alpha segments, a single copy C delta gene, 1 J delta segment, and 2 D delta segments. Analysis of 37 fish revealed 6 allotypes of the C alpha gene, each with 1-3 replacement substitutions. Somatic mutations were analyzed by molecular cloning of TCR alpha chain cDNA. Initially, 79 unique clones comprising four families of variable (V) alpha genes were characterized. Subsequently, a more restricted PCR was performed to focus on a specific V gene. Comparison of 48 clones indicated that the frequency of somatic mutations in the VJ region was 4.5/1,000 base pairs (bps), and most prevalent in complementary determining region 2 (CDR2). In total, 45 different J segments were identified among the 127 cDNA clones, counting for most of the CDR3 diversity. The number of mutations in the C alpha chain gene was 1.76 mutations/1,000 bps and A nucleotides were most frequently targeted, in contrast to the VJ region, where G nucleotides appeared to be mutational hotspots. The replacement/synonymous ratios in the VJ and C regions were 2.5 and 1.85, respectively. Only 7% of the mutations were found to be linked to the activation-induced cytidine deaminase hotspot motif (RGYW/WRCY).
- Published
- 2018
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32. Loss of stomach, loss of appetite? Sequencing of the ballan wrasse (Labrus bergylta) genome and intestinal transcriptomic profiling illuminate the evolution of loss of stomach function in fish.
- Author
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Lie KK, Tørresen OK, Solbakken MH, Rønnestad I, Tooming-Klunderud A, Nederbragt AJ, Jentoft S, and Sæle Ø
- Subjects
- Animals, Appetite, Digestion, Gastrointestinal Tract, Genome, Perciformes physiology, Phylogeny, Biological Evolution, Gene Expression Profiling, Perciformes genetics, Stomach physiology
- Abstract
Background: The ballan wrasse (Labrus bergylta) belongs to a large teleost family containing more than 600 species showing several unique evolutionary traits such as lack of stomach and hermaphroditism. Agastric fish are found throughout the teleost phylogeny, in quite diverse and unrelated lineages, indicating stomach loss has occurred independently multiple times in the course of evolution. By assembling the ballan wrasse genome and transcriptome we aimed to determine the genetic basis for its digestive system function and appetite regulation. Among other, this knowledge will aid the formulation of aquaculture diets that meet the nutritional needs of agastric species., Results: Long and short read sequencing technologies were combined to generate a ballan wrasse genome of 805 Mbp. Analysis of the genome and transcriptome assemblies confirmed the absence of genes that code for proteins involved in gastric function. The gene coding for the appetite stimulating protein ghrelin was also absent in wrasse. Gene synteny mapping identified several appetite-controlling genes and their paralogs previously undescribed in fish. Transcriptome profiling along the length of the intestine found a declining expression gradient from the anterior to the posterior, and a distinct expression profile in the hind gut., Conclusions: We showed gene loss has occurred for all known genes related to stomach function in the ballan wrasse, while the remaining functions of the digestive tract appear intact. The results also show appetite control in ballan wrasse has undergone substantial changes. The loss of ghrelin suggests that other genes, such as motilin, may play a ghrelin like role. The wrasse genome offers novel insight in to the evolutionary traits of this large family. As the stomach plays a major role in protein digestion, the lack of genes related to stomach digestion in wrasse suggests it requires formulated diets with higher levels of readily digestible protein than those for gastric species.
- Published
- 2018
- Full Text
- View/download PDF
33. The polycyclic aromatic hydrocarbons benzo[a]pyrene and phenanthrene inhibit intestinal lipase activity in rainbow trout (Oncorhynchus mykiss).
- Author
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de Gelder S, Sæle Ø, de Veen BTH, Vos J, Flik G, Berntssen MHG, and Klaren PHM
- Subjects
- Animals, Ecotoxicology methods, Fish Oils pharmacology, Hydrolysis, Plant Oils pharmacology, Rapeseed Oil, Benzo(a)pyrene toxicity, Intestines enzymology, Lipase antagonists & inhibitors, Oncorhynchus mykiss, Phenanthrenes toxicity
- Abstract
Elevated levels of polycyclic aromatic hydrocarbons (PAHs) are detected in aquafeeds where fish oils are (partially) replaced by vegetable oils. The highly lipophilic PAHs solubilize readily in oil droplets and micelles in the intestinal lumen that can affect enzymatic lipid digestion by altering lipase activity. We therefore investigated the effect of two PAHs, benzo[a]pyrene (BaP) and phenanthrene (PHE), on bile salt-activated lipase (BAL) activity in desalted luminal extracts of the proximal intestine of rainbow trout (Oncorhynchus mykiss) using the triacylglycerides rapeseed oil and fish oil as substrates. The hydrolysis of rapeseed oil and fish oil measured at a calculated substrate concentration of 2.2mM, increased linearly up to 30min at 15°C. Substrate dependency under initial velocity conditions was described by simple Michaelis-Menten kinetics with a K
m value of 1.2mM for rapeseed and fish oil. Rapeseed oil hydrolysis was inhibited by 1nM BaP and 10nM PHE. The hydrolysis of fish oil was only inhibited by 10μM BaP. The in vitro lipase activity data were corroborated by TLC/HPLC analysis of the reaction products, showing that in the presence of BaP and PHE, 46-80% less free fatty acids (FFA) were hydrolysed from rapeseed and fish oil triacylglycerides. The presence of low concentrations of BaP and PHE decreased rapeseed oil hydrolysis by BAL whereas fish oil hydrolysis was not affected. The replacement of fish oil by rapeseed oil in aquafeeds introduces PAHs that could affect lipid digestion., (Copyright © 2017 Elsevier Inc. All rights reserved.)- Published
- 2017
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34. Minor lipid metabolic perturbations in the liver of Atlantic salmon (Salmo salar L.) caused by suboptimal dietary content of nutrients from fish oil.
- Author
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Sanden M, Liland NS, Sæle Ø, Rosenlund G, Du S, Torstensen BE, Stubhaug I, Ruyter B, and Sissener NH
- Subjects
- Animals, Fatty Acids analysis, Fatty Acids metabolism, Hepatocytes metabolism, Liver chemistry, Sterols analysis, Sterols metabolism, Diet veterinary, Fish Oils pharmacology, Lipid Metabolism, Liver metabolism, Plant Oils pharmacology, Salmo salar metabolism
- Abstract
The present study was conducted to evaluate the effects on Atlantic salmon hepatic lipid metabolism when fed diets with increasing substitution of fish oil (FO) with a vegetable oil (VO) blend. Four diets with VOs replacing 100, 90, 79 and 65 % of the FO were fed for 5 months. The levels of eicosapentaenoic acid (EPA; 20:5n-3) and docosahexaenoic acid (DHA; 22:6n-3) in the experimental diets ranged from 1.3 to 7.4 % of fatty acids (FAs), while cholesterol levels ranged from 0.6 to 1.2 g kg(-1). In hepatocytes added [1-(14)C] α-linolenic acid (ALA, 18:3n-3), more ALA was desaturated and elongated to EPA and DHA in cells from fish fed 100 % VO, while in fish fed 65 % VO, ALA was elongated to eicosatrienoic acid (ETE; 20:3n-3), indicating reduced Δ6 desaturation activity. Despite increased desaturation activity and activation of the transcription factor Sp1 in fish fed 100 % VO, liver phospholipids contained less EPA and DHA compared with the 65 % VO group. The cholesterol levels in the liver of the 100 % VO group exceeded the levels in fish fed the 65 % VO diet, showing an inverse relationship between cholesterol intake and liver cholesterol content. For the phytosterols, levels in liver were generally low. The area as a proxy of volume of lipid droplets was significantly higher in salmon fed 100 % VO compared with salmon fed 65 % VO. In conclusion, the current study suggests that suboptimal dietary levels of cholesterol in combination with low levels of EPA and DHA (1.3 % of FAs) can result in minor metabolic perturbations in the liver of Atlantic salmon.
- Published
- 2016
- Full Text
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35. Impact of dietary selenium on methylmercury toxicity in juvenile Atlantic cod: a transcriptional survey.
- Author
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Olsvik PA, Amlund H, Sæle Ø, Ellingsen S, and Skjaerven KH
- Subjects
- Animals, Fish Proteins metabolism, Gadus morhua genetics, Gadus morhua growth & development, Liver drug effects, Liver metabolism, Fish Proteins genetics, Gadus morhua metabolism, Gene Expression Regulation drug effects, Methylmercury Compounds toxicity, Selenium toxicity, Water Pollutants, Chemical toxicity
- Abstract
Selenium (Se) and its derivatives are known to have protective effects against mercury (Hg) toxicity in mammals. In this study we wanted to evaluate whether Se co-exposure affect the transcription of methylmercury (MeHg) toxicity-relevant genes in early life stages of fish. Juvenile Atlantic cod were exposed to regular feed (control), Se-spiked feed (3mg Se kg(-1)), MeHg-spiked feed (10mg Hg kg(-1)) or to Se- and MeHg-spiked feed (3mg Se kg(-1) and 10mg Hg kg(-1), respectively) for ten weeks. Liver tissue was harvested for transcriptional analysis when the fish were weighing 11.4 ± 3.2g. Accumulated levels of Hg in liver of the two groups of fish exposed to MeHg were 1.5mg Hg kg(-1) wet weight, or 44-fold higher than in the control group, while the Se concentrations differed with less than 2-fold between the fish groups. Selenium co-exposure had no effect on the accumulated levels of Hg in liver tissue; however, MeHg co-exposure reduced the accumulated level of Se. Dietary exposure to MeHg had no effect on fish growth. Interaction effects between Se and MeHg exposure were observed for the transcriptional levels of CAT, GPX1, GPX3, NFE2L2, UBA52, SEPP1 and DNMT1. Significant effects of MeHg exposure were seen for DNMT1 and PPARG, while effects of Se exposure were seen for GPX4B and SEPP1A, as well as for DNA methyltransferase activity. The transcriptional results suggest, by considering up-regulation as a proxy for negative impact and at the tested concentrations, a pro-oxidative effect of Se co-exposure with MeHg, rather than an antioxidative effect., (Copyright © 2014 Elsevier Ltd. All rights reserved.)
- Published
- 2015
- Full Text
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36. Toxic effects of dietary hydrolysed lipids: an in vivo study on fish larvae.
- Author
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Sæle Ø, Nordgreen A, Olsvik PA, Hjelle JI, Harboe T, and Hamre K
- Subjects
- Animals, Diet veterinary, Enterocytes drug effects, Fatty Acids, Nonesterified toxicity, Gene Expression Regulation, Hydrolysis, Larva chemistry, Larva drug effects, Larva enzymology, Lipase metabolism, Lipid Metabolism genetics, Lipids analysis, Oxidative Stress, RNA, Messenger analysis, Receptors, Cytoplasmic and Nuclear genetics, Stearoyl-CoA Desaturase genetics, Triglycerides metabolism, Dietary Fats toxicity, Gadus morhua growth & development
- Abstract
We have previously described that fish larvae absorb a larger fraction of dietary monoacylglycerol than TAG. To investigate how dietary hydrolysed lipids affect a vertebrate at early life stages over time, we fed Atlantic cod (Gadus morhua) larvae six diets with different degrees of hydrolysed lipids for 30 d. The different diets had no effect on growth, but there was a positive correlation between the level of hydrolysed lipids in the diets and mortality. Important genes in lipid metabolism, such as PPAR, farnesoid X receptor (FXR) and stearoyl-CoA desaturase (SCD), were regulated by the different diets. Genes involved in the oxidative stress response did not respond to the increased lipid hydrolysation in the diets. However, enterocyte damage was observed in animals fed diets with 2.7 % NEFA (diet 3) or more. It is thus possible that mortality was due to infections and/or osmotic stress due to the exposure of the subepithelial tissue. In contrast to earlier experiments showing a positive effect of dietary hydrolysed lipids, we have demonstrated a toxic effect of dietary NEFA on Atlantic cod larvae. Toxicity is not acute but needs time to accumulate.
- Published
- 2013
- Full Text
- View/download PDF
37. Genetic ontogeny of pancreatic enzymes in Labrus bergylta larvae and the effect of feed type on enzyme activities and gene expression.
- Author
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Hansen TW, Folkvord A, Grøtan E, and Sæle Ø
- Subjects
- Animals, Feeding Behavior, Fish Proteins genetics, Fish Proteins metabolism, Larva enzymology, Larva genetics, Perciformes growth & development, RNA, Messenger genetics, RNA, Messenger metabolism, Animal Feed, Enzymes genetics, Enzymes metabolism, Gene Expression Regulation, Enzymologic, Pancreas enzymology, Perciformes genetics
- Abstract
A newly cultivated wrasse species, Labrus bergylta, have shown great potential for use in Atlantic salmon (Salmo salar) farms in the battle against sea lice (Lepeoptheirus salmonis) infections. Hatchery reared L. bergylta were studied from 2 to 55 DPH to examine the molecular basis of digestive ontogeny related to the pancreas. An isolated feeding trial was performed on 27-34 DPH larvae to compare the effect of diet on enzyme activity and the possible exogenous contribution by live feed. The following genes coding for key pancreatic enzymes were analyzed by qPCR: trypsin, Cyp7 A1, BAL, sPLA(2) 1B, amylase and pancreatic chitinase. Enzyme activity was measured on trypsin, neutral lipase, sPLA(2), amylase and chitinase in fed and unfed larvae. We did not observe any effects of the formulated diet v.s. rotifers on enzyme activities of neutral lipase, chitinase and sPLA(2). However, a probable feed-dependency was observed at a transcriptional level, where rotifers seem to stimulate upregulation. The regulation of BAL was the only exception, where an upregulation was observed after weaning both in the ontogeny series and the experimental part. Our data on pancreatic chitinase and amylase mRNA levels suggest the importance of carbohydrates in the diet of early larval and juvenile L. bergylta., (Copyright © 2012 Elsevier Inc. All rights reserved.)
- Published
- 2013
- Full Text
- View/download PDF
38. Lipid digestion in first feeding larvae - visualization in vivo.
- Author
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Saele Ø, Rød KE, and Farber S
- Subjects
- Animal Nutritional Physiological Phenomena, Animals, Larva growth & development, Larva physiology, Zebrafish growth & development, Digestion, Fisheries methods, Fluorescent Dyes, Phospholipids physiology, Triglycerides physiology, Zebrafish physiology
- Published
- 2013
39. Characterisation and expression of secretory phospholipase A2 group IB during ontogeny of Atlantic cod ( Gadus morhua).
- Author
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Sæle Ø, Nordgreen A, Olsvik PA, and Hamre K
- Subjects
- Amino Acid Sequence, Animals, Base Sequence, DNA Primers genetics, Gadus morhua growth & development, Gastrointestinal Tract enzymology, Gene Expression Regulation, Developmental, Gene Expression Regulation, Enzymologic, Larva enzymology, Larva growth & development, Molecular Sequence Data, Open Reading Frames, RNA, Messenger genetics, RNA, Messenger metabolism, Sequence Homology, Amino Acid, Tissue Distribution, Gadus morhua genetics, Gadus morhua metabolism, Group IB Phospholipases A2 genetics, Group IB Phospholipases A2 metabolism
- Abstract
The pancreatic enzyme secretory phospholipase A2 group IB (sPLA2 IB) hydrolyses phospholipids at the sn-2 position, resulting in a NEFA and a lyso-phospholipid, which are then absorbed by the enterocytes. The sPLA2 IB is a member of a family of nineteen enzymes sharing the same catalytic ability, of which nine are cytosolic and ten are secretory. Presently, there are no pharmacological tools to separate between the different secretory enzymes when measuring the enzymatic activity. Thus, it is important to support activity data with more precise techniques when isolation of intestinal content is not possible for analysis, as in the case of small teleost larvae, where the whole animal is sometimes analysed. In the present study, we characterise the sPLA2 IB gene in Atlantic cod (Gadus morhua) and describe its ontogeny at the genetic and protein level and compare this to the total sPLA2 activity level. A positive correlation was found between the expression of sPLA2 IB mRNA and protein. Both remained stable and low during the larval stage followed by an increase from day 62 posthatch, coinciding with the development of the pyloric ceaca. Meanwhile, total sPLA2 enzyme activity in cod was stable and relatively high during the early stages when larvae were fed live prey, followed by a decrease in activity when the fish were weaned to a formulated diet. Thus, the expression of sPLA2 IB mRNA and protein did not correlate with total sPLA2 activity.
- Published
- 2011
- Full Text
- View/download PDF
40. Characterization and expression of digestive neutral lipases during ontogeny of Atlantic cod (Gadus morhua).
- Author
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Saele Ø, Nordgreen A, Olsvik PA, and Hamre K
- Subjects
- Amino Acid Sequence, Animals, Digestion genetics, Gadus morhua genetics, Gadus morhua growth & development, Gene Expression Regulation, Developmental, Molecular Sequence Data, Pancreas enzymology, Rotifera enzymology, Sequence Alignment, Gadus morhua metabolism, Larva enzymology, Lipase metabolism
- Abstract
The major neutral lipase excreted by the pancreas in fish, is bile activated lipase (BAL). Here we present evidence that cod have a functional BAL and a non-functional pancreatic lipase related protein (PLRP). The Atlantic cod genome does not seem to contain colipase which is essential for pancreatic lipase activity. During the larval stages, the gene expression of BAL was low until the point when pyloric caeca started to differentiate and develop (approximately 20mm standard length (SL)). Then the expression increased until approximately 50mm SL. The PLRP gene was expressed but showed very little regulation. The activity of neutral lipase did not increase in parallel to gene expression. The mismatch between activity and gene expression measurements may be partly explained by the unspecific analytical method, when analysing lipase activity in larva whole body. There is neutral lipase activity in numerous tissues in the fish larvae and the lipase activity in the gut, relatively to activity in the whole body, decreased with age. Furthermore, neutral lipase activity in rotifers was ten times higher than in whole cod larvae with full guts. Activity originating from the live prey may therefore explain the high whole body lipase activity from 3 to 20dph. The results also indicate that "adult type" digestion of neutral lipid develops late in the larval period (from 20mm SL), while other mechanisms of lipid uptake are active at the early larval stage., (Copyright 2010 Elsevier Inc. All rights reserved.)
- Published
- 2010
- Full Text
- View/download PDF
41. Evaluation of candidate reference genes in Q-PCR studies of Atlantic cod (Gadus morhua) ontogeny, with emphasis on the gastrointestinal tract.
- Author
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Saele Ø, Nordgreen A, Hamre K, and Olsvik PA
- Subjects
- Animals, Calibration, Larva, Polymerase Chain Reaction methods, Reference Standards, Gadus morhua genetics, Gastrointestinal Tract, Genes genetics, Polymerase Chain Reaction standards
- Abstract
To obtain reliable relative qPCR data in developing fish larvae, stable reference genes have to be found. This study is focused on finding good candidates for normalization of qPCR data for ontogenetic studies of Atlantic cod. Ten commonly used reference genes; Acidic ribosomal protein, Actin-related protein 2, beta-actin, Elongation factor 1 A, Glyceraldehyde-3-phosphate dehydrogenase, Ribosomal protein 37, Ribosomal protein 4, Ribosomal protein S9, beta 2-Tubulin and Ubiquitin were analyzed in developing larvae from 3 to 97 day post hatch (DPH). Two different tools were used to evaluate the stabilities of these genes; the geNorm software ranks the most stable genes based on a pair-wise analysis whereas NormFinder uses a model-based approach. The same genes were also analyzed in GI tract homogenates and compared to whole larvae homogenates. During Atlantic cod larval development there are several strong candidates with Ubiquitin as the most stable. The ribosomal proteins RPL4 and RPS9 are also strong candidates. RPL37 may be used but only when normalizing qRT-PCR results from one type of tissue. We also suggest the use of multiple genes for normalization of qRT-PCR. Our study suggests that whole-larvae samples can be used to study relative expression of genes that are expressed only in certain tissues.
- Published
- 2009
- Full Text
- View/download PDF
42. Spatial transcription of CYP1A in fish liver.
- Author
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Olsvik PA, Lie KK, Saele Ø, and Sanden M
- Subjects
- Animals, Aryl Hydrocarbon Hydroxylases genetics, Glutathione Transferase genetics, Hepatocytes enzymology, In Situ Hybridization, Liver anatomy & histology, Microsomes, Liver drug effects, Microsomes, Liver enzymology, Organ Specificity, Peptide Elongation Factor 1 biosynthesis, Peptide Elongation Factor 1 genetics, RNA, Messenger biosynthesis, Reverse Transcriptase Polymerase Chain Reaction, Salmo salar genetics, Transcription, Genetic, beta-Naphthoflavone pharmacology, Aryl Hydrocarbon Hydroxylases biosynthesis, Glutathione Transferase biosynthesis, Liver enzymology, Salmo salar metabolism
- Abstract
Background: The aim of this work was to study how evenly detoxifying genes are transcribed spatially in liver tissue of fish. Ten Atlantic salmon Salmo salar were intraperitoneally injected with 50 mg/kg of the strong CYP1A inducer beta-naphthoflavone and liver tissue harvested seven days later. The liver from 10 control and 10 exposed fish were split into eight sections, RNA extracted and three reference (beta-actin, elongation factor 1AB (EF1AB)) and two detoxifying genes (CYP1A and GST) quantified with real-time RT-PCR. The cellular localization of the EF1AB and CYP1A mRNA in the liver of control and beta-naphthoflavone treated fish was then determined by in situ hybridization (ISH) using EF1AB and CYP1A biotinylated oligonucleotide probes., Results: The study shows that genes encoding phase I and phase II conjugating enzymes are unevenly transcribed in different parts of the liver of Atlantic salmon seven days after a single-dose of beta-naphthoflavone exposure. Transcription of CYP1A and GST was higher in the middle section of the liver compared to the distal and proximal parts of the organ. The ISH data suggest that CYP1A transcription happens mainly in hepatocyte cells in the liver, and that hepatocytes in the vicinity of blood vessels respond stronger to beta-naphthoflavone than cells further away from the blood supply., Conclusion: Overall, the qRT-PCR and ISH results reported here suggest that gene expression analysis should be performed on as pure cell populations as possible. If bulk tissue samples are to be used, one should always check how evenly the target genes are expressed in tissue sections and organs in every study.
- Published
- 2007
- Full Text
- View/download PDF
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