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Endocrine systems in juvenile anadromous and landlocked Atlantic salmon (Salmo salar): seasonal development and seawater acclimation.

Artikel i vetenskaplig tidskrift
Författare Tom O Nilsen
Lars O E Ebbesson
Pia Kiilerich
Björn Thrandur Björnsson
Steffen S Madsen
Stephen D McCormick
Sigurd O Stefansson
Publicerad i General and comparative endocrinology
Volym 155
Nummer/häfte 3
Sidor 762-72
ISSN 0016-6480
Publiceringsår 2008
Publicerad vid Zoologiska institutionen
Sidor 762-72
Språk en
Länkar dx.doi.org/10.1016/j.ygcen.2007.08....
Ämnesord 11-beta-Hydroxysteroid Dehydrogenase Type 2, genetics, metabolism, Acclimatization, genetics, physiology, Age Factors, Animal Migration, physiology, Animals, Ecosystem, Endocrine System, metabolism, physiology, Gills, metabolism, Growth Hormone, blood, genetics, Hydrocortisone, blood, Insulin-Like Growth Factor I, analysis, metabolism, RNA, Messenger, metabolism, Receptor, IGF Type 1, genetics, metabolism, Receptors, Cytoplasmic and Nuclear, genetics, metabolism, Receptors, Prolactin, genetics, metabolism, Salmo salar, blood, genetics, growth & development, physiology, Seasons, Seawater
Ämneskategorier Zoofysiologi

Sammanfattning

The present study compares developmental changes in plasma levels of growth hormone (GH), insulin-like growth factor I (IGF-I) and cortisol, and mRNA levels of their receptors and the prolactin receptor (PRLR) in the gill of anadromous and landlocked Atlantic salmon during the spring parr-smolt transformation (smoltification) period and following four days and one month seawater (SW) acclimation. Plasma GH and gill GH receptor (GHR) mRNA levels increased continuously during the spring smoltification period in the anadromous, but not in landlocked salmon. There were no differences in plasma IGF-I levels between strains, or any increase during smoltification. Gill IGF-I and IGF-I receptor (IGF-IR) mRNA levels increased in anadromous salmon during smoltification, with no changes observed in landlocked fish. Gill PRLR mRNA levels remained stable in both strains during spring. Plasma cortisol levels in anadromous salmon increased 5-fold in May and June, but not in landlocked salmon. Gill glucocorticoid receptor (GR) mRNA levels were elevated in both strains at the time of peak smoltification in anadromous salmon, while mineralocorticoid receptor (MR) mRNA levels remained stable. Only anadromous salmon showed an increase of gill 11beta-hydroxysteroid dehydrogenase type-2 (11beta-HSD2) mRNA levels in May. GH and gill GHR mRNA levels increased in both strains following four days of SW exposure in mid-May, whereas only the anadromous salmon displayed elevated plasma GH and GHR mRNA after one month in SW. Plasma IGF-I increased after four days in SW in both strains, decreasing in both strains after one month in SW. Gill IGF-I mRNA levels were only increased in landlocked salmon after 4days in SW. Gill IGF-IR mRNA levels in SW did not differ from FW levels in either strain. Gill PRLR mRNA did not change after four days of SW exposure, and decreased in both strains after one month in SW. Plasma cortisol levels did not change following SW exposure in either strain. Gill GR, 11beta-HSD2 and MR mRNA levels increased after four days in SW in both strains, whereas only the anadromous strain maintained elevated gill GR and 11beta-HSD2 mRNA levels after one month in SW. The results indicate that hormones and receptors of the GH and cortisol axes are present at significantly lower levels during spring development and SW acclimation in landlocked relative to anadromous salmon. These findings suggest that attenuation of GH and cortisol axes may, at least partially, result in reduced preparatory upregulation of key gill ion-secretory proteins, possibly a result of reduced selection pressure for marine adaptations in landlocked salmon.

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