Osmoregulation and expression of ion transport proteins and putative claudins in the gill of Southern Flounder ( Paralichthys lethostigma)

The southern flounder is a euryhaline teleost that inhabits ocean, estuarine, and riverine environments. We investigated the osmoregulatory strategy of juvenile flounder by examining the time-course of homeostatic responses, hormone levels, and gill Na +,K +-ATPase and Na +,K +,2Cl − cotransporter p...

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Bibliographic Details
Published in:Comparative biochemistry and physiology. Part A, Molecular & integrative physiology Molecular & integrative physiology, 2008-07, Vol.150 (3), p.265-273
Main Authors: Tipsmark, Christian K., Luckenbach, J. Adam, Madsen, Steffen S., Kiilerich, Pia, Borski, Russell J.
Format: Article
Language:English
Subjects:
Animals
Blotting, Western
Cell Membrane - metabolism
Claudin-3
Claudin-4
Cortisol
Epithelia
Fish Proteins - metabolism
Flounder - physiology
Fresh Water
Gene Expression Regulation
Gills - cytology
Gills - enzymology
Gills - metabolism
Hydrocortisone - blood
IGF-I
Insulin-Like Growth Factor I - genetics
Ion Transport
Kidney
Liver - metabolism
Membrane Proteins - metabolism
Na +,K +,2Cl − cotransporter
Na +,K +-ATPase
Osmolar Concentration
RNA, Messenger - genetics
RNA, Messenger - metabolism
Seawater
Sodium-Potassium-Exchanging ATPase - metabolism
Teleost
Water-Electrolyte Balance - physiology
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Summary:The southern flounder is a euryhaline teleost that inhabits ocean, estuarine, and riverine environments. We investigated the osmoregulatory strategy of juvenile flounder by examining the time-course of homeostatic responses, hormone levels, and gill Na +,K +-ATPase and Na +,K +,2Cl − cotransporter protein expression after salinity challenge. Transfer of freshwater (FW)-acclimated flounder to sea water (SW) induced an increase in plasma osmolality and cortisol and a decrease in muscle water content, plasma insulin-like growth factor I (IGF-I) and hepatic IGF-I mRNA, all returning to control levels after 4 days. Gill Na +,K +-ATPase and Na +,K +,2Cl − cotransporter protein levels were elevated in response to SW after 4 days. Transfer of SW-acclimated flounder to FW reduced gill Na +,K +-ATPase and Na +,K +,2Cl − cotransporter protein, increased plasma IGF-I, but did not alter hepatic IGF-I mRNA or plasma cortisol levels. Gill claudin-3 and claudin-4 immunoreactive proteins were elevated in FW versus SW acclimated flounder. The study demonstrates that successful acclimation of southern flounder to SW or FW occurs after an initial crisis period and that the salinity adaptation process is associated with changes in branchial expression of ion transport and putative tight junction claudin proteins known to regulate epithelial permeability in mammalian vertebrates.
ISSN:1095-6433
1531-4332
DOI:10.1016/j.cbpa.2008.03.006