Evidence for the onset of feedback regulation of cortisol in larval summer flounder

Abstract We investigated the functional development of feedback regulation of cortisol levels during early development in a marine teleost, summer flounder, using a novel pharmaceutical approach. Larvae were immersed for 4 h in the glucocorticoid agonist dexamethasone (20 μM) and/or the glucocortico...

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Veröffentlicht in:	General and comparative endocrinology 2007-10, Vol.154 (1), p.105-110
Hauptverfasser:	Veillette, Philip A, Serrano, Xaymara, Garcia, Misty M, Specker, Jennifer L
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Sprache:	eng
Schlagworte:	Animals Dexamethasone Dexamethasone - pharmacology Early development Endocrinology & Metabolism Feedback, Physiological - drug effects Feedback, Physiological - physiology Flounder - growth & development Flounder - metabolism Hormone Antagonists - pharmacology Hydrocortisone - metabolism Interrenal Larva - metabolism Marine Marine teleost Mifepristone - pharmacology Models, Biological Pleuronectiformes RU486 Teleostei
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creator	Veillette, Philip A Serrano, Xaymara Garcia, Misty M Specker, Jennifer L
description	Abstract We investigated the functional development of feedback regulation of cortisol levels during early development in a marine teleost, summer flounder, using a novel pharmaceutical approach. Larvae were immersed for 4 h in the glucocorticoid agonist dexamethasone (20 μM) and/or the glucocorticoid-receptor antagonist RU486 (0.12 μM) at 1, 7, or 21 days after hatching. The hypothesis was that, if feedback regulation were operational, tissue cortisol concentrations would be suppressed by dexamethasone and stimulated by RU486. Whole-body cortisol content of 1-day-old larvae was significantly decreased from 0.32 ng/g body weight (mean) to 0.08–0.12 ng/g by immersion in dexamethasone, RU486, or both, perhaps due to displacement of cortisol from the yolk sac. There were no changes in cortisol content among treatment groups in 7-day-old larvae. The expectations of our hypothesis were met in 21-day-old larvae. Immersion in RU486 increased cortisol content from 0.29 ng/g (control) to 2.00 ng/g, whereas immersion in dexamethasone (with or without RU486) suppressed cortisol to 0.03–0.04 ng/g. The results indicate that a fully functional hypothalamic–pituitary–interrenal axis is established by 3 weeks after yolk-sac resorption, but before the onset of metamorphosis in summer flounder. This is the earliest detection of feedback regulation in a teleost fish.
doi_str_mv	10.1016/j.ygcen.2007.05.033
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Larvae were immersed for 4 h in the glucocorticoid agonist dexamethasone (20 μM) and/or the glucocorticoid-receptor antagonist RU486 (0.12 μM) at 1, 7, or 21 days after hatching. The hypothesis was that, if feedback regulation were operational, tissue cortisol concentrations would be suppressed by dexamethasone and stimulated by RU486. Whole-body cortisol content of 1-day-old larvae was significantly decreased from 0.32 ng/g body weight (mean) to 0.08–0.12 ng/g by immersion in dexamethasone, RU486, or both, perhaps due to displacement of cortisol from the yolk sac. There were no changes in cortisol content among treatment groups in 7-day-old larvae. The expectations of our hypothesis were met in 21-day-old larvae. Immersion in RU486 increased cortisol content from 0.29 ng/g (control) to 2.00 ng/g, whereas immersion in dexamethasone (with or without RU486) suppressed cortisol to 0.03–0.04 ng/g. 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The results indicate that a fully functional hypothalamic–pituitary–interrenal axis is established by 3 weeks after yolk-sac resorption, but before the onset of metamorphosis in summer flounder. This is the earliest detection of feedback regulation in a teleost fish.</description><subject>Animals</subject><subject>Dexamethasone</subject><subject>Dexamethasone - pharmacology</subject><subject>Early development</subject><subject>Endocrinology & Metabolism</subject><subject>Feedback, Physiological - drug effects</subject><subject>Feedback, Physiological - physiology</subject><subject>Flounder - growth & development</subject><subject>Flounder - metabolism</subject><subject>Hormone Antagonists - pharmacology</subject><subject>Hydrocortisone - metabolism</subject><subject>Interrenal</subject><subject>Larva - metabolism</subject><subject>Marine</subject><subject>Marine teleost</subject><subject>Mifepristone - pharmacology</subject><subject>Models, Biological</subject><subject>Pleuronectiformes</subject><subject>RU486</subject><subject>Teleostei</subject><issn>0016-6480</issn><issn>1095-6840</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2007</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNqFkU1r3DAQhkVpabZpf0Gh6NSb3ZFlyfKhhRLSDwj0kPYsZHmcaiNLqWQv7L-P3F0o9JLTwMzzzsAzhLxlUDNg8sO-Pt5ZDHUD0NUgauD8Gdkx6EUlVQvPyQ4KVslWwQV5lfMeAASX7CW5YJ1sherUjtxeH9yIwSKdYqLLb6QxZFxonOiEOA7G3tOEd6s3i4tha9uYFpejpy5Qb9LBeJrXecZEJx_XMGJ6TV5Mxmd8c66X5NeX659X36qbH1-_X32-qWzb8qWSYhQtiGYwQilEOTAuGysHOXAhmBwtN2Jo-rHvobd8YGUslGSmtwq5tZJfkvenvQ8p_lkxL3p22aL3JmBcs5aqEaItuafABnjfdwoKyE-gTTHnhJN-SG426agZ6E263uu_0vUmXYPQRXpJvTuvX4cZx3-Zs-UCfDwBWGwcHCadrdukjy6hXfQY3RMHPv2Xt94FZ42_xyPmfVxTKKI107nRoG-3v29vhw6ggZbzR-wBqCQ</recordid><startdate>20071001</startdate><enddate>20071001</enddate><creator>Veillette, Philip A</creator><creator>Serrano, Xaymara</creator><creator>Garcia, Misty M</creator><creator>Specker, Jennifer L</creator><general>Elsevier Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TK</scope><scope>F1W</scope><scope>H95</scope><scope>L.G</scope><scope>7X8</scope></search><sort><creationdate>20071001</creationdate><title>Evidence for the onset of feedback regulation of cortisol in larval summer flounder</title><author>Veillette, Philip A ; 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Larvae were immersed for 4 h in the glucocorticoid agonist dexamethasone (20 μM) and/or the glucocorticoid-receptor antagonist RU486 (0.12 μM) at 1, 7, or 21 days after hatching. The hypothesis was that, if feedback regulation were operational, tissue cortisol concentrations would be suppressed by dexamethasone and stimulated by RU486. Whole-body cortisol content of 1-day-old larvae was significantly decreased from 0.32 ng/g body weight (mean) to 0.08–0.12 ng/g by immersion in dexamethasone, RU486, or both, perhaps due to displacement of cortisol from the yolk sac. There were no changes in cortisol content among treatment groups in 7-day-old larvae. The expectations of our hypothesis were met in 21-day-old larvae. Immersion in RU486 increased cortisol content from 0.29 ng/g (control) to 2.00 ng/g, whereas immersion in dexamethasone (with or without RU486) suppressed cortisol to 0.03–0.04 ng/g. 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subjects	Animals Dexamethasone Dexamethasone - pharmacology Early development Endocrinology & Metabolism Feedback, Physiological - drug effects Feedback, Physiological - physiology Flounder - growth & development Flounder - metabolism Hormone Antagonists - pharmacology Hydrocortisone - metabolism Interrenal Larva - metabolism Marine Marine teleost Mifepristone - pharmacology Models, Biological Pleuronectiformes RU486 Teleostei
title	Evidence for the onset of feedback regulation of cortisol in larval summer flounder
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