The Effects of Methimazole on Development of the Fathead Minnow, Pimephales promelas, from Embryo to Adult

doi:10.1093/toxsci/kfl063

ToxSci Advance Access published online on July 13, 2006
Toxicological Sciences, doi:10.1093/toxsci/kfl063

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© The Author 2006. Published by Oxford University Press on behalf of the Society of Toxicology. All rights reserved. For Permissions, please email: journals.permissions@oxfordjournals.org
Received April 26, 2006
Accepted June 26, 2006

Endocrine Toxicology

The Effects of Methimazole on Development of the Fathead Minnow, Pimephales promelas, from Embryo to Adult

Helen M Crane ¹ ^*, Daniel B Pickford ², Thomas H Hutchinson ³, and J. Anne Brown ¹

¹ School of Biosciences, Hatherly Laboratories, Prince of Wales Road, University of Exeter, Exeter EX4 4PS
² Institute for the Environment, Brunel University, Uxbridge, Middlesex, UB8 3PH; AstraZeneca, Global Safety, Health and Environment, Brixham Environmental Laboratory, Freshwater Quarry, Brixham, Devon, TQ5 8BA
³ AstraZeneca, Global Safety, Health and Environment, Brixham Environmental Laboratory, Freshwater Quarry, Brixham, Devon, TQ5 8BA

^* To whom correspondence should be addressed.
Helen M Crane, E-mail: helen.jordinson{at}environment-agency.gov.uk

Abstract

The importance of thyroid hormones in regulating early developmentalprocesses of many amphibian and fish species is well known,but the impacts of exposure to disrupters of thyroid homeostasisduring the embryo-larval-juvenile transitions are unclear. Toinvestigate these impacts, fathead minnows, Pimephales promelas,were exposed to a model thyroid axis disrupter, methimazole,an inhibitor of thyroid hormone synthesis, at control (0), 32,100 and 320 µg l^-1, starting at <24h post-fertilisation,for 28, 56 and 83/84 days post-fertilisation (dpf). Thyroiddisruption was evident at 28 dpf, when survival was significantlyreduced by 32 or 100 µg l^-1 methimazole concomitant witha reduced T₄ content. However, the T₃ content of these fishwas similar to that of control fish, and body mass was unaffected(as in all groups), suggesting compensatory mechanisms overcamereduced T₄ synthesis. At the highest concentration of methimazole(320 µg l^-1), activation of feedback mechanisms on thehypothalamic-pituitary-thyroid axis was suggested by the normalT₄ content after 28 dpf exposure to methimazole, although T₃content of these fish was significantly reduced. The generallyless pronounced disruption of thyroid hormone homeostasis after56 days exposure to methimazole also suggests compensatory mechanismsin juvenile / adult fish that may regulate T₄ content, despiteexposure to methimazole at 32 or 100 µg l^-1 (in fish heldin 320 µg l^-1 methimazole, the T₄ content was significantlyhigher than in controls). Whole body T₃ content at 56 dpf wassignificantly depressed only in fish held in 100 µg l^-1methimazole. By 83/84 dpf, length, body mass and thyroid hormoneconcentrations were similar in all experimental groups and controls,indicating that adult fish may achieve regulation of their thyroidaxis despite prolonged exposures to thyroid disruptors throughoutearly development.

Keywords: Thyroid; thyroxine; triiodothyronine; development; methimazole; fathead minnow.

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