EFFECTS OF THE ANDROGENIC GROWTH PROMOTER 17-Β-Trenbolone ON FECUNDITY AND REPRODUCTIVE ENDOCRINOLOGY OF THE FATHEAD MINNOW

Ankley, Gerald T.; Jensen, Kathleen; Makynen, Elizabeth A.; Kahl, Michael D.; Korte, Joseph J.; Hornung, Michael W.; Henry, Tala R.; Denny, Jeffrey S.; Leino, Richard L.; Wilson, Vickie S.; Cardon, Mary C.; Hartig, Phillip C.; Gray, L. Earl

doi:10.1897/1551-5028(2003)022<1350:eotagp>2.0.co;2

Cited by 88 publications

(210 citation statements)

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“…The basis of the approach lies in evaluating whether test chemicals block occurrence of an in vivo response mediated through the AR. Studies in our lab and elsewhere have shown that the synthetic androgen 17␤-trenbolone (TB) binds with high affinity to fish AR(s) and masculinizes female fish at concentrations in water in the range of 20-50 ng/L (Ankley et al, 2003;Wilson et al, 2004;Seki et al, 2006). In the fathead minnow, masculinization is manifested by a proliferation and thickening of the dorsal pad and the de novo development of craniofacial nuptial tubercles, external structures which can be visually detected and easily quantified ).…”

Section: Introductionmentioning

confidence: 99%

Use of chemical mixtures to differentiate mechanisms of endocrine action in a small fish model

et al. 2010

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a b s t r a c tVarious assays with adult fish have been developed to identify potential endocrine-disrupting chemicals (EDCs) which may cause toxicity via alterations in the hypothalamic-pituitary-gonadal (HPG) axis. These assays can be sensitive and highly diagnostic for key mechanisms such as agonism of the estrogen and androgen receptors (ERs, ARs) and inhibition of steroid synthesis. However, most of the tests do not unambiguously identify AR antagonists. The purpose of this work was to explore the utility of a mixture test design with the fathead minnow (Pimephales promelas) for detecting different classes of EDCs including AR antagonists. Adults of both sexes were exposed via the water to EDCs with diverse mechanisms of action in the absence or presence of 17␤-trenbolone (TB), a potent AR agonist which masculinizes female fathead minnows. Similar to previous studies with the model AR antagonists flutamide and vinclozolin, exposure of females to the AR antagonist cyproterone acetate in the presence of TB decreased expression of an easily-observed masculinization response, nuptial tubercle formation. Mixture studies with TB and the model ER agonists, 17␣-ethinylestradiol and bisphenol A, also showed inhibition of tubercle formation in the females, but unlike the AR antagonists, the estrogens markedly induced synthesis of vitellogenin (VTG: egg yolk protein), particularly in males. The ER agonists also offset TB-induced depressions in plasma VTG concentrations in female fish. Additional mixture experiments were conducted with TB and triclocarban, an anti-microbial reported to enhance AR-mediated responses, or ammonia, a "negative control" with no known direct effects on HPG function. Neither chemical affected VTG status in males or females in the absence or presence of TB; however, both slightly enhanced TB-induced tubercle formation in females. Based on studies described herein and elsewhere with the fathead minnow, a TB co-exposure assay appears to be an effective approach for clearly identifying AR antagonists as well as potential EDCs with other relevant mechanisms of action.Published by Elsevier B.V.

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Section: Introductionmentioning

confidence: 99%

Use of chemical mixtures to differentiate mechanisms of endocrine action in a small fish model

et al. 2010

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“…Field observations have documented 1,700 ng l À 1 17a-TBOH in manure lagoons 9 , and 55 ± 22 ng g À 1 in solid manure and surface soils 10 . TBA metabolite exposure is problematic for ecosystem health because 17a-TBOH and 17b-TBOH are potent endocrine disruptors, with exposure to as little as 10-30 ng l À 1 significantly reducing fecundity, resulting in phenotypic sex reversal in fish, or altering endocrine function [11][12][13] .…”

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Coupled reversion and stream-hyporheic exchange processes increase environmental persistence of trenbolone metabolites

et al. 2015

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Existing regulatory frameworks for aquatic pollutants in the United States are idealized, often lacking mechanisms to account for contaminants characterized by (1) bioactivity of both the parent and transformation products and (2) reversible transformations (that is, metastable products) driven by chemical or physical heterogeneities. Here, we modelled a newly discovered product-to-parent reversion pathway for trenbolone acetate (TBA) metabolites. We show increased exposure to the primary metabolite, 17a-trenbolone (17a-TBOH), and elevated concentrations of the still-bioactive primary photoproduct hydroxylated 17a-TBOH, produced via phototransformation and then converted back to 17a-trenbolone in perpetually dark hyporheic zones that exchange continuously with surface water photic zones. The increased persistence equates to a greater potential hazard from parent-product joint bioactivity at locations and times when reversion is a dominant trenbolone fate pathway. Our study highlights uncertainties and vulnerabilities with current paradigms in risk characterization.

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“…Further work extended this basic design to EDC-oriented tests with other small fish species, including the medaka (Oryzias latipes) and zebrafish (Danio rerio) [4]. As part of the validation of the 21-d assay, several model chemicals were tested, including estrogen receptor agonists such as 17b-estradiol and methoxychlor [2,3] and androgen receptor agonists such as methyltestosterone and 17b-trenbolone [3,5]. Tyler et al [6] described a test method specific for estrogens that focused on the induction of vitellogenin in fathead minnow early life stages, an approach that aligned well with the commonly utilized 30-d survival and growth assay in this species and also was recommended as a reasonable design for detecting estrogenic EDCs [1].…”

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Development of methods to detect occurrence and effects of endocrine‐disrupting chemicals: Fueling a fundamental shift in regulatory ecotoxicology

Ankley

Tyler

2013

Enviro Toxic and Chemistry

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EFFECTS OF THE ANDROGENIC GROWTH PROMOTER 17-Β-Trenbolone ON FECUNDITY AND REPRODUCTIVE ENDOCRINOLOGY OF THE FATHEAD MINNOW

Cited by 88 publications

References 39 publications

Use of chemical mixtures to differentiate mechanisms of endocrine action in a small fish model

Use of chemical mixtures to differentiate mechanisms of endocrine action in a small fish model

Coupled reversion and stream-hyporheic exchange processes increase environmental persistence of trenbolone metabolites

Development of methods to detect occurrence and effects of endocrine‐disrupting chemicals: Fueling a fundamental shift in regulatory ecotoxicology

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