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

Ankley, Gerald T.; Jensen, Kathleen; Kahl, Michael D.; Durhan, Elizabeth J.; Makynen, Elizabeth A.; Cavallin, Jenna E.; Martinović, Dalma; Wehmas, Leah C.; Mueller, Nathaniel D.; Villeneuve, Daniel L.

doi:10.1016/j.aquatox.2010.05.020

Cited by 46 publications

(65 citation statements)

References 33 publications

(50 reference statements)

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“…In vivo studies in rats have supported the in vitro evidence that TCC augments, but does not directly elicit, androgen action . Similarly, in a previous study with fathead minnow, TCC (10 µg/L) enhanced 17β trenbolone (TRB)‐induced formation of nuptial tubercles (a male secondary sex characteristic) in females exposed to mixtures of the 2 chemicals for 21 d . Augmentation of estrogenic action has also been reported in vivo.…”

Section: Introductionsupporting

confidence: 55%

Effects of the antimicrobial contaminant triclocarban, and co‐exposure with the androgen 17β‐trenbolone, on reproductive function and ovarian transcriptome of the fathead minnow (Pimephales promelas)

Villeneuve

Jensen

Cavallin

et al. 2016

Enviro Toxic and Chemistry

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Triclocarban (TCC) is an antimicrobial agent routinely detected in surface waters that has been hypothesized to interact with the vertebrate endocrine system. The present study examined the effects of TCC alone and in combination with the model endocrine disruptor 17β-trenbolone (TRB) on fish reproductive function. Adult Pimephales promelas were continuously exposed to either 1 µg TCC/L or 5 µg TCC/L, to 0.5 µg TRB/L, or to a mixture (MIX) of 5 µg TCC/L and 0.5 µg TRB/L for 22 d, and a variety of reproductive and endocrine-related endpoints were examined. Cumulative fecundity was significantly reduced in fathead minnows exposed to TRB, MIX, or 5 µg TCC/L. Exposure to 1 µg TCC/L had no effect on reproduction. In general, both TRB and MIX treatments caused similar physiological effects, evoking significant reductions in female plasma vitellogenin, estradiol, and testosterone, and significant increases in male plasma estradiol. Based on analysis of the ovarian transcriptome, there were potential pathway impacts that were common to both TRB- and TCC-containing treatment groups. In most cases, however, those pathways were more plausibly linked to differences in reproductive status than to androgen-specific functions. Overall, TCC was reproductively toxic to fish at concentrations at or near those that have been measured in surface water. There was little evidence that TCC elicits reproductive toxicity through a specific mode of endocrine or reproductive action, nor that it could augment the androgenic effects of TRB. Nonetheless, the relatively small margin of safety between some measured environmental concentrations and effect concentrations suggests that concern is warranted. Environ Toxicol Chem 2017;36:231-242. Published 2016 Wiley Periodicals Inc. on behalf of SETAC. This article is a US government work and, as such, is in the public domain in the United States of America.

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Section: Introductionsupporting

confidence: 55%

Effects of the antimicrobial contaminant triclocarban, and co‐exposure with the androgen 17β‐trenbolone, on reproductive function and ovarian transcriptome of the fathead minnow (Pimephales promelas)

Villeneuve

Jensen

Cavallin

et al. 2016

Enviro Toxic and Chemistry

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“…Although EDCs currently impact a wide array of fish species, most EDC studies continue to use a few standard laboratory denizens to assess their impact (e.g., zebrafish, medaka, fathead minnow) (Scholz and Mayer 2008;Segner 2009;Ankley et al 2010). As such, environmental risk assessment and assumptions about sensitivity to EDCs are primarily based on these few species.…”

Section: Introductionmentioning

confidence: 99%

An approach to detecting estrogenic endocrine disruption via choriogenin expression in an estuarine model fish species

2012

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A large body of work has established a link between endocrine disrupting compounds (EDCs) and a number of abnormalities in fishes. However, most EDC studies use several standard laboratory denizens to assess impacts, so assumptions about sensitivity are primarily based on these few species. Additionally, existing methods rely on obtaining sufficient plasma to measure EDC biomarkers. Our objectives were (a) to establish a new model species for estuarine fishes, (b) to evaluate endocrine impacts with a highly sensitive and specific biomarker, and (c) to develop a method for the analysis of this biomarker in small fish that do not possess sufficient blood plasma for protein measurement. As such, we created a polyclonal antibody (Ab) to the estrogen-responsive proteins chorion (Ch) and choriogenin (Chg) in Menidia beryllina, found throughout coastal North America and already utilized in EPA Whole Effluent Testing. We then validated the Ab by using it to measure the response to aqueous ethinylestradiol (EE2) through the development an ELISA using Menidia whole body homogenate (WBH). Sensitivity of the Ab to Menidia WBH is greater than that of the commercially available option. ELISA sensitivity, with a detection limit of 5 ng/ml and a working range of 22.6-1370.9 ng/ml, is comparable to ELISAs developed to measure plasma Chg. To our knowledge this is the first ELISA method developed for the detection of Chg using WBH. Including additional model species and methods allowing the evaluation of alternative sample matrices will contribute to an enhanced understanding of inter-species differences in EDC response.

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“…The often counterintuitive effects of estrogenic exposure are also highlighted by their impact on secondary sex characteristics (Figure ). Laboratory studies have documented reduction in these characteristics by some EEs (Ankley et al ., ), but also stronger expression of secondary sex characteristics even in female fathead minnows exposed to androgens (Pawlowski et al ., ). Previous literature demonstrates quick plasticity to tubercle development in female fathead minnows exposed to androgens in six days (Ankley et al ., ).…”

Section: Discussionmentioning

confidence: 99%

On‐Site Exposure to Treated Wastewater Effluent Has Subtle Effects on Male Fathead Minnows and Pronounced Effects on Carp

Minarik

Vick

Schultz

et al. 2014

J American Water Resour Assoc

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This study tested the hypotheses that (1) exposure to treated Water Reclamation Plant (WRP) effluent will induce biological effects in exposed fish that are consistent with environmental estrogen (EE) exposure; and (2) seasonal differences in effluent composition will moderate biological effects. We conducted seven on-site exposures using a mobile laboratory. Total estrogenicity of effluents was 10-to 20-fold higher during spring than in fall. Common EEs including steroid estrogens, alkylphenols, and bisphenol-A were ubiquitous. An unusual spike in total estrogenicity identified a combined sewer overflow event. Fathead minnows (Pimephales promelas) responded to exposure with subtle changes in vitellogenin concentrations and secondary sex characteristics. An opportunity to assess a common carp (Cyprinus carpio) population permanently sustained inside the Stickney WRP revealed pronounced exposure effects, but also the resilience of biological organisms even under long-term exposure. In contrast to other studies, no histopathological changes were found. The mobile exposure laboratory proved capable of maintaining U.S. Environmental Protection Agency-recommended exposure conditions while providing flexibility for rapid deployment at multiple sites with minimal operational disruption. Further studies using this platform hold promise to resolve the convoluted interactions between complex effluents and inherent biological complexity.(KEY TERMS: fish; toxicology; environmental impacts; urban areas; point source pollution; treated wastewater effluent.)

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

Cited by 46 publications

References 33 publications

Effects of the antimicrobial contaminant triclocarban, and co‐exposure with the androgen 17β‐trenbolone, on reproductive function and ovarian transcriptome of the fathead minnow (Pimephales promelas)

Effects of the antimicrobial contaminant triclocarban, and co‐exposure with the androgen 17β‐trenbolone, on reproductive function and ovarian transcriptome of the fathead minnow (Pimephales promelas)

An approach to detecting estrogenic endocrine disruption via choriogenin expression in an estuarine model fish species

On‐Site Exposure to Treated Wastewater Effluent Has Subtle Effects on Male Fathead Minnows and Pronounced Effects on Carp

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