In Vitro Assessment of Endocrine Disrupting Potential of Naphthenic Acid Fractions Derived from Oil Sands-Influenced Water

Leclair, Liane A.; Pohler, Lani; Wiseman, Steve; He, Yuhe; Arens, Collin J.; Giesy, John P.; Scully, Stephen F.; Wagner, Brian D.; Heuvel, Michael R. van den; Hogan, Natacha S.

doi:10.1021/acs.est.5b00077

Cited by 28 publications

(22 citation statements)

References 38 publications

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“…The bunker and refinery crude oil tested in the present study exhibited antiandrogenic action, as has been shown for Romanian crude oil, distillate marine grade oil, bilge oil, heavy nautical fuel oil [20], type-C heavy fuel oil [79], North Sea offshore oil platform-produced water [80,81], oil sands process-affected water [74], and hydraulic fracturing-impacted water [60,75]. In an effect-directed investigation, the constituents of North Sea-produced water were fractionated using high-performance liquid chromatography, allowing individual fractions to be screened for estrogenicity and androgenicity, together with chemical analysis [79].…”

Section: Reproductive Hormone Signalingsupporting

confidence: 80%

“…The findings of Arcaro et al suggest that the antiestrogenicity was the result of both increased catabolism of β‐estradiol and antagonistic binding to ESRs, although it was not determined whether the interaction was specific to ESR1 or ESR2. Similarly, oil sands process–affected water was shown to be antiestrogenic in vitro , as was the case for water impacted by hydraulic fracturing . Although the exact compounds responsible for the antiestrogenicity observed in the present study remain unclear, it may have been caused by naphthenic acids, as well as certain alkyl phenols, PAHs, and PAH derivatives which are known to be antiestrogenic .…”

Section: Ppargsupporting

confidence: 58%

“…Similarly, naphthenic acids were found to be responsible for most of the antiandrogenic activity but, unlike with estrogenicity, PAHs contributed nearly equally (than naphthenic acids) and alkyl phenols to a lesser extent [80]. A number of other studies have also suggested the antiandrogenic potential of selected PAHs [2,79,82], naphthenic acids [59,74], and alkyl phenols [59]. The antiandrogenic action observed in the present study was therefore likely caused by PAHs, naphthenic acids, and alkyl phenols, as was the case with antiestrogenicity.…”

Section: Reproductive Hormone Signalingmentioning

confidence: 95%

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An evaluation of the endocrine disruptive potential of crude oil water accommodated fractions and crude oil contaminated surface water to freshwater organisms using in vitro and in vivo approaches

Truter

Wyk

Oberholster³

et al. 2016

Enviro Toxic and Chemistry

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Knowledge regarding the potential impacts of crude oil on endocrine signaling in freshwater aquatic vertebrates is limited. The expression of selected genes as biomarkers for altered endocrine signaling was studied in African clawed frog, Xenopus laevis, tadpoles and juvenile Mozambique tilapia, Oreochromis mossambicus, exposed to weathered bunker and unweathered refinery crude oil water accommodated fractions (WAFs). In addition, the expression of the aforementioned genes was quantified in X. laevis tadpoles exposed to surface water collected from the proximity of an underground oil bunker. The (anti)estrogenicity and (anti)androgenicity of crude oil, crude oil WAFs, and surface water were furthermore evaluated using recombinant yeast. Thyroid hormone receptor beta expression was significantly down-regulated in X. laevis in response to both oil WAF types, whereas a further thyroid linked gene, type 2 deiodinase, was up-regulated in O. mossambicus exposed to a high concentration of bunker oil WAF. In addition, both WAFs altered the expression of the adipogenesis-linked peroxisome proliferator-activated receptor gamma in X. laevis. The crude oil and WAFs exhibited antiestrogenic and antiandrogenic activity in vitro. However, O. mossambicus androgen receptor 2 was the only gene, representing the reproductive system, significantly affected by WAF exposure. Estrogenicity, antiestrogenicity, and antiandrogenicity were detected in surface water samples; however, no significant changes were observed in the expression of any of the genes evaluated in X. laevis exposed to surface water. The responses varied among the 2 model organisms used, as well as among the 2 types of crude oil. Nonetheless, the data provide evidence that crude oil pollution may lead to adverse health effects in freshwater fish and amphibians as a result of altered endocrine signaling. Environ Toxicol Chem 2017;36:1330-1342. © 2016 SETAC.

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Section: Reproductive Hormone Signalingsupporting

confidence: 80%

Section: Ppargsupporting

confidence: 58%

Section: Reproductive Hormone Signalingmentioning

confidence: 95%

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An evaluation of the endocrine disruptive potential of crude oil water accommodated fractions and crude oil contaminated surface water to freshwater organisms using in vitro and in vivo approaches

Truter

Wyk

Oberholster³

et al. 2016

Enviro Toxic and Chemistry

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“…Interestingly, several studies have demonstrated that commercially available mixtures (OSPW, oil sand (OS), produced water (PW)) and single naphthenic acids may induce transcriptional and translation changes of ERα/β2, Vtg and Cyp19b in modified yeast strains with human ER (YES), primary rainbow trout hepatocytes, and zebrafish (Danio rerio) embryos (Gagné et al, 2012;Thomas et al, 2004;Wang et al, 2015a,b). In addition, mixtures and fractions of NAs and PW have displayed not only ER agonistic properties, but also displayed androgen-and ER antagonistic properties in vitro (Thomas et al, 2004(Thomas et al, , 2009Leclair et al, 2015). There are however uncertainties when comparing single fractionated compounds from UCMs e.g.…”

Section: Induction Of Vtg Productionmentioning

confidence: 99%

“…Numerous examples of non-polar UCM hydrocarbons and more polar UCM acids and hetero compounds, have been synthesised or purchased from commercial suppliers (Rowland et al, 2011b;Smith et al, 2001;West et al, 2014). Compounds such as NAs display acute toxicity (LC50) in fish at concentrations (25-75 mg/l) that is typically reported for NA mixtures in oil sands process-affected water (OSPW) (Scott et al, 2008;Dokholyan and Magomedov, 1984), whereas a range of modes of action (MOAs) including cytotoxicity, genotoxicity, immunotoxicity, and endocrine disruption has been proposed (Lacaze et al, 2014;Leclair et al, 2013Leclair et al, , 2015Thomas et al, 2009;Tollefsen et al 2012). The prospect of ecotoxicological testing and characterisation of the toxic MoA of these UCM-type components has thus arisen.…”

Section: Introductionmentioning

confidence: 99%

Toxicity of organic compounds from unresolved complex mixtures (UCMs) to primary fish hepatocytes

et al. 2017

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Many environmental matrices contaminated with organic pollutants derived from crude oil or degraded petroleum contain mixtures so complex that they are typically unresolved by conventional analytical techniques such as gas chromatography. The resulting chromatographic features have become known as 'humps' or unresolved complex mixtures (UCMs). These UCMs often dominate the organic contaminants of polluted environmental samples: for example, in oil sands produced water up to 150mgL of 'naphthenic acids' appear as UCMs when examined by gas chromatography as the esters. In oil-contaminated mussels, aromatic hydrocarbon UCMs may comprise almost all of the total toxic hydrocarbons, with over 7000μgg dry weight reported in some samples. Over the last 25 years, efforts to resolve and thus identify, or at least to produce average structures, for some UCM components, have proved fruitful. Numerous non-polar UCM hydrocarbons and more polar UCM acids have been identified, then synthesised or purchased from commercial suppliers. As UCMs have been proposed to represent a risk to aquatic organisms, the need for assessment of the ecotoxicological effects and characterisation of the mode of action (MoA) of these environmental pollutants has arisen. In the present study, several chemicals with structures typical of those found in some UCMs, were assessed for their potential to disrupt membrane integrity, inhibit metabolic activity, activate the aryl hydrocarbon receptor (AhR), and activate the estrogen receptor (ER) in primary rainbow trout hepatocytes (Oncorhynchus mykiss). These endpoints were determined in order to screen for common toxic modes of action (MoA) in this diverse group of chemicals. The results from the in vitro screening indicated that of the endpoints tested, the predominant toxic MoA was cytotoxicity. EC values for cytotoxicity were obtained for 16 compounds and ranged from 77μM-24mM, whereof aliphatic monocyclic acids, monoaromatic acids, polycyclic monoaromatic acids and alkylnaphthalenes were the most toxic. The observed cytotoxicity of the chemicals correlated well with the hydrophobicity (LogK) suggesting that the toxicity was predominantly due to a non-specific MoA. Interestingly, two compounds induced the ER-mediated production of vitellogenin (Vtg) and six compounds induced the AhR-mediated Ethoxyresorufin-O-deethylase (EROD) enzymatic activity to >20% of the positive control; by doing so suggesting that they may act as ER or AhR agonists in fish. The heterogeneous group of 'UCM compounds' tested exhibited multiple MoA that may potentially cause adverse effects in fish. Additional studies to determine if these compounds may cause adverse effects in vivo at environmentally relevant concentrations, are warranted to identify if such compounds are indeed of potential environmental concern.

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Toxicity of polar metabolites associated with petroleum hydrocarbon biodegradation in groundwater

Hellmann-Blumberg¹,

Steenson²,

Brewer³

et al. 2016

Enviro Toxic and Chemistry

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In Vitro Assessment of Endocrine Disrupting Potential of Naphthenic Acid Fractions Derived from Oil Sands-Influenced Water

Cited by 28 publications

References 38 publications

An evaluation of the endocrine disruptive potential of crude oil water accommodated fractions and crude oil contaminated surface water to freshwater organisms using in vitro and in vivo approaches

An evaluation of the endocrine disruptive potential of crude oil water accommodated fractions and crude oil contaminated surface water to freshwater organisms using in vitro and in vivo approaches

Toxicity of organic compounds from unresolved complex mixtures (UCMs) to primary fish hepatocytes

Toxicity of polar metabolites associated with petroleum hydrocarbon biodegradation in groundwater

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