In vitro thyroid hormone-disrupting activity in effluents and surface waters in Thailand

The thyroid hormone (TH)-disrupting activity of effluents and environmental water samples in Thailand was surveyed by three in vitro bioassays with different endpoints. These assays test the potency of competitive binding with the active form of TH, 3,3',5-[125I]triiodo-l-thyronine (T3), to the...

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Bibliographic Details
Published in:Environmental toxicology and chemistry 2009-03, Vol.28 (3), p.586-594
Main Authors: Ishihara, Akinori, Rahman, Farhana B, Leelawatwattana, Ladda, Prapunpoj, Porntip, Yamauchi, Kiyoshi
Format: Article
Language:English
Subjects:
Agricultural chemicals
Amphibia
Animals
Assaying
Binding
Bioassay
Bioassays
Biological Assay
canal water
Canals
canals (waterways)
Cells
Cellular
Contaminants
Correlation
Dichloromethane
Documents
Effluents
Endocrine disruption
Endocrine Disruptors - chemistry
Endocrine Disruptors - toxicity
endocrine-disrupting chemicals
Environmental wastewater
Freshwater
Genes
hormone receptors
In vitro testing
Industrial plants
Influents
luciferase
Manufacturing industry
Methanol
Methyl alcohol
Monitoring
Plants (organisms)
pollutants
prealbumin
Presses
Proteins
pulp and paper mill effluents
Risk assessment
Rivers
Sewage
sewage effluent
Surface water
Thailand
Thyroid
Thyroid gland
Thyroid hormone
thyroid hormone receptors
thyroid hormones
Thyroid Hormones - metabolism
Thyroid receptor
Transthyretin
triiodothyronine
Waste water
Wastewater treatment
Water analysis
Water Pollutants, Chemical - chemistry
Water Pollutants, Chemical - toxicity
water pollution
Water sampling
Water Supply
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Summary:The thyroid hormone (TH)-disrupting activity of effluents and environmental water samples in Thailand was surveyed by three in vitro bioassays with different endpoints. These assays test the potency of competitive binding with the active form of TH, 3,3',5-[125I]triiodo-l-thyronine (T3), to the plasma transport protein transthyretin (TTR) and TH receptor (TR; the TTR assay and TR assay, respectively) and the interference with the cellular T3-signaling pathway through TR-mediated luciferase gene activation (the luc assay). The TH-disrupting activity in water samples collected from paper manufacturing plants (PMPs), the canal Khlong U-Taphao, and a sewage-treatment plant (STP) was detected predominantly in the dichloromethane/methanol or methanol fractions of solid-phase extraction, suggesting a similar hydrophobic nature of the causative contaminants. The TR assay was relatively more sensitive than the TTR assay to the competitively potent contaminants. The luc assay indicated that the dichloromethane/methanol fractions of most water samples contained anti-T3-like activity. Our assays demonstrated that wastewater treatment effectively removed the TH-disrupting contaminants from wastewater in the PMP and the STP. The potencies for TH disruption at the three sampling points of the STP exhibited positive correlations among the three bioassays, whereas those from the canal and PMP water were not correlated among the three bioassays. Furthermore, the influent contaminants that were competitively potent in the TTR assay partially affected the luc assay. These bioassays are useful monitoring tools that give results relevant for evaluating the health of amphibian populations.
ISSN:0730-7268
1552-8618
DOI:10.1897/08-120.1