1. Influence of tetrabromobisphenol A, with or without concurrent triclosan, upon bisphenol A and estradiol concentrations in mice
- Author
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Pollock, Tyler, Mantella, Leanna, Reali, Vanessa, and deCatanzaro, Denys
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Bisphenol-A -- Health aspects -- Physiological aspects ,Endocrine disruptors -- Health aspects -- Physiological aspects ,Polybrominated biphenyls -- Health aspects -- Physiological aspects ,Triclosan -- Health aspects -- Physiological aspects ,Flame retardants -- Health aspects -- Composition ,Metabolism -- Research ,Environmental issues ,Health - Abstract
Background: Humans are commonly exposed to multiple environmental chemicals, including tetrabromobisphenol A (TBBPA; a flame retardant), triclosan (an antimicrobial agent), and bisphenol A (BPA; polycarbonate plastics). These chemicals are readily absorbed and may interact with each other. Objectives: We sought to determine whether TBBPA, given alone or in combination with triclosan, can modulate the concentrations of BPA and 17[beta]-estradiol (E2). Methods: Female and male CF-1 mice were each given a subcutaneous injection of 0-27 mg TBBPA, with or without concurrent 0.33 mg triclosan, followed by dietary administration of 50 [micro]g/kg body weight [sup.14]C-BPA. Radioactivity was measured in blood serum and tissues through liquid scintillation counting. In subsequent experiments, female and male CF-1 mice were each given a subcutaneous injection of 0 or 1 mg TBBPA and E2 was measured in urine 2-12 h after injection. Results: Doses as low as 1 mg TBBPA significantly elevated [sup.14]C-BPA concentrations in the uterus and ovaries of females; in the testes, epididymides, vesicular-coagulating glands, and preputial glands of males; and in blood serum, heart, lungs, and kidneys of both sexes; urinary E2 concentrations were also elevated. Lower doses of TBBPA or triclosan that had no effects on their own elevated [sup.14]C-BPA concentrations when the two substances were given concurrently. Conclusion: These data indicate that TBBPA, triclosan, and BPA interact in vivo, consistent with evidence that TBBPA and triclosan inhibit enzymes that are critical for BPA and E2 metabolism. https://doi.org/10.1289/EHP1329, Introduction Tetrabromobisphenol A (TBBPA; CAS 79-94-7) is the most-produced flame retardant, with global use over 170,000 metric tons/y (Environment Canada and Health Canada 2013). Approximately 80% of TBBPA is used [...]
- Published
- 2017
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