Graeme P Williams1, Philippa D Darbre2. 1. Molecular and Cellular Medicine Group, School of Biological Sciences, University of Reading, Reading, Berkshire, RG6 6UB, United Kingdom. Electronic address: g.p.williams@pgr.reading.ac.uk. 2. Molecular and Cellular Medicine Group, School of Biological Sciences, University of Reading, Reading, Berkshire, RG6 6UB, United Kingdom.
Abstract
BACKGROUND: Phenolic endocrine-disrupting compounds (EDCs) have long been suspected of increasing human breast cancer risk, via aromatase up-regulation; however, the metabolic effects upon aromatase in human breast cells exposed to environmentally relevant concentrations of phenolic compounds, have not been addressed. OBJECTIVES: To examine the mechanistic responses of aromatase CYP19A1 mRNA, aromatase activity, estradiol biosynthesis and cellular proliferation, in three human breast cell lines, exposed to seven phenolic compounds, at environmentally relevant concentrations. METHODS: MCF-7 and ZR-75-1 breast cancer cells, and HMF3A breast fibroblasts were treated with specific concentrations of p,p'-DDT, methoxychlor, benzophenone-2, bisphenol A, bisphenol S, 4-phenylphenol and n-butylparaben, with and without the presence of aromatase inhibitors and estrogen receptor inhibitors. RESULTS: All test EDCs up-regulated aromatase mRNA, increased aromatase activity, significantly increased the aromatase-induced biosynthesis of the breast carcinogen 17β-estradiol, and increased ERα-positive breast cell proliferation. CONCLUSION: Inadvertent exposures to 'phenolic' EDCs, increase estradiol biosynthesis, and estrogen-sensitive breast cancer proliferation.
BACKGROUND: Phenolic endocrine-disrupting compounds (EDCs) have long been suspected of increasing humanbreast cancer risk, via aromatase up-regulation; however, the metabolic effects upon aromatase in human breast cells exposed to environmentally relevant concentrations of phenolic compounds, have not been addressed. OBJECTIVES: To examine the mechanistic responses of aromatase CYP19A1 mRNA, aromatase activity, estradiol biosynthesis and cellular proliferation, in three human breast cell lines, exposed to seven phenolic compounds, at environmentally relevant concentrations. METHODS: MCF-7 and ZR-75-1 breast cancer cells, and HMF3A breast fibroblasts were treated with specific concentrations of p,p'-DDT, methoxychlor, benzophenone-2, bisphenol A, bisphenol S, 4-phenylphenol and n-butylparaben, with and without the presence of aromatase inhibitors and estrogen receptor inhibitors. RESULTS: All test EDCs up-regulated aromatase mRNA, increased aromatase activity, significantly increased the aromatase-induced biosynthesis of the breast carcinogen 17β-estradiol, and increased ERα-positive breast cell proliferation. CONCLUSION: Inadvertent exposures to 'phenolic' EDCs, increase estradiol biosynthesis, and estrogen-sensitive breast cancer proliferation.
Authors: Ramji K Bhandari; Julia A Taylor; Jennifer Sommerfeld-Sager; Donald E Tillitt; William A Ricke; Frederick S Vom Saal Journal: Environ Epigenet Date: 2019-08-22
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