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RAPID SCREENING OF ENVIRONMENTAL CHEMICALS FOR ESTROGEN RECEPTOR BINDING CAPACITY
Citation:
Bolger, R., T. E. Wiese, K. Ervin, S. Nestich, AND W. Checovich. RAPID SCREENING OF ENVIRONMENTAL CHEMICALS FOR ESTROGEN RECEPTOR BINDING CAPACITY. ENVIRONMENTAL HEALTH PERSPECTIVES. National Institute of Environmental Health Sciences (NIEHS), Research Triangle Park, NC, 106(9):551-7, (1998).
Impact/Purpose:
To present a novel fluorescence polarization (FP) method that measures the potential of endocrine disrupting chemicals to affect wildlife and humans
Description:
Over the last few years, an increased awareness of endocrine disrupting chemicals (EDCs) and their potential to affect wildlife and humans has produced a demand for practical screening methods to identify endocrine activity in a wide range of environmental and industrial chemicals. While it is clear that in vivo methods will be required to identify adverse effects produced by these chemicals, in vitro assays can define particular mechanisms of action and have the potential to be employed as rapid and low-cost screens for use in large scale EDC screening programs. Traditional estrogen receptor (ER) binding assays are useful for characterizing a chemical's potential to be an estrogen-acting EDC, but they involve displacement of a radioactive ligand from crude receptor preparations at low temperatures. The usefulness of these assays for realistically determining the ER binding interactions of weakly estrogenic environmental and industrial compounds that have low aqueous solubility is unclear. In this report, we present a novel fluorescence polarization (FP) method that measures the capacity of a competitor chemical to displace a high affinity fluorescent ligand from purified, recombinant human ER- at room temperature. The ER- binding interactions generated for 15 natural and synthetic compounds were found to be similar to those determined with traditional receptor binding assays. We also discuss the potential to employ this FP technology to binding studies involving ER-ß and other receptors. Thus, the assay introduced in this study is a nonradioactive receptor binding method that shows promise as a high throughput screening method for large-scale testing of environmental and industrial chemicals for ER binding interactions. Key words: competition binding, endocrine disruptor screening, estrogen, estrogen receptor, fluorescence polarization. Environ Health Perspect 106:551-557 (1998) . [Online 6 August 1998]