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  • A binary screening assay for pro-oestrogens in food: metabolic activation using hepatic microsomes and detection with oestrogen sensitive recombinant yeast cells.

A binary screening assay for pro-oestrogens in food: metabolic activation using hepatic microsomes and detection with oestrogen sensitive recombinant yeast cells.

Food additives and contaminants (2003-03-08)
N G Coldham, R Horton, M F Byford, M J Sauer
ABSTRACT

An assay, employing microsomes prepared from rat liver and a recombinant cell bioassay (RCBA) expressing the human oestrogen receptor (alpha) linked to a reporter gene, was evaluated for the detection of pro-oestrogens in food using methoxychlor and mestranol as model compounds. Bio-activation of the hop phytoestrogen isoxanthohumol to the potent oestrogen 8-prenylnaringenin was also investigated. The oestrogenic potency values for reference standards determined with the RCBA (17beta-oestradiol = 100%) were: methoxychlor 0.0025%, mestranol 1.3%, isoxanthohumol 0.001%, and for their potential respective metabolites were: bishydroxymethoxychlor 0.015%, 17alpha-ethynyl oestradiol 69% and 8-prenylnaringenin 0.4%. Incubation of methoxychlor and mestranol (10 microM) with microsomes prepared from the liver of rats treated with Aroclor 1254 significantly increased (p < 0.001) their oestrogenic potency from 0.0021 and 2.4% to 0.015 and 8.3%, respectively. In contrast, the potency of the hop phytoestrogen isoxanthohumol was unchanged. Metabolites were identified by UV-HPLC-MS/MS as monohydroxy methoxychlor and HPTE from methoxychlor, and the major metabolite of mestranol was 17alpha-ethynyl oestradiol. There was no evidence for the metabolism of isoxanthohumol. Mestranol was also activated by microsomes induced with saline (control), beta-napthoflavone, 3-methylcholantherene, isoniazid or pregnenolone-16alpha-carbonitrile, but not phenobarbitone. These studies demonstrate the principle for use of a binary assay system for the detection of pro-oestrogens and indicate the potential value for risk assessment of endocrine disrupting chemicals.

MATERIALS
Product Number
Brand
Product Description

Sigma-Aldrich
Mestranol, 99%