Dietary soy phytoestrogens and ERalpha signalling modulate interferon gamma production in response to bacterial infection.

Diets rich in soy phytoestrogens have many potential health benefits but isoflavones such as genistein may suppress cell mediated immune function. The effect of dietary phytoestrogens on the host response to infection has not been extensively examined. Mice were fed a diet containing soy phytoestrogens and infected with Mycobacterium avium to establish a chronic infection and inflammatory response. As phytoestrogens may act through classical oestrogen receptors (ER), mice deficient in ERalpha signalling and wild type mice were evaluated for a panel of Type 1-associated cytokines (IFNgamma, IL-12 and IL-18) in the spleen. IFNgamma production in the spleen was increased approximately 4-fold in ERalpha-deficient mice fed a casein-based diet over wild type mice fed a casein-based diet (P < 0.05), suggesting a role for ERalpha in suppressing IFNgamma production. IL-18 levels in spleens of wild type mice were decreased compared to ERalpha-deficient mice on a casein diet. Splenic IL-12 and IL-18 levels were not affected in wild type and ERalpha-deficient mice on the phytoestrogen containing diets, with the exception that whole soy increased IL-12 levels in the tissues of ERalpha deficient mice. We conclude that ERalpha and dietary phytoestrogens can influence production of key regulatory cytokines in response to chronic bacterial infection.

In vitro and in vivo regulation of antioxidant response element-dependent gene expression by estrogens.

Understanding estrogen's regulation of phase II detoxification enzymes is important in explaining how estrogen exposure increases the risk of developing certain cancers. Phase II enzymes such as glutathione-S-transferases (GST) and quinone reductase protect against developing chemically induced cancers by metabolizing reactive oxygen species. Phase II enzyme expression is regulated by a cis-acting DNA sequence, the antioxidant response element (ARE). It has previously been reported that several antiestrogens, but not 17beta-estradiol, could regulate ARE-mediated gene transcription. Our goal was to determine whether additional estrogenic compounds could regulate ARE-mediated gene expression both in vitro and in vivo. We discovered that physiological concentrations (10 nm) of 17beta-estradiol repressed GST Ya ARE-dependent gene expression in vitro. Treatment with other endogenous and anti-, xeno-, and phytoestrogens showed that estrogen receptor/ARE signaling is ligand, receptor subtype, and cell type specific. Additionally, GST and quinone reductase activities were significantly lowered in a dose-dependent manner after 17beta-estradiol exposure in the uteri of mice. In conclusion, we have shown that 17beta-estradiol, and other estrogens, down-regulate phase II enzyme activities. We propose estrogen-mediated repression of phase II enzyme activities may increase cellular oxidative DNA damage that ultimately can result in the formation of cancer in some estrogen-responsive tissues.

Biocompatibility of hydroxylated metabolites of BISGMA and BFDGE.

Unpolymerized dental monomers can leach out into the oral biophase and are bioavailable for metabolism. We hypothesize that metabolites would be less toxic than parent monomers. We first identified the formation of metabolites from bisphenol F diglycidyl ether (BFDGE) and Bisphenol A glycidyl methacrylate (BISGMA) after their exposure to liver S9 fractions. Then, the metabolites and parent compounds were subjected to in vitro cytotoxicity, mutagenicity, and estrogenicity studies. Bisphenol A bis(2,3-dihydroxypropyl) ether and bisphenol F bis(2,3-dihydroxypropyl) ether were the hydroxylated metabolites of BISGMA and BFDGE, respectively. Cytotoxicity against L929 cells showed that the metabolites were significantly (p < 0.05) less cytotoxic than the parent monomers. Only BFDGE was mutagenic in the Ames assay with strain TA100 of Salmonella typhimurium. Parent and metabolite compounds did not stimulate estrogen-dependent MCF-7 cell proliferation above solvent controls. These results indicated that the hydroxylated metabolites were non-mutagenic, non-estrogenic, and less cytotoxic than their parent monomers.

Low-dose bioactivity of xenoestrogens in animals: fetal exposure to low doses of methoxychlor and other xenoestrogens increases adult prostate size in mice.

The hormonal activity of natural estrogens is influenced by the degree to which they bind to serum proteins. In the pregnant female and in the fetus, greater than 99% of estradiol may be bound by serum binding proteins. Therefore, even though total serum levels of estradiol appear very high in fetuses, we have found that in rodent fetuses, there is a very low free concentration of estradiol (0.2 pg/ml). Naturally occurring variation in fetal serum estradiol predicts differences in numerous postnatal traits, including prostate size. In addition, when this low level of free estradiol was experimentally increased from 0.2 to 0.3 pg/ml during the last third of fetal life, treated male mice showed an increase in adult prostate weight. Fetal exposure to low doses of xenobiotic estrogens by feeding to pregnant females, including the compounds methoxychlor (20 and 2000 micrograms/kg body weight), DES (0.02 to 2 micrograms/kg body weight) and bisphenol A (2 and 20 micrograms/kg body weight), also led to increased prostate weight in adulthood. In contrast, fetal doses of natural estradiol and DES above the physiological range of estrogenic activity, and within a toxicological dose range, led to the opposite outcome, a reduction in subsequent adult prostate weight. This indicates that it may be impossible to assess endocrine-disrupting activities in response to low doses within a physiological range of activity by using high, toxic doses of xenoestrogens in testing procedures. We have developed approaches in vitro to predict the potential estrogenic bioactivity of compounds in the physiologically relevant range in animals and humans. We address the following factors in predicting the final observed endocrine-disrupting effect in the animal: (1) the intrinsic estrogenic activity of a given molecule, (2) the effective free concentration determined by how the molecule is carried in serum, (3) partitioning between aqueous and lipid compartments in body and cell lipids, and (4) absorption and metabolism relative to the route of exposure. The studies and strategies we describe are important in developing criteria for a tiered testing system for the detection of estrogenic chemicals as well as endocrine-disrupting chemicals with different modes of action.

Subcellular compartmentalization of MCF-7 estrogen receptor synthesis and degradation.

Turnover of the estrogen receptor protein was studied by using enucleation of human breast cancer-derived MCF-7 cells, to examine receptor synthesis and receptor degradation in the separated cytoplasmic compartment (cytoplasts) and nuclear compartment (nucleoplasts). Cytoplasts synthesized estrogen receptors as measured by both hormone-binding and immunoassay, while estrogen receptors (but not progesterone or glucocorticoid receptors) were rapidly degraded in nucleoplasts with a half-life of 3-4 h. Little or no degradation of estrogen receptors in cytoplasts was observed under several conditions. Interestingly, MCF-7 cytoplasts contained approximately 15% of the cell's estrogen receptors, which were not 'translocated' by treatment with 17 beta-estradiol before enucleation. We conclude that the estrogen receptor can be synthesized at least to a hormone binding form in the cytoplasm alone without requiring processing in the nucleus, while the nucleus (or perinuclear cytoplasm) is the primary site of degradation of the estrogen receptor protein. In addition, the presence of a population of estrogen receptors that is cytoplasmic but nontranslocatable may need to be considered in the subcellular localization and actions of steroid receptors.

Control of proliferation of MCF-7 breast cancer cells in a commercial preparation of charcoal-stripped adult bovine serum.

A commercial preparation of charcoal-stripped adult bovine serum was used to culture MCF-7 cells in estrogen-free media. Use of this stripped adult bovine serum represents an alternative to calf serum which is in more limited supply, and saves charcoal-stripping of serum in the laboratory, which can be a rate-limiting step in the preparation of materials for estrogen-free tissue culture. MCF-7 cell proliferation was controlled by estrogens, epidermal growth factor (EGF) and lithium chloride in adult bovine serum as well as in standard media prepared with charcoal-stripped calf serum, and approximately the same fold-increase in response to the tested agents was observed in the two sera. Although the growth rates were lower in media prepared with adult bovine serum, MCF-7 cells in both media exhibited the same sensitivities in dose-responses to these three mitogens. Levels of estrogen and progesterone receptors, and the magnitude of estrogen-dependent stimulation of the progesterone receptors, were similar in cells maintained in both sera. Therefore, a commercially stripped adult bovine serum can be used to replace calf serum in the study of estrogenic responses and the control of proliferation in MCF-7 breast cancer cells.