Effect of reducing agents-antioxidants on rat uterine aromatase activity in vitro

The effect of different reductors-antioxidants (ascorbic acid, cysteine, glutathione-SH and hydroquinone) on purified rat uterine aromatase activity was studied. It was established that all these compounds were aromatase activators. The possible mechanisms of this activation were discussed.     

The effects of dietary phytoestrogens on aromatase activity in human endometrial stromal cells

Dietary phytoestrogens have been reported to inhibit aromatase activity in placental microsomes, but the effects in the human endometrium are unknown. Aromatase, the rate-limiting enzyme in the conversion of androgens to estrogens, has recently been shown to be expressed in the endometrium of women with endometriosis and is thought to play a role in the pathophysiology of this disease. Therefore, the objective of this study was to screen dietary phytoestrogens for their ability to inhibit aromatase activity in human endometrial stromal cells (ESC) and identify potential novel therapeutic agents for the treatment of endometriosis. The inhibition of aromatase activity by direct interaction with the dietary phytoestrogens genistein, daidzein, chrysin, and naringenin was tested in a cell free assay. Furthermore, test compound effects on aromatase activity in ESC cultures were also examined. Genistein and daidzein were inactive in the human recombinant aromatase assay whereas naringenin and chrysin inhibited aromatase activity. However, genistein (1 nM to 1 mM) stimulated aromatase activity in ESC whereas other phytoestrogens had no effect. Immunopositive aromatase cells were demonstrated in genistein-treated ESC but not in untreated control cultures. Taken together, our data suggest that genistein can increase aromatase activity in ESC likely via increased enzyme expression.     

金雀异黄酮通过减少卵巢切除大鼠心肌小凹蛋白-1的表达而增加一氧化氮的生成

观察金雀异黄酮(genistein)替代治疗对卵巢切除大鼠心肌中一氧化氮(nitric oxide,NO)和内皮型一氧化氮合酶(endothelial nitric oxide synthase,eNOS)的影响.成年雌性Sprague-Dawley大鼠经双侧卵巢切除术,假手术组作为对照,术后三周将行卵巢切除术的大鼠随机分为低剂量genistein(0.5 mg/kg·d1)、高剂量genistein(5.0 mg/kg·d-1)、17-β雌二醇(0.1 mg/kg·d-1)和模型组(100μl/d芝麻油),各组均皮下注射给药并给予不含大豆的饲料喂养6周,测定大鼠尾动脉血压、心率,麻醉后放血处死大鼠称量子宫重量;放免法检测血浆中总雌二醇,亚硝酸还原酶法检测心肌匀浆中NO,Western blot检测心肌中eNOS的表达以及eNOS的调节蛋白小凹蛋白-1(caveolin-1)和钙调素(calmodulin)的表达情况.结果显示各组间大鼠血压无显著性差异,同17-β雌二醇一样,genistein能呈剂量依赖性地增加心肌组织中eNOS表达量和NO生成,同时genistein能明显降低内源性eNOS活性抑制物caveolin-1的表达,而不影响eNOS活性正性调节蛋白钙调素的表达.与溶媒对照组比较,0.5 mg/kg·d-1的genistein不增加子宫重量,5.0 mg/kg·d-1的genistein增加子宫重量3倍,但较17-β雌二醇(增加6倍)的作用小(P＜0.01).上述结果提示,植物雌激素genistein剂量依赖性地上调心肌组织eNOS的活性并增加NO的生成,减少抑制eNOS活性的小凹蛋白-1表达.     

Aromatase in endometriosis and uterine leiomyomata

Endometrial tissue from uterine disease-free women does not exhibit aromatase activity. In contrast, aromatase enzyme activity and mRNA levels are readily detectable in endometriosis. PGE₂ stimulates both aromatase expression and activity in endometriotic stromal cells via promoter II region of the aromatase gene. This results in local production of estradiol, which induces PGE₂ formation and establishes a positive feedback cycle. This mechanism seems to contribute to continuous production of estradiol and PGE₂. Aromatase mRNA levels and enzyme activity are also present in uterine leiomyomata that are estrogen-dependent benign tumors of the myometrium. Successful treatment of endometriosis and uterine leiomyomata using aromatase inhibitors by recent pilot trials underscores the clinical significance of these molecular studies.     

A quantitative and interspecific test for biological activity of anti-müllerian hormone: the fetal ovary aromatase assay.

Anti-Müllerian hormone (AMH), also known as Müllerian-inhibiting substance or factor, has previously been shown to sex-reverse the steroidogenic pattern of fetal mammalian ovaries through repression of aromatase biosynthesis. Study of the ontogeny of the response of cyclic AMP-stimulated aromatase activity of rat fetal ovaries to AMH has allowed us to develop a quantitative bioassay for the hormone. Linear responses as a function of the logarithm of AMH concentration were observed over ranges of 0.2-7.5 micrograms/ml for the bovine protein and 0.15-2 micrograms/ml for the human protein, with a maximal decrease in aromatase activity of 90% for both proteins. Under the same in vitro conditions, AMH treatment did not affect cyclic AMP-stimulated fetal rat testicular aromatase activity. Partially purified chick AMH also decreased rat ovarian aromatase activity, allowing us to use this test to study AMH ontogeny in chick gonads. Analysis of the species specificity of AMH repression of ovarian aromatase activity indicated that turtle and rat fetal ovaries responded to AMH of other vertebrate classes, whereas aromatase activity of chick embryo ovaries could be repressed only by the homospecific hormone.     

Estrogen synthesis in human colon cancer epithelial cells

Epidemiological and experimental data suggest an involvement of estrogen in the development and progression of colorectal cancer. In order to determine whether local synthesis of estrogen occurred in human colonic cancer cells, two colorectal cancer cell lines, HCT8 and HCT116, were evaluated for gene expression and enzyme activity of cytochrome P450 aromatase. In addition, the effect on aromatase expression of charcoal-stripped fetal calf serum, of quercetin and genistein and of tamoxifen and raloxifene was investigated in both cell lines. RT-PCR analysis revealed that colorectal adenocarcinoma cell lines contain aromatase as a major component. The conversion of [³H]-androstenedione to estrone and labeled water was dose-dependently inhibited by 4-hydroxyandrostenedione and obeyed Michaelis–Menten kinetic with apparent Km values of 20 nM and V_max values of approx. 200 and 500 fmol/mg protein/h for HCT8 and HCT116 cells, respectively. After 24 h incubation, genistein (1 μM) significantly increased aromatase activity in HCT8 cells, with no effect on HCT116 cells. In accord with previous observation in reproductive tissues, quercetin (1 μM) significantly inhibited the enzyme activity in both cell lines. Also tamoxifen (100 nM) acted as inhibitor, while raloxifene (10 nM) decreased the enzyme activity only in HCT116 cells. The aromatase gene expression modulation by these effective agents was consistent with their effects on enzyme activity. These findings demonstrate for the first time that colorectal adenocarcinoma cell lines express aromatase. Interestingly, the enzyme activity was inhibited by quercetin, one major dietary flavonoid, by tamoxifen, a hormonal therapeutic agent for breast cancer, and by raloxifene, used in the prevention of postmenopausal osteoporosis.     

Ability of xeno- and phytoestrogens to modulate expression of estrogen-sensitive genes in rat uterus: estrogenicity profiles and uterotropic activity

The function of the uterus is regulated by female sex steroids and it is, therefore, used as the classical target organ to detect estrogenic action. Uterine response to estrogens involves the activation of a large pattern of estrogen-sensitive genes. This fact offers the opportunity to analyze the estrogenic activity of xeno- and phytoestrogens, and the mechanisms of their molecular action by a correlation of the uterotropic activity and their ability to modulate the expression of estrogen-sensitive genes. We have analyzed the expression of androgen receptor (AR), progesterone receptor (PR), estrogen receptor (ER), clusterin (CLU), complement C3 (C3), and GAPDH mRNA in the rat uterus following oral administration of ethinylestradiol (EE), bisphenol A (BPA), o,p'-DDT (DDT), p-tert-octylphenol (OCT) and daidzein (DAI). A significant stimulation of the uterine wet weight could be observed after administration of all the substances. The activity of all analyzed compounds to stimulate uterine weight was low in comparison to EE. DDT has the highest activity to stimulate uterine weight whereas BPA and DAI turned out to be less potent. The analysis of gene expression revealed a very specific profile of molecular action in response to the different compounds which cannot be detected by judging the uterotropic response alone. A dose dependent analysis revealed that C3 mRNA is already modulated at doses where no uterotropic response was detectable. Although DAI and BPA were very weak stimulators of uterine growth, these substances were able to alter the expression of AR, ER and C3 very strongly. Based on these investigations the analyzed compounds can be subdivided into distinct classes: First, compounds which exhibit a similar gene expression fingerprint as EE (e.g. OCT); second, compounds exhibiting a significant uterotropic activity, but inducing a pattern of gene expression different from EE (e.g. DDT); and third, compounds like BPA and especially DAI which exhibit a very low uterotropic activity, but nevertheless modulate the expression of estrogen-sensitive genes. These findings strongly suggest that the fingerprint of uterine gene expression is a very sensitive tool to investigate estrogenicity of natural and synthetic compounds and offers the possibility to get information in regard to the molecular mechanisms involved in the action of the respective compounds.     

Inhibition of the 1-(o-chlorophenyl)-1-(p-chlorophenyl)-2,2,2-trichloroethane (o,p′DDT)- and estradiol-mediated induction of rat uterine ornithine decarboxylase by prior treatment with o,p′DDT,estradiol, and tamoxifen

This study was designed to determine whether prior administration of inducers of rat uterine ornithine decarboxylase (ODC), such as 1-(o-chlorophenyl)-1-(p-chlorophenyl)-2,2,2-trichloroethane (o,p′DDT), estradiol-17β (E₂), or tamoxifen, inhibits the elevation of ODC by subsequently administered o,p′ DDT or estradiol-17β. o,p′ DDT (10 mg/day) was injected for 2 days to ovariectomized rats. One or two days later, when the levels of ODC returned to basal levels, o,p′ DDT (10 mg) and E₂ (0.05 μg) were administered intraperitoneally and, 6 or 5 h after these injections, uterine ODC was analyzed. The pretreatment with o,p′ DDT almost entirely blocked the induction of ODC by E₂ or o,p′ DDT. In another experiment, pretreatment with o,p′ DDT for 5 or 6 days eliminated the induction of ODC after injection of o,p′ DDT on Day 7. Similarly, the treatment of rats with the antiestrogen-tamoxifen (0.1 mg/day) for 4 days completely inhibited the subsequent elevation of ODC by either E₂ or o,p′ DDT administered on the fifth day. However, attempts to block the E₂-mediated elevation of ODC by prior treatment with E₂ yielded variable results. Two possibilities were considered to attempt to explain the mechanism of inhibition of induction of ODC by o,p′ DDT and tamoxifen: (a) induction of hepatic monooxygenase by these compounds, resulting in increased metabolism of the subsequently administered o,p′ DDT and E₂ into biologically less active components; (b) involvement of putrescine, the product of ODC action, in inhibiting ODC formation at the pretranslational level or at the post-translational level. It appears unlikely that the o,p′ DDT- and tamoxifen-mediated inhibition of ODC induction was due to an increase in hepatic biotransformation of o,p′ DDT and E₂. Pretreatment with tamoxifen or E₂ did not appear to induce the formation of hepatic microsomal cytochrome P-450, a component of the monooxygenase system. Furthermore, pretreatment with 2,2-bis-(p-chlorophenyl)-1,1-dichloroethylene (a compound with a structure similar to o,p′ DDT), which is not estrogenic but like o,p′ DDT elevates hepatic monooxygenase activity, did not inhibit E₂-or o,p′ DDT-mediated induction of uterine ODC. Concerning the possibility of putrescine inhibitory action, our observations that uterine diamine oxidase activity is negligible and that o,p′ DDT administration has no effect on this enzymatic activity suggested that elevation of ODC may result in higher levels of uterine putrescine or spermidine and spermine. The finding that the administration of putrescine to ovariectomized rats inhibited uterine ODC induction by o, p′ DDT supports the treatise that inhibition of ODC elevation after initial induction of ODC by antiestrogens and o,p′ DDT is due to putrescine- or polyamine-mediated inhibition of ODC. The possible mechanism of such product inhibition of ODC is disucssed.     

Environmental estrogens differentially engage the histone methyltransferase EZH2 to increase risk of uterine tumorigenesis

Environmental exposures during sensitive windows of development can reprogram normal physiologic responses and alter disease susceptibility later in life in a process known as developmental reprogramming. For example, exposure to the xenoestrogen diethylstilbestrol during reproductive tract development can reprogram estrogen-responsive gene expression in the myometrium, resulting in hyperresponsiveness to hormone in the adult uterus and promotion of hormone-dependent uterine leiomyoma. We show here that the environmental estrogens genistein, a soy phytoestrogen, and the plasticizer bisphenol A, differ in their pattern of developmental reprogramming and promotion of tumorigenesis (leiomyomas) in the uterus. Whereas both genistein and bisphenol A induce genomic estrogen receptor (ER) signaling in the developing uterus, only genistein induced phosphoinositide 3-kinase (PI3K)/AKT nongenomic ER signaling to the histone methyltransferase enhancer of zeste homolog 2 (EZH2). As a result, this pregenomic signaling phosphorylates and represses EZH2 and reduces levels of H3K27me3 repressive mark in chromatin. Furthermore, only genistein caused estrogen-responsive genes in the adult myometrium to become hyperresponsive to hormone; estrogen-responsive genes were repressed in bisphenol A-exposed uteri. Importantly, this pattern of EZH2 engagement to decrease versus increase H3K27 methylation correlated with the effect of these xenoestrogens on tumorigenesis. Developmental reprogramming by genistein promoted development of uterine leiomyomas, increasing tumor incidence and multiplicity, whereas bisphenol A did not. These data show that environmental estrogens have distinct nongenomic effects in the developing uterus that determines their ability to engage the epigenetic regulator EZH2, decrease levels of the repressive epigenetic histone H3K27 methyl mark in chromatin during developmental reprogramming, and promote uterine tumorigenesis.     

Dose-response effects of phytoestrogens on the activity and expression of 3beta-hydroxysteroid dehydrogenase and aromatase in human granulosa-luteal cells

There is evidence that certain phytoestrogens can inhibit key steroidogenic enzymes although most studies have been carried out on microsomal or purified enzyme preparations, some using cell lines. This study was designed to test the hypothesis that low doses of phytoestrogens, at concentrations that would be attained through the diet, could inhibit 3beta-hydroxysteroid dehydrogenase (HSD) and/or aromatase in primary cultures of human granulosa-luteal (GL) cells and that this effect was due to a decrease in the expression of these proteins. Based on published evidence, eight compounds were selected for investigation and these included the flavones apigenin and quercetin, the isoflavones genistein, biochanin A and daidzein, the lignans, enterodiol and enterolactone, and the mycotoxin zearalenone. Human GL cells were cultured for 48 h in the presence of these phytoestrogens at concentrations ranging from 0.01 to 100 microM and after addition of fresh media the conversion of pregnenolone to progesterone or androstenedione to oestradiol over a 4h period was measured. Biochanin A was the only phytoestrogen that displayed any dose-dependent inhibition of 3beta-HSD, others showing inhibition at doses >/=10 microM. Apigenin and quercetin only inhibited aromatase/17beta-HSD at high doses as did genistein, biochanin A and daidzein. The lignans had weak inhibitory effects on aromatase/17beta-HSD, whilst zearalenone showed potent inhibition at 0.1 microM. Phytoestrogens did not exert any significant effects on protein expression of 3beta-HSD or aromatase as determined by Western blots. It is concluded that steroidogenic enzymes are inhibited by phytoestrogens in primary cultures of human GL cells but these cells are less sensitive to the effects of phytoestrogens than cell-free systems. This may be due to poor lipid solubility or cellular metabolism. We have also shown for the first time that phytoestrogens do not act by inhibiting the cellular concentration of 3beta-HSD and aromatase even though exposure time would have allowed for changes in gene expression.     

The use of rat Leydig tumor (R2C) and human hepatoma (HEPG2) cells to evaluate potential inhibitors of rat and human steroid aromatase

The efficacies of 10-propargylestr-4-ene-3,17-dione (PED), 4-hydroxyandrostenedione (4-OHA) and the imidazole broad spectrum antimycotic drugs, econazole, imazalil, miconazole and ketoconazole, to inhibit the steroid aromatase activities of rat Leydig tumor (R2C) cells and human hepatoma (HEPG2) cells have been determined. The analysis of inhibition of steroid aromatase activity of intact cells provided further insight into the potential use of such drugs to block cellular estrogen synthesis. The IC50 values for the inhibition of aromatase activity of R2C cells by econazole, imazalil, miconazole, ketoconazole, 4-OHA and PED were 4, 9, 40, 1100, 11 and 10 nM, respectively. These drugs also inhibited the steroid aromatase activity of HEPG2 cells with corresponding IC50 values of 13, 27, 20, 15000, 2 and 2 nM, respectively; these findings were suggestive that the steroid aromatase of rat has many similarities to the human enzyme in its interaction with putative inhibitory compounds. Importantly, however, ketoconazole inhibited the rat aromatase more effectively than it did the human enzyme, while PED and 4-OHA were less effective inhibitors of the rat enzyme compared to that of human. These findings indicate differences in the potencies of various drugs to inhibit estrogen biosynthesis in human and rat cells. These may relate to differences in the two aromatase systems and/or differences in the stability of the drugs in the human hepatoma and rat Leydig tumor cells.     

Inhibitory effect of a new androstenedione derivative, 14 alpha-hydroxy-4-androstene-3,6,17-trione (14 alpha-OHAT) on aromatase activity of human uterine tumors

The development of human uterine estrogen-dependent tumors is considered to be closely related to estrogen biosynthesis. This study examined whether or not 14 alpha-hydroxy-4-androstene-3,6,17-trione (14 alpha-OHAT), a new 4-androstene-3, 17-dione derivative synthesized microbiologically, inhibits estrogen biosynthetase (aromatase) activities of human uterine tumors (i.e. uterine endometrial cancer, uterine leiomyoma and uterine adenomyosis tissues). 14 alpha-OHAT inhibited aromatase activity in all uterine tumors, dose-dependently (0.1-10 microM). Moreover, 14 alpha-OHAT did not show the binding affinity to rabbit uterine cytosol-sex steroids, and it was not converted to estrogen in human placental preparations. Thus, 14 alpha-OHAT, an aromatase inhibitor, may be useful clinically as an endocrine chemotherapy for peri- or post-menopausal women with uterine estrogen-dependent tumors.     

Genistein and daidzein modulate in vitro rat uterine contractile activity

The present study investigated the effect of genistein, daidzein and estradiol on in vitro rat uterine responsiveness to oxytocin (OT) and PGF(2)alpha or luprostiol (L). In a first experiment, animals were either sham-operated (SH; n=5), or ovariectomized (OVX; n=20) and orally treated for three months with either genistein (G; n=5; 10 microg/g BW/d) or daidzein (D; n=5; 10 microg/g BW/d) or 17 alpha-ethinylestradiol (E; n=5; 23 microg/kg BW/d) or untreated (OVX; n=5). At necropsy, the basal uterine tension was lower in OVX, G and D than in SH, the highest value being measured in E. Oxytocin (10(-12); 10(-11) M) or PGF(2)alpha (10(-12); 10(-9) M) induced an increase in SH, but not in OVX, E and G. In D, only the highest doses were efficient. In a second experiment, 20 intact animals were s.c. injected with either genistein (G; n=5; 10 microg/g BW) or daidzein (D; n=5; 10 microg/g BW) or estradiol benzoate (E; n=5; 23 microg/kg BW) or vehicle (C: controls; n=5), and killed 24 h later. In C and E, OT (10(-15) to 10(-10) M) or L (10(-12) to 10(-7) M) stimulated uterine contractile activity in a dose-dependent manner until a maximal level. On the opposite, in G and D, contractile agents (except the highest luprostiol doses) did not stimulate myometrium contractions. Moreover, radioligand binding assays showed that genistein or daidzein inhibited the specific binding of [(3)H] estradiol to the calf uterus estrogen receptor (ER). Therefore, it could be postulated that both genistein and daidzein might bind to the rat uterus ER, inducing either anti-estrogenic or very weak estrogenic effects (depending on the experimental conditions) on in vitro uterine responsiveness to OT and PGF(2)alpha or luprostiol.     

Aromatase activity in individual day-11 pig blastocysts

Blastocysts were flushed from both uterine horns of 10 gilts on Day 11 of pregnancy. In these gilts 15.1 +/- 2.3 (mean +/- s.d.) corpora lutea were present and 12.7 +/- 3.1 spherical blastocysts were recovered. In all the gilts variation in blastocyst diameter was observed. Aromatase activity was measurable in 118 of 121 examined blastocysts and varied from 0.005 to 19.330 pmol [1 beta-3H]androstenedione converted into 3H2O in 20 min (mean 1.31). This variation in aromatase activity reflected a difference between and within gilts. Of the total variation between all blastocysts, 67% was due to differences between gilts. A positive exponential relationship existed between blastocyst diameter and aromatase activity, but this relationship was different between gilts (P less than 0.0001). The observed variation in aromatase activity may be caused by differences in germ layer differentiation of the blastocysts.     

Distribution and cyclic change of aromatase cytochrome P-450 activity in human uteri

Activities of aromatase cytochrome P-450 in the columnar epithelial region (CE), squamous epithelial region (SE) and connective tissue (CT) of uterine cervix, and endometrium (EM) during the menstrual cycle were determined using [4-14C] and [1 beta-3H]androstenedione. Aromatase activities in the proliferative phase (n = 8) were 15.0 +/- 7.9, 10.9 +/- 10.3, 9.4 +/- 10.6 and 8.0 +/- 7.3 (mean +/- SD) fmol/h/mg protein in CE, SE, CT and EM, respectively, and aromatase activities in the secretory phase (n = 6) were 31.5 +/- 7.6, 19.1 +/- 7.1, 5.6 +/- 4.6 and 6.3 +/- 1.5 fmol/h/mg protein, respectively. The results show that the aromatase activities in these regions in the proliferative phase were not significantly different from each other. On the other hand, the aromatase activity in the secretory phase was significantly higher in CE than in any other regions (P less than 0.05), and significantly higher in SE than in CT or EM (P less than 0.05). There was no significant difference in aromatase activity between CT and EM. By comparison of aromatase activity between these two phases, the activity in CE was significantly higher in the secretory phase than in the proliferative phase (P less than 0.05), but no significant difference was observed in other regions.     

Phytoestrogens and their low dose combinations inhibit mRNA expression and activity of aromatase in human granulosa-luteal cells

There is evidence that certain phytoestrogens inhibit aromatase, the enzyme that converts androgens to oestrogens. Kinetic studies in cell-free preparations show that they may inhibit aromatase by competitive binding to the enzyme, but there is a paucity of studies investigating longer-term effects of phytoestrogens on the expression of steroidogenic enzymes. This study tested the hypothesis that phytoestrogens could reduce aromatase activity by down-regulation of its expression. Experiments were carried out on primary cultures of human granulosa-luteal (GL) cells after they had been exposed to phytoestrogens for 48 h. Aromatase activity was measured by the ability of cells to convert testosterone to estradiol over a 4 h period and aromatase mRNA expression (mRNA_arom) was subsequently measured from the same cells using quantitative real-time PCR. The compounds investigated were the flavones, apigenin and quercetin, and the isoflavones, genistein, biochanin A and daidzein at doses of 10 μM and 100 nM. Combinations of these compounds at the lower dose were also investigated. All compounds tested dose-dependently reduced mean mRNA_arom compared with controls. Apigenin was the most potent inhibitor with significant inhibition of mRNA_arom seen at both 10 μM and 100 nM, whilst other flavonoids (except biochanin A) only induced significant inhibition (p ≤ 0.05) at the higher dose. Low dose (100 nM) mixtures of the compounds were ineffective except for a combination of the three isoflavones that induced a significant inhibition of mRNA_arom. The changes in aromatase activity paralleled the mRNA_arom results and additional studies showed that the reduction in aromatase activity was significantly delayed in time compared with the reduction in mRNA_arom. This is the first study to compare the action of various phytoestrogens, either singly or in low-dose combination, on the expression and activity of aromatase in human cells and it suggests that chronic dietary exposure and tissue accumulation of low-dose mixtures of phytoestrogens could have important consequences for aromatase activity and the production of oestrogens.