Estrogen action in target cells: selective requirements for activation of different hormone response elements

Effect of pesticides on estrogen receptor transactivation in vitro: a comparison of stable transfected MVLN and transient transfected MCF-7 cells

The estrogenic potential of four pesticides (endosulfan, prochloraz, tolchlofos-methyl and propamocarb) was compared in parallel with 17beta-estradiol (E2) by reporter constructs in transient transfected MCF-7BUS and in stable transfected MVLN cells. Similar detection limit and half maximum effect concentration was determined for E2, whereas the maximum effect concentration of E2 was much higher in MCF-7BUS (10 nM) than in MVLN (150 pM), with the induced response being approximately six times the level in MVLN cells. Alone the four pesticides elicited the same relative response in the two bioassays, and similar data was obtained upon co-exposure with E2 for endosulfan and propamocarb. In contrast to the transient MCF-7BUS system, endosulfan further increased the E2 induced response in MVLN cells, whereas propamocarb did not induce the E2 response in MVLN cells as observed in MCF-7BUS cells. In conclusion, high agreement between the two reporter assays was observed, although some performance characteristics have to be considered.

MOLECULAR MECHANISMS INVOLVED IN THE DIFFERENTIAL EFFECTS OF SEX STEROIDS ON THE REPRODUCTION AND INFECTIVITY OF TAENIA CRASSICEPS

The in vitro exposure of Taenia crassiceps cysticerci to 17-beta estradiol (E2) and progesterone (P4) stimulated their reproduction and infectivity. Testosterone (T4) and dihydrotestosterone (DHT) inhibited their reproduction and reduced their motility and infectivity. E2 and P4 increased, whereas T4 and DHT reduced, the expression of parasite c-fos and c-jun and DNA synthesis. In vitro exposure of cysticerci to sex steroids before their inoculation into recipient noninfected mice resulted in large parasite loads when pretreated with E2 and P4 and in smaller loads when pretreated with T4 and DHT To determine the possible molecular mechanisms by which sex steroids affect T. crassiceps, sex steroid receptors were amplified. Taenia crassiceps expressed estrogen receptors (both alpha and beta isoforms) and androgen receptors but no P4 receptors. These results demonstrate that sex steroids act directly on parasite reproduction by binding to a classic and specific sex steroid receptor on the parasite. The differential response of cysticerci to sex steroids may also be involved in their ability to grow faster in the murine female or feminized male host. This is the first report of direct sex steroid effects on the parasite possibly through sex steroid receptors in the cysticerci.

Estradiol-17beta and dihydrotestosterone differentially regulate vitellogenin and insulin-like growth factor-I production in primary hepatocytes of the tilapia Oreochromis mossambicus

Effects of estradiol-17beta (E2) and 5alpha-dihydrotestosterone (DHT) on the production of vitellogenin (Vg), insulin-like growth factor-I (IGF-I) and IGF-binding proteins (IGFBPs) were examined in vitro using primary hepatocyte culture of the tilapia. Estradiol produced a significant and concentration-related stimulation of Vg release and concomitant, concentration-related reduction in IGF-I mRNA expression in both male and female hepatocytes. In male hepatocytes, DHT significantly increased IGF-I expression, whereas DHT inhibited IGF-I expression and stimulated Vg release in female hepatocytes. Estradiol treatment significantly reduced the release of 25 kDa IGFBP, while stimulating the release of 30 kDa IGFBP from male hepatocytes. In female hepatocytes, E2 significantly increased both 25 and 30 kDa IGFBPs. In male hepatocytes, DHT significantly reduced 25 kDa IGFBP without affecting 30 kDa IGFBP. Conversely, DHT treatment of hepatocytes from female fish significantly increased both the 25 and 30 kDa IGFBPs. The different growth rates observed between male and female tilapia may be a result of gonadal steroid hormones eliciting direct and antagonistic effects on production of IGF-I (growth) and Vg (reproduction) in the liver. Indeed, the different growth patterns likely result from a difference in the sensitivity of male and female hepatocytes to gonadal steroid hormones. These results also indicate direct effects of gonadal steroid hormones on production of IGFBPs, which may play a role in regulating IGF-I mediated growth.

Remote sensing of intraperitoneal parasitism by the host's brain: regional changes ofc-fosgene expression in the brain of feminized cysticercotic male mice

Experimental intraperitonealTaenia crassicepscysticercosis in mice exhibits distinct genetical, immunological and endocrinological features possibly resulting from the complex interactive network of their physiological systems. Very notable is the tendency of parasites to grow faster in hosts of the female sex. It is also remarkable in the feminization process that the infection induces in chronically infected male mice, characterized by their estrogenization, deandrogenization and loss of sexual and aggressive patterns of behaviour. The proto-oncogenec-fosis a sex steroid-regulated transcription factor gene, expressed basally and upon stimulation by many organisms. In the CNS of rodents,c-fosis found expressed in association to sexual stimulation and to various immunological and stressful events. Hence, we suspected that changes inc-fosexpression in the brain could be involved in the feminization of the infected male mice. Indeed, it was found thatc-fosexpression increased at different times during infection in the hypothalamus, hippocampus, less so in the preoptic area and cortex, and not in several other organs. The significant and distinctive regional changes ofc-fosin the CNS of infected mice indicate that the brain of the host senses intraperitoneal cysticercosis and may also announce its active participation in the regulation of the host–parasite relationship. Possibly, the host's CNS activity is involved in the network that regulates the estrogenization and deandrogenization observed in the chronically infected male mice, as well as in the behavioural and immunological peculiarities observed in this parasitic infection.

Effects of environmental estrogenic chemicals on AP1 mediated transcription with estrogen receptors alpha and beta

There has been much discussion concerning endocrine disrupting chemicals suspected of exerting adverse effects in both wildlife and humans. Since the majority of these compounds are estrogenic, a large number of in vitro tests for estrogenic characteristics have been developed for screening purpose. One reliable and widely used method is the reporter gene assay employing estrogen receptors (ERs) and a reporter gene with a cis-acting estrogen responsive element (ERE). Other elements such as AP1 also mediate estrogenic signals and the manner of response could be quite different from that of ERE. Since this has yet to be explored, the ER mediated AP1 activity in response to a series of environmental estrogens was investigated in comparison with ERE findings. All the compounds exhibited estrogenic properties with ERE-luc and their AP1 responses were quite similar. These was one exception, however, p,p'-DDT (1,1,1,-trichloro-2,2-bis(p-chlorophenyl)ethane) did not exert any AP1-luc activity, while it appeared to be estrogenic at 10(-7) to 10(-5)M with the ERE action. None of the compounds demonstrated ER beta:AP1 activity. These data suggest that significant differences can occur in responses through the two estrogen pathways depending on environmental chemicals.

Suppression by estrogen receptor beta of AP-1 mediated transactivation through estrogen receptor alpha

The estrogen receptor (ER) is known to mediate gene transcription from AP-1 enhancer elements as well as the well-documented estrogen responsive elements (EREs). Investigations of AP-1 mediated transactivation through ER have been performed with rather complex promoters such as insulin like growth factor 1 (IGF-1) and collagenase promoters. In the present study, we investigated AP-1 mediated transactivation through ERalpha and ERbeta with a less complicated reporter consisting of only consensus AP-1 motifs. NIH 3T3 cells were transiently transfected with human ERalpha and ERbeta expression plasmids and AP-1-luc and ERE-luc reporters. 17beta-Estradiol failed to activate ERbeta-AP-1 responses while activating ERalpha-AP-1, ERalpha-ERE, ERbeta-ERE mediated transcription. On the other hand, antiestrogens such as tamoxifen enhanced AP-1 mediated transactivation through both ERalpha and ERbeta. An ERalpha positive human breast cancel cell line, MCF-7, also showed the same manner of AP-1 mediated transactivation through ERalpha. When NIH 3T3 with ERalpha and MCF-7 were co-transfected with ERbeta, E2 dependent AP-1 responses decreased in both cell lines depending on the amount of the ERbeta expression plasmid. These results suggest that ERalpha and ERbeta may function in opposition with ERbeta actually suppressing the function of ERalpha in AP-1 mediated transactivation.

Transcriptional activation of cathepsin D gene expression by 17beta-estradiol: mechanism of aryl hydrocarbon receptor-mediated inhibition

17beta-estradiol (E2) induces cathepsin D gene expression in MCF-7 human breast cancer cells and this response is inhibited by aryl hydrocarbon receptor (AhR) agonists, such as 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD). Analysis of the cathepsin D gene promoter initially identified a pentanucleotide GCGTG core dioxin responsive element (DRE) that blocked E2 action by inhibiting formation of a transcriptionally active estrogen receptor (ER)-Sp1 complex. A second functional downstream inhibitory DRE (iDRE2) (-130 to -126) has now been identified in the cathepsin D gene promoter and inhibition of E2-induced transactivation involves inhibitory AhR crosstalk with the E2-responsive adenovirus major late promoter element (MLPE) at -124 to -104 in the cathepsin D gene promoter. The MLPE site primarily binds USF1/USF2 and ERalpha, and gel mobility shift and DNA footprinting assays show that the AhR complex decreases binding of these transcription factors to the MLPE.

Ligand-, cell-, and estrogen receptor subtype (alpha/beta)-dependent activation at GC-rich (Sp1) promoter elements

17beta-Estradiol (E2) induces expression of several genes via estrogen receptor (ER)-Sp1 protein interactions with GC-rich promoter elements in which Sp1 but not ER binds DNA. This study reports the ligand- and cell context-dependent ER(alpha)/Sp1 and ER(beta)/Sp1 action using an E2-responsive construct (pSp1) containing a GC-rich promoter. Both ER(alpha) and ER(beta) proteins physically interact with Sp1 (coimmunoprecipitation) and preferentially bind to the C-terminal region of this protein in pull-down assays. E2- and antiestrogen-dependent transcriptional activation of ER(alpha)/Sp1 was observed in MCF-7, MDA-MB-231, and LnCaP cells, but not in HeLa cells. E2 did not affect or significantly decrease ER(beta)/Sp1 action, and antiestrogens had minimal effects in the same 4 cell lines. Exchange of activation function-1 (AF-1) domains of ER subtypes gave chimeric ER(alpha/beta) (AF-1alpha/AF-2beta) and ER(beta/alpha) (AF-1beta/AF-2alpha) proteins that resembled wild-type ER (alpha or beta) in terms of physical association with Sp1 protein. Transcriptional activation studies with chimeric ER(beta/alpha) and ER(alpha/beta) showed that only ER(alpha/beta) can activate transcription from an Sp1 element, not ER(beta/alpha). This indicates that the AF-1 domain from ER(alpha) is responsible for activation at an Sp1 element, independent of ER subtype context. In order to further characterize this observation, deletion constructs in the AF-1 domain of both ER(alpha) and ER(alpha/beta) were made, and transactivation studies indicated that the region between amino acids 79 and 117 of this domain is important for activation at an Sp1 element.

Methods for xenoestrogen testing

Research in our laboratories has focused on development of a battery of in vivo and in vitro bioassays for determining estrogenic activity and potency of different classes of natural and synthetic industrial-derived estrogenic compounds (xenoestrogens) including food/beverage extracts, phytoestrogens, phenolic compounds, organochlorine pesticides and pollutants. For many of the weak estrogenic compounds, their activity as estrogen receptor (ER) agonists or antagonists is dependent on the gene/gene promoter, cell context and expression of ER(alpha) or ER(beta) isoform. For example, extracts of red wine, bound to the ER, exhibited estrogenic activity in T47D, MCF-7 (breast) and Hep G2 (liver) human cancer cell lines, whereas reconstituted organochlorine pesticide residues found in food were active only in Hep G2 cells that transiently expressed ER(alpha) or ER(beta). The relative potencies of red wine extracts versus reconstituted organochlorine pesticides were assay-dependent; however, estrogen equivalent daily intakes from a glass of red wine (approximately 0.5-2 microg estrogen equivalents/day) were at least 10(3) higher than observed for the reconstituted organochlorine pesticide mixtures. Risk assessment of xenoestrogens and other synthetic chemicals which modulate endocrine responses must take into account high dietary levels of natural products in food, drugs and health food store extracts which also modulate endocrine responses.

ERE environment- and cell type-specific transcriptional effects of estrogen in normal endometrial cells

Our previous results have suggested a repression of E2 (17beta-estradiol) effect on the c-fos gene of cultured guinea-pig endometrial cells. To investigate this repression, the expression of three human c-fos gene recombinants, pFC1-BL (-2250/+41), pFC2-BL (-1400/+41) and pFC2E (-1300/-1050 and -230/+41), known to be E2-responsive in Hela cells, was studied in stromal (SC) and glandular epithelial cells (GEC). In both cellular types, pFC1-BL was not induced by E2, even in the presence of growth factors or co-transfected estrogen receptor. The pattern of pFC2-BL and pFC2E expression was strikingly different and depended on the cellular type: pFC2-BL and pFC2E induction was restricted to the glandular epithelial cells and did not occur in the SCs. We argue for a repression of E2 action which is dependent on the estrogen-responsive cis-acting element (ERE) environment and also cell type-specific involving DNA/protein and/or protein/protein interactions with cellular type-specific factors.

Estrogenic tamoxifen derivatives: categorization of intrinsic estrogenicity in MCF-7 cells

Triarylethylenes bearing acetic acid side chains, exemplified by 4-[1-(p-hydroxyphenyl)-2-phenyl-1-butenyl]phenoxyacetic acid (4HTA), a derivative of tamoxifen (TAM), are of current interest as estrogen mimics lacking reproductive tract effects. Affinities for estrogen receptors (ER) and effects on cell growth kinetics of a diverse series of such compounds were compared with 4HTA, TAM, and with standard estrogens 17beta-estradiol (E2) and chlorotrianisene (CTA) in MCF-7 cells. These compounds exhibited concentration dependent cell growth stimulation comparable to that of CTA but less than that of E2. Growth stimulation of the more potent compounds was antagonized by TAM, signifying that effects were mediated via interaction with ER. At concentrations of 1 microM or higher, compounds with efficacies less than that of E2 were weak antagonists of estradiol-stimulated growth. Both intracellular ER affinities and growth rate stimulation potencies of the triarylethylene acetic acids and the standard ER ligands varied over a range of nearly three orders of magnitude. Analysis of growth stimulatory potency as a function of ER affinity revealed dual parallel correlations: the potency/ER affinity ratios of 4HTA and four of its analogues was about 100-fold less than those of the hydroxytriarylethane and bisphenolic analogs and the three standard ER ligands. These results suggested that ER liganded with the latter substances is more 'effective' at nuclear effector sites than is ER liganded with 4HTA and the other acidic triarylethylenes.

Hydroxylated polychlorinated biphenyls (PCBs) as estrogens and antiestrogens: structure-activity relationships

The effects of structure on the estrogenicity and antiestrogenicity of hydroxylated polychlorinated biphenyls were investigated using the following estrogen-sensitive assays: competitive binding to the rat and mouse cytosolic estrogen receptor (ER); immature rat and mouse uterine wet weight, peroxidase and progesterone receptor (PR) levels; induction of luciferase activity in HeLa cells stably transfected with a Gal4:human ER chimera and a 17mer-regulated luciferase reporter gene; proliferation of MCF-7 human breast cancer cells; induction of chloramphenicol acetyl transferase (CAT) activity in MCF-7 cells transiently transfected with a full-length human ER expression plasmid and a plasmid containing an estrogen-responsive vitellogenin A2 promoter linked to a CAT reporter gene. The chemicals synthesized for this study contained a 4-hydroxy group in one ring, a 2- or 3-chloro substituent meta or ortho to the hydroxyl group, and variable substitution (2',3',4',5'-, 2',3',4',6'-, 2',3',5',6'-tetrachloro and 2',4',6'-trichloro) in the chlorophenyl ring. The compounds included: 2,2',3',4',5'- (A), 2,2',3',4',6'- (B), and 2,2',3',5',6'-pentachloro- (C); 2,2',4',6'-tetrachloro-4-biphenylol (D); 2',3,3',4',5'- (E), 2',3,3',4',6'- (F), and 2',3,3',5',6'-pentachloro (G); and 2',3,4',6'-tetrachloro-4-biphenylol (H). With the exception of 2',3,4',6'-tetrachloro-4-biphenylol (H), all of the compounds competitively bound to the mouse and rat ER with relative binding affinities [compared to 17beta-estradiol (E2)] varying from 1.4 x 10(-3) to 5.3 x 10(-5). The structure-ER binding relationships for the hydroxy-PCB congeners were different in the rat and mouse, and no dose-dependent estrogenic activities were observed in the mouse or rat uterus. Several hydroxy-PCB congeners exhibited antiestrogenic activity (primarily in the mouse uterus) and two compounds, 2,2',3',5',6- and 2,2',3',4',6'-pentachloro-4-biphenylol, inhibited E2-induced uterine wet weight, PR binding, and peroxidase activity in the mouse uterus. 2,2',3',4',5'- and 2,2',3',4',6'-Pentachloro-4-biphenylol induced CAT activity in MCF-7 cells transiently transfected with the Vit-CAT plasmid; the remaining congeners did not induce CAT activity but exhibited antiestrogenic activity in MCF-7 cells cotreated with 10(-9) E2 plus 10(-5) M hydroxy-PCBs. Complementary structure-estrogenicity relationships were observed utilizing the HeLa cell luciferase induction and MCF-7 cell proliferation assays. The placement of the 2- or 3-chloro groups in the phenolic ring had minimal effects on estrogenic activity, whereas 2,4,6-trichloro- and 2,3,4,6-tetrachloro substitution in the chlorophenyl ring (B, D, F, and H) were required for this response. Substitution in the phenolic ring was also not important for structure-antiestrogenicity relationships, and the most active compounds (A, C, E, and G) contained 2',3',4',5'- and 2',3',5',6'-tetrachlorophenyl groups. Thus, structure-estrogenicity/antiestrogenicity relationships for this series of hydroxy-PCBs were complex and response-specific.

Identification of a functional imperfect estrogen-responsive element in the 5'-promoter region of the human cathepsin D gene

17beta-Estradiol (E2) induces cathepsin D gene expression in MCF-7 human breast cancer cells. Previous studies have identified an Sp1-imperfect estrogen-responsive element (ERE) half-site [GGGCGG(N)23ACGGG] (-199 to -165) in the promoter region which forms an Sp1-estrogen receptor (ER) complex and confers E2 responsiveness on the corresponding Sp1-ERE-chloramphenicol acetyl transferase (CAT) construct. Further analysis of downstream regions of the promoter identified a CGCCC(N)3TGACC sequence (-119 to -107) which is homologous to the adenovirus major late promoter element (MLPE) and binds the ER to form a retarded band in a gel electrophoretic mobility shift assay. The corresponding promoter-CAT construct is also E2-inducible. The MLPE resembles an imperfect palindromic ERE containing imperfect (5') and perfect (3') ERE half-sites; analysis of oligonucleotides with mutations in these half-sites shows that only the perfect ERE half-site is required for binding the ER, whereas both sites are required for transactivation. In vivo exonuclease III footprinting showed that treatment with E2 also enhanced binding at the MLPE site. Identification of this second functional enhancer sequence in the 5'-promoter region of cathepsin D is consistent with the increasingly complex cell-specific regulation of hormone-responsive genes.

Estrogenic triarylethylene acetic acids: effect of structural variation on estrogen receptor affinity and estrogenic potency and efficacy in MCF-7 cells

Triarylethylenecarboxylic acids exemplified by (E,Z)-2-{4-[1-(p-hydroxyphenyl)-2-phenyl]-1-butenyl}phenoxyacetic acid (8) are a new class of estrogen receptor (ER) ligands capable of tissue selective estrogen agonist and antagonist effects. We report the syntheses of 8 and of analogues incorporating structural features known or anticipated to facilitate ER affinity in triarylethylenes. These studies revealed that the p-hydroxyphenyl moiety, ethylenic bond, and ether oxygen of 8 were all critical for high ER affinity. Although a 1,1-bisphenolic analogue bearing the p-(oxyacetic acid) moiety on its 2-phenyl ring, 12, had low ER affinity, it exhibited estrogenic potency approaching that of 8 in MCF-7 cells. Unlike 8 which was a partial agonist with weak antagonist potency, 12 was a full agonist. A similar profile of potency/efficacy in MCF-7 cells was seen in 9, an ethylenic bond saturated analogue of 8. Growth-promoting effects of 8, 9, and 12 were fully antagonized by the antiestrogen tamoxifen, suggesting that such effects were mediated solely via ER. Thus, our studies in MCF-7 cells have confirmed the estrogenicity of 8 and have enabled identification of two analogues with favorable estrogenic potency and full estrogen efficacy. On this basis, these three (triarylethylene)acetic acids have been selected for more intensive animal studies of their extrareproductive tract estrogenic effects.