Topographic recognition of cyclic hydrocarbons and related compounds by receptors for androgens, estrogens, and glucocorticoids

The structural requirements for the interaction of about 80 cyclic hydrocarbons and related compounds with the androgen receptor of rat ventral prostate, the estrogen receptor of human breast tumor MCF-7 cells, and the glucocorticoid receptor of rat liver were examined by comparing their abilities to compete with radioactive hormones for binding to the respective receptors. The results indicate that the receptor-binding affinity of a compound is dependent on its electronic configuration and geometrical similarity to a portion of a natural steroid hormone which can be recognized by local ligand-binding sites in the receptor. For the estrogen receptor, beta-phenols are more active than the corresponding alpha-phenols, whereas nonphenolic compounds are totally inactive. For androgen and glucocorticoid receptors, alpha-phenols are more active than beta-phenols. The androgen receptor can interact stereospecifically with nonoxygenated and nonalkylated cyclic hydrocarbons, such as 10,11-dihydro-5H-dibenzo[a,d] cycloheptene or 9,10-dihydrophenanthrene, which can, in vivo, inhibit the androgen-dependent growth of the male accessory reproductive organs. The affinities of naphthalene, anthracene, phenanthrene, biphenyl, and adamantane toward glucocorticoid and androgen receptors can be enhanced by acetylation or ethanolization of these ligands. Our results also indicate that, while the hormonal action of a steroid may be dependent on the interaction of a functional group on the hormone with a specific group on the receptor, the presence of such a group may not be required for the antagonistic activity of a compound that can physically block hormone binding to the receptor. Thus, many small molecules that were hitherto considered to be biologically inert may interact with steroid receptors specifically and affect hormonal activities in vivo.     

Mapping of a retinoic acid-responsive element in the promoter region of the complement factor H gene.

Retinoic acid receptors are members of the steroid/thyroid hormone receptor superfamily. Pursuant to the discovery that dexamethasone increases complement factor H expression, we examined the effects of retinoic acid on this gene. Both H mRNA and protein levels are increased by retinoic acid in L cells. Using the luciferase reporter gene system we have identified a region of the H promoter required for the retinoic acid response. This region contains an imperfect palindrome of the TGACC motif, present in thyroid hormone and estrogen-responsive elements. We demonstrate specific binding of the retinoic acid receptor beta to this sequence of the H gene by DNA-protein gel retardation assay. Therefore, these studies extend the sphere of influence of the retinoids to complement, an intrinsic component of the humoral immune system.     

Sensitivity of virally-driven luciferase reporter plasmids to members of the steroid/thyroid/retinoid family of nuclear receptors

During a series of transfection experiments, the pRSV-luc plasmid used as an internal control was found to be sensitive to co-transfection with expression vectors for several members of the steroid/thyroid/retinoid superfamily of nuclear receptors. Therefore, a survey of the effect of these expression vectors on the activity of four reporter plasmids was conducted. In CV-1 cells, the activity of pRSV-luc, which contains the P. pyralis luciferase gene, was repressed by co-transfection of PPAR and ARP-1 and was activated by COUP-TFI. Expression of pSV40-luc, containing the same luciferase gene, was repressed by PPAR and HNF-4 and activated by both COUP-TFI and ARP-1. All four of these expression vectors reduced the expression of the pRL-TK plasmid, which contains the luciferase gene from Renilla reniformis. RXR expression vectors had no effect on luciferase activity in CV-1 cells but induced luciferase activity in H4IIEC3 hepatoma cells. This activation was blocked by the addition of ligand, 9-cis retinoic acid. pSV2-CAT, which contains the chloramphenicol acetyltransferase gene, was insensitive to all receptor expression vectors tested. Both the P. pyralis and R. reniformis luciferase genes appear to contain sequences that render them responsive to steroid/thyroid/retinoid nuclear receptors.     

Ribozyme targeting demonstrates that the nuclear receptor coactivator AIB1 is a rate-limiting factor for estrogen-dependent growth of human MCF-7 breast cancer cells

Human breast tumorigenesis is promoted by the estrogen receptor pathway, and nuclear receptor coactivators are thought to participate in this process. Here we studied whether one of these coactivators, AIB1 (amplified in breast cancer 1), was rate-limiting for hormone-dependent growth of human MCF-7 breast cancer cells. We developed MCF-7 breast cancer cell lines in which the expression of AIB1 can be modulated by regulatable ribozymes directed against AIB1 mRNA. We found that depletion of endogenous AIB1 levels reduced steroid hormone signaling via the estrogen receptor alpha or progesterone receptor beta on transiently transfected reporter templates. Down-regulation of AIB1 levels in MCF-7 cells did not affect estrogen-stimulated cell cycle progression but reduced estrogen-mediated inhibition of apoptosis and cell growth. Finally, upon reduction of endogenous AIB1 expression, estrogen-dependent colony formation in soft agar and tumor growth of MCF-7 cells in nude mice was decreased. From these findings we conclude that, despite the presence of different estrogen receptor coactivators in breast cancer cells, AIB1 exerts a rate-limiting role for hormone-dependent human breast tumor growth.     

Estradiol inhibits glucocorticoid receptor expression and induces glucocorticoid resistance in MCF-7 human breast cancer cells

Our study has shown that treatment of MCF-7 human breast cancer cells with 17-beta estradiol (E(2)) produced significant decreases in glucocorticoid receptor (GR) concentrations and GR mRNA levels. E(2) pre-treatment of MCF-7 cells stably transfected with the GR responsive pMTV-CAT reporter (MCF-7-MTV cells), caused significant attenuation of dexamethasone (DEX)-induced chloramphenicol acetyl transferase (CAT). In MCF-7 cells transiently transfected with [(GRE)(3)-Luc] reporter plasmid, E(2) pre-treatment significantly suppressed DEX-induced luciferase, which was abolished by the estrogen receptor antagonist ICI 182,780. We examined the effect of chronic E(2) treatment as well as E(2) withdrawal on GR function and abundance. MCF-7-MTV cells were treated with vehicle (control) or E(2) for up to 16 days. A third group received E(2) for 5 days followed by E(2) withdrawal from day 6 to 16. Chronic E(2) treatment almost totally abrogated DEX-induced CAT and reduced GR to very low levels. Interestingly, in the group subjected to E(2) withdrawal, neither the DEX response nor GR abundance recovered and reached control values suggesting that the estrogen mediated suppression is long lasting and could not be easily reversed. The E(2) induced resistance to glucocorticoid action may be of potential clinical significance in a number of settings including breast cancer, neuroendocrine response to stress and osteoporosis and could possibly contribute to the differences in glucocorticoid responsiveness among patients.     

Tectoridin from Maackia amurensis modulates both estrogen and thyroid receptors

AimThe stem bark of Maackia amurensis has been used as folk medicine for the treatment of cancer, cholecystitis, arthritis, and hyperthyroidism in females. In this study we examined the effects of the ethyl acetate fraction obtained from the 70% ethanol extract of M. amurensis and tectoridin, an active constituent isolated from the ethyl acetate fraction on thyroid and estrogen hormone activity.MethodsThe effect of the ethanolic extract of M. amurensis stem bark on thyroid hormone activity was evaluated using thyroid hormone responsive-luciferase assay. We isolated tectoridin from the ethyl acetate fraction using a recrystallization method. T-screen assays were used to confirm thyroid hormone activity. The estrogenic activity of the ethyl acetate fraction of M. amurensis and tectoridin was evaluated by estrogen responsive-luciferase assay and estrogen receptor alpha regulation as compared to 17β-estradiol.ResultsBoth the ethyl acetate fraction and tectoridin activated thyroid-responsive reporters and increased thyroid hormone-dependent proliferation of rat pituitary GH3 cells, indicating modulation of thyroid hormone receptors. In parallel, the estrogenic activity of the fraction and tectoridin were characterized in a transient transfection system using estrogen-responsive luciferase plasmids in MCF-7 cells. The ethyl acetate fraction and tectoridin activated reporter gene expression and decreased the estrogen receptor protein level.ConclusionsThese data indicate that tectoridin acts as a weak phytoestrogen as well as a thyroid hormone-like agent by activating both estrogen and thyroid hormone receptors.     

Arachidonic acid as a possible modulator of estrogen, progestin, androgen, and glucocorticoid receptors in the central and peripheral tissues

In an attempt to learn whether modulation of steroid hormone receptor by arachidonate is generalized or not, the arachidonate effect was examined in cytosol estrogen (ER), progestin (PR), androgen (AR) and glucocorticoid receptors (GCR) from the central and peripheral tissues of rats by sucrose density gradient centrifugation, and gel filtration on LH20 columns or dextran-coated charcoal absorption. Arachidonate and other long-chain fatty acids appear to inhibit the specific binding of estrogen ([3H]R2858), progestin ([3H]R5020), androgen ([3H]R1881) and glucocorticoid ([3H]dexamethasone) to the respective receptors in brain (neonatal cerebral cortex and hypothalamus-preoptic area, HPOA), uterus and prostate, with the exception of the potentiating effect on the brain estrogen receptors. The potency of the unsaturated fatty acids paralleled to some degree the number of cis double bonds and carbon, in that oleate (C18:1) arachidonate (C20:4) docosahexaenoate (C22:6). The arachidonate inhibition was dose-dependent in the tissue steroid hormone receptors, except for dose-dependent potentiation of the brain cortical estrogen receptors. Inhibitory potency as expressed by the concentration for 50% maximum inhibition (Ki) was in the range of 11-18 microM for the receptors other than the uterine estrogen receptors with the value of 44 microM, suggesting lower sensitivity for the estrogen receptor to the arachidonate effect in the uterus. Analysis on kinetics and Scatchard plot revealed the non-competitive type of the inhibition. In addition, arachidonate lowered dose-dependently the peak of labelled progestin or estrogen binding to the 8S receptor proteins, which were collected from fractions in the 8S region of the cytosols from intact or diethylstibestrol-primed rat uteri. These results suggest the generalized modulatory effect of arachidonate on the steroid hormone receptors in the central and peripheral tissues. Arachidonate could affect, negatively or positively, the estrogen receptors, and negatively the progestin, androgen and glucocorticoid receptors, through a possibly direct but weak binding at sites different from steroid binding sites on the receptor molecules. A potential messenger role of arachidonate itself has been implicated in the regulation or modulation of the steroid hormone receptors.     

MCF-7; a human breast cancer cell line with estrogen, androgen, progesterone, and glucocorticoid receptors.

We have identified receptors for glucocorticoids, progestins, and androgens in a human breast tumor cell line (MCF-7) known to have estrogen receptor. Sucrose density gradients show that MCF-7 cytosol contains approximately 100 fm/mg protein estradiol (E2-3H) receptor, more than 300 fm/mg protein progesterone receptor (measured with R5020-3H), about 40 fm/mg protein 5alpha-dihydrotestosterone (5alpha-DHT-3H) receptor, and 800 fm/mg glucocorticoid receptor (measured with dexamethasone-3H). Dissociation constants obtained by Scatchard analyses were approximately 0.6 x 10(-10)M (E2), 1 x 10(-9)M (R5020), 2.8 x 10(-10)M (5alpha-DHT) and 8 x 10(-9)M (dexamethasone). No cross competition was found for estrogen receptor, but progestins competed for androgen and glucocorticoid binding. The androgen, but not the glucocorticoid, partially competed for R5020 binding to progesterone receptor. This first demonstration of 4 classes of steroid receptors in human breast cancer means that MCF-7 may be an excellent in vitro model for studying the mechanism of tumor response to endocrine therapy as well as the complex relationships between binding and biological actions of these hormones.