Estrogen and androgen receptor binding affinity of 10 beta-chloro-estrenen derivatives

10 beta-Chloroestradien-3-one and its derivatives with chlorine substitution in ring A have been prepared. Efficient synthetic methods for 2-chloro- and 4-chloroestradiol are described. The binding affinity of these chlorinated estrogens to the uterine estrogen receptor was measured by a competitive binding assay using [3H]estradiol as ligand. 4-Chloroestradiol showed high binding affinity for the receptor (110% of that of estradiol). 2-Chloroestradiol, 10 beta-chloroestradien-3-one and 4,10 beta-dichloroestradien-3-one had moderate binding affinity. The structures of 10 beta-chloroestradien-3-one and androst-1,4-dien-3-one are very similar and can almost be superimposed. However, their binding affinities to the estrogen and androgen receptor were different. Androst-1,4-dien-3-one displayed no measurable affinity for the estrogen receptor and measurable affinity for the androgen receptor whereas 10 beta-chloroestradien-3-one had very low affinity for the androgen receptor.     

Synthesis and biological activities of thioether derivatives related to the antiestrogens tamoxifen and ICI 164384

The catalyzed coupling reaction of activated alcohol and mercaptan was used for the short and efficient synthesis of 14 thioether compounds. Two types of side chains, the methyl butyl alkylamide related to the pure steroidal antiestrogen ICI 164384 and the dimethylamino ethyloxy phenyl related to the clinically used nonsteroidal antiestrogen tamoxifen, were introduced by a thioether link on two types of nuclei (triphenylethane or estradiol). The new thioether derivatives were tested to assess their relative binding affinity for the estrogen receptor and their estrogenic or antiestrogenic activity in the ZR-75-1 (ER⁺) cell line. The results indicate that of the three types of compounds studied, only the nonsteroidal derivatives with an alkylamide side chain possess antiestrogenic activity. In the steroidal series, displacement of the alkylamide side chain from the 7 to the 6 position produced compounds with chemical characteristics similar to ICI 164384 or EM-139 but without antiestrogenic activity. In the nonsteroidal series of compounds with an aryl side chain, compounds with estrogenic activity were obtained. One compound, a nonsteroidal derivative with a methyl butyl alkylamide side chain 20, possesses a relative binding affinity for the estrogen receptor identical to EM-139 (1.1 and 1.2%, respectively) and a relatively good antiestrogenic activity that is 10-fold lower than EM-139 (IC₅₀ values of 250 and 25 nM, respectively). This nonsteroidal thioether with an alkylamide side chain is free of estrogenic activity.     

Chemical synthesis and biochemical characterization of a biotinylated derivative of 17beta-estradiol with a long side chain covalently attached to its C-7alpha position

High-affinity biotinylated derivatives of 17beta-estradiol (E(2)) are of value for isolation of various estrogen-binding proteins (including estrogen receptors) and also for studying protein-protein interactions involving these proteins. In this study, we developed a simplified route for the chemical synthesis of a biotinylated derivative of E(2) (compound 7) with a side chain attached to its C-7alpha position. Compound 7, i.e., 7alpha-{7-[8-(biotinamido)-octanamido]-heptyl}-estradiol, could be readily synthesized from 6-keto-estradiol-3,17beta-di-tetrahydropyranyl ether (compound 2, which can be prepared from E(2)), with a final yield of 36%. In vitro receptor-binding assay confirmed that the synthesized affinity ligand has a high binding affinity for both human estrogen receptor alpha and beta. When the affinity ligand (compound 7) was immobilized with avidin on an affinity column, it effectively bound human estrogen receptor alpha, and the receptor protein could be selectively eluted with a biotin-containing buffer. Using the same affinity ligand, prolyl 4-hydroxylase beta-subunit (also known as protein disulfide isomerase) was identified as one of the high-affinity E(2)-binding proteins in the whole cytosolic protein mixture prepared from MCF-7 human breast cancer cells. Computational molecular modeling analysis showed that compound 7 can bind to human estrogen receptor alpha in a similar manner as ICI-182,780 and raloxifene, and their binding energy values are also similar.     

A Model for the Effect of Estrogen Antagonists on Cooperative Estradiol Binding

Abstract

Partial agonists such as estriol and estrone have been reported to diminish or even eliminate the upward convexity of the Scatchard plot of the binding of labeled estradiol to estrogen receptor. This has been interpreted as agonist interference with the receptor dimerization induced by estradiol. In order to investigate how a partial agonist or antagonist might interfere with dimerization we have developed a theoretical mass-action law model, where soluble receptors can dimerize and bind to two different ligands. Special attention was devoted to manifestations of positive cooperativity to determine whether they could be modified by competition with a second ligand. This was done using a computer program that evaluated a large set of combinations of affinity constants in an effort to explore all possible situations. The model could reproduce the effect of a second ligand on the cooperative binding of estradiol to the estrogen receptor but only if the second ligand was anticooperative, which is not the case of estriol, estrone and tamoxifen. Furthermore, even when the Scatchard plot was linear, the model still required dimerization of the receptor in most of the cases, showing that the addition of an antagonist may eliminate the upward curvature of the Scatchard without truly eliminating dimerization or cooperativity. We conclude that the effect of a second ligand on the binding of labeled estradiol to estrogen receptor is not necessarily due to interference with dimerization and/or cooperativity. The inability of this model to fully explain the published data for estriol, estrone, clomiphene, and tamoxifen suggests that a more complex mechanism is involved.     

Estrogen receptors and growth response in cultured human periodontal ligament cells

The periodontal ligament (PDL) is a connective tissue involved in the remodeling process associated with tooth development and positioning. PDL cells grown in culture were analyzed for the capacity to specifically bind steroid hormones and for growth response to estradiol-17 beta. Using [3H]estradiol-17 beta as the ligand, PDL cells in first passage cultures exhibited a specific estrogen binding capacity of 881 fmol/mg cell protein. With [3H]dexamethasone as a ligand, the binding capacity of the glucocorticoid receptor was 143 fmol/mg protein. With [3H]R5020 as a ligand, the progestin receptor exhibited a binding capacity of 5 pmol/mg protein. Scatchard analysis of estradiol binding at 37 degrees revealed a dissociation constant of 2.7 X 10(-9) M, representative of the estrogen receptor. The addition of estradiol-17 beta at concentrations of 10(-9) and 10(-8) M to culture media induced a dose-dependent decrease in growth (DNA content) to 62% and 38% control values, respectively. The addition of the antiestrogens tamoxifen and 4-hydroxytamoxifen at concentrations of 10(-7) and 10(-6) M similarly depressed cell growth. These results show that PDL cells contain high affinity receptors for several steroid hormones and further that these cells are targets for the action of estrogens.     

Biological evaluation of novel estrogen-platinum(II) hybrid molecules on uterine and ovarian cancers-molecular modeling studies

We have recently reported the synthesis of a series of original 17beta-estradiol-linked platinum(II) hybrid molecules. The biological activity of these compounds was evaluated in vitro on estrogen dependent and independent (ER(+) and ER(-)) human uterine and ovarian cancers. The hybrid molecules present higher affinity than that of 17beta-estradiol for the estrogen receptor alpha (ERalpha). The cytotoxicity and the affinity of the hybrid molecules are explained using molecular modeling analysis. This study further confirms that the derivatives made of a 2-(2'-aminoethyl)pyridine ligand displayed superior activity against the cell lines particularly when the connecting arm is 8-10 carbon atoms long. Molecular modeling shows that a long side chain can facilitate the access of the platinum(II) moiety to DNA. The novel compounds also prove to be moderately cytotoxic against platinum resistant endometrial and ovarian cancer cell lines.     

Comparison of the effects of tamoxifen and of a tamoxifen analogue that does not bind the estrogen receptor on serum lipid profiles in the cockerel

Administration of the nonsteroidal antiestrogen tamoxifen to cockerels results in dose- and time-dependent decreases in the levels of free and esterified cholesterol, phospholipids, and triglycerides in serum and in very low density and low density lipoprotein fractions. Similar changes can be elicited using a tamoxifen analogue, N,N-diethyl-2-[(4-phenylmethyl)phenoxy]ethanamine.HCl (DPPE). Like tamoxifen, this compound is capable of binding antiestrogen binding sites and exhibits a relative binding affinity of 90% compared with tamoxifen (Ki approximately 4-5 nM). Unlike tamoxifen, DPPE shows no measureable affinity for the cockerel liver nuclear estrogen receptor. Further, DPPE exhibits no estrogen agonist or antagonist activity as measured at the level of synthesis of apolipoprotein II of very low density lipoprotein by liver, synthesis of ovalbumin by oviduct, or growth of the oviduct. Although it is possible that the lipid-lowering effects of tamoxifen result from the opposition of endogenous estrogen action in the cockerel, the similarity of the effects of tamoxifen and DPPE on the lipid profiles suggests common mechanisms that do not involve the estrogen receptor.     

Structural components necessary for the antiestrogenic activity of tamoxifen

The biological activities of tamoxifen derivatives that contain various side chain alterations were studied using a T47D breast cancer cell growth assay in vitro. We studied the activity of various analogs to determine the important aspects of side chain composition and aryl ring positioning on antiestrogenic activity. Previous studies utilizing a rat pituitary cell prolactin synthesis assay have shown that substitution of the aminoethoxy side chain for an allyl side chain resulted in agonist activity, whereas the addition of a glyceryl side chain produced antiestrogenic activity. In the present study utilizing T47D cells, compounds with alkyl or allyl substitutions were partial agonists, as were compounds with bulky para-substituted benzyl group constituents. A tamoxifen derivative with a side chain containing an ethyl ester was antiestrogenic (IC50 = 2 x 10(-6) M) and effectively inhibited estradiol (10(-10) M) stimulation of growth. However, a compound with a short similar methyl ester-containing side chain did not possess any activity. Compounds with carbinol-containing side chains were antiestrogenic (IC50 = 2.8-3.5 x 10(-7) M). All of the compounds displaying antiestrogenic activity could be "rescued" by incubation with estradiol (10(-8) M) and therefore were not nonspecifically toxic to the cells. These results support the hypothesis that the presence of a lone pair of electrons within the side chain region of tamoxifen may be required for antiestrogenic activity. Also, nonplanar placement of the aryl ring of the triphenylethylene-type of compound is critical for potency.     

Development of a coactivator displacement assay for the orphan receptor estrogen-related receptor-gamma using time-resolved fluorescence resonance energy transfer

The estrogen-related receptor-gamma (ERRgamma) is a constitutively active orphan receptor that belongs to the nuclear receptor superfamily and is most closely related to the estrogen receptors. Although its physiological ligand is unknown, ERRgamma has been shown to interact with synthetic estrogenic compounds such as 4-hydroxytamoxifen (4-OHT), tamoxifen, and diethylstilbestrol (DES). To assess how coregulator proteins interact with ERRgamma in response to ligand, an in vitro interaction methodology using time-resolved fluorescence resonance energy transfer (TR-FRET) was developed using glutathione S-transferase (GST)-tagged ERRgamma ligand-binding domain (LBD), a terbium-labeled anti-GST antibody, a fluorescein-labeled peptide containing sequences derived from coregulator proteins, and various ligands. An initial screen of these coregulator peptides bearing the coactivator LXXLL motif, the corepressor LXXI/HIXXXI/L motif, or other interaction motifs from natural coactivator sequences or random phage display peptides indicated that the peptides PGC1alpha, D22, and SRC1-4, known as class III coregulators, interacted most strongly with ERRgamma in the absence of ligand. Given its assay window and biological relevance in energy metabolism and obesity, further studies were conducted with PGC1alpha. Fluorescein-labeled PGC1alpha peptide was displaced from the ERRgamma LBD in the presence of increasing concentrations of 4-OHT and tamoxifen, but DES was less effective in PGC1alpha displacement. The statistical parameter Z' factor that measures the robustness of the assay was greater than 0.8 for displacement of PGC1alpha from ERRgamma LBD in the presence of saturating 4-OHT over an assay incubation time of 1-6 h, indicating an excellent assay. These findings also suggest that binding of 4-OHT, tamoxifen, or DES to ERRgamma results in differential affinity of coregulators for ERRgamma due to unique ligand-induced conformations.     

125I]iododesethyl tamoxifen aziridine: synthesis and covalent labeling of the estrogen receptor with an iodine-labeled affinity label

Iododesethyl tamoxifen aziridine (I-Tam-Az), an analog of the estrogen receptor-affinity label tamoxifen aziridine (Tam-Az) in which the ethyl group has been replaced by an iodine, has been prepared by two routes: (a) metallation of a bromotriarylethylene system, followed by reaction with iodine, and aziridinylation, and (b) direct iodination of a trimethylstannyl triarylethylene system that is the immediate precursor of I-Tam-Az. The latter method can be used to prepare [125I]I-Tam-Az rapidly and in good yield, both at carrier-added and no-carrier-added levels; specific activities greater than 200 Ci/mmol have been obtained. In competitive radiometric binding assays with the estrogen receptor, I-Tam-Az has an apparent affinity of ca. 20%, equivalent to that of Tam-Az. It also undergoes rapid and selective time-dependent, irreversible binding to the estrogen receptor. [125I]I-Tam-Az reacts covalently with estrogen receptor in uterine cytosol preparations; its attachment is rapid and efficient, but somewhat less selective than that of Tam-Az. Estrogen receptor in intact MCF-7 human breast cancer cells can also be labeled with [125I]I-Tam-Az, and autoradiographic analysis of salt extracts of labeled nuclear estrogen receptor on SDS-polyacrylamide slab gels shows highly selective labeling of a 65K protein. [125I]I-Tam-Az is an efficient, selective affinity label for the estrogen receptor, available at high specific activity, and should be useful in studies on estrogen receptor structure, dynamics, and chromatin interactions.     

Kinase-specific phosphorylation of the estrogen receptor changes receptor interactions with ligand, deoxyribonucleic acid, and coregulators associated with alterations in estrogen and tamoxifen activity

Posttranslational modifications of the estrogen receptor (ER) are emerging as important regulatory elements of cross talk between different signaling pathways. ER phosphorylation, in particular, has been implicated in the ligand-independent effects of ER and in tamoxifen resistance of breast tumors. In our studies, Western immunoblot analysis of endogenous ER in parental MCF-7 cells reveals specific, ligand-dependent phosphorylations at S118 and S167, with this ligand dependence being lost in tamoxifen-resistant, MCF-7 Her2/neu cells. Using highly purified components and sensitive fluorescence methods in an in vitro system, we show that phosphorylation by different kinases alters ER action through distinct mechanisms. Phosphorylation by Src and protein kinase A increases affinity for estradiol (E2), whereas ER phosphorylation by MAPK decreases trans-hydroxytamoxifen (TOT) binding. Affinity of ER for the consensus estrogen response element is also altered by phosphorylation in a ligand-specific manner, with decrease in affinity of MAPK- and Src-phosphorylated ER in the presence of TOT. ER phosphorylation by MAPK, AKT, or protein kinase A increases recruitment of steroid receptor coactivator 3 receptor interaction domain to the DNA-bound receptor in the presence of E2. Taken together, these results suggest that ER phosphorylation alters receptor functions (ligand, DNA, and coactivator binding), effecting changes that could lead to an increase in E2 agonism and a decrease in TOT antagonistic activity, reflecting changes encountered in tamoxifen resistance in endocrine therapy of breast cancer.     

Interactions of tamoxifen in the chicken

The triphenylethylene antiestrogens are very potent antagonists of estrogen action in the chicken and manifest little agonist activity compared to their action in other species. The estrogen antagonism is most probably mediated by the estrogen receptor, to which tamoxifen binds with a Ki of 2.6 nM. Tamoxifen is readily metabolized by liver to 4-hydroxytamoxifen, which binds the liver nuclear estrogen receptor with a Ki of 0.1 nM. The Kd of the receptor is 0.7 nM. Estrogen receptor concentrations in liver from immature chickens are relatively low both in nuclear and cytosol fractions. Treatment with estradiol results in 10-fold up-regulation of the nuclear levels to give a total receptor concentration of about 2 pmol/g tissue. Tamoxifen can promote this up-regulation to a limited extent, but interpretation of experimental results is compromised by difficulties with exchange assays in the face of the very high binding affinity of 4-hydroxytamoxifen. Tamoxifen also binds with high affinity (Kd 2-4 nM) and distinctive specificity to antiestrogen binding sites (AEBS) present in a wide variety of chicken tissues and in the highest concentration in the liver (800 pmol/g tissue). Liver and serum contain ether-soluble components which can compete for binding of [3H]tamoxifen to the AEBS. The serum AEBS inhibitory activity is chromatographically heterogeneous and is associated with a sterol-like fraction as well as with a fatty-acid-containing fraction. Tamoxifen treatment of cockerels results in dose- and time-dependent decreases in serum free and esterified cholesterol, and in phospholipids and triglycerides. These changes may reflect estrogen-receptor-independent interactions of tamoxifen.     

Synthesis of unique 17beta-estradiol homo-dimers, estrogen receptors binding affinity evaluation and cytocidal activity on breast, intestinal and skin cancer cell lines

A rapid and efficient synthesis of a series of C2-symmetric 17beta-estradiol homo-dimers is described. The new molecules are linked at position 17alpha of the steroid nucleus with either an alkyl chain or a polyethylene glycol chain. They are made from estrone in only five chemical steps with an overall yield exceeding 30%. The biological activity of these compounds was evaluated in vitro on estrogen dependent and independent (ER+ and ER-) human breast tumor cell lines: MCF-7 and MDA-MB-231. Some of the dimers present selective cytotoxic activity against the ER+ cell line. However, they are not very cytotoxic when compared to the antiestrogen tamoxifen. Unfortunately, they show only weak affinity for the estrogen receptor alpha (ERalpha) and no affinity for the estrogen receptor beta (ERbeta). The new compounds were also tested on human intestinal (HT-29) cancer and on murine skin cancer (B16-F10) cell lines for further biological assessment. Interestingly, the dimers were found to be cytotoxic to the murine skin cancer cell line but were inactive towards the intestinal cancer cell line.     

Characterisation of non-activated and activated estrogen- and antiestrogen-receptor complexes by high performance ion exchange chromatography

The ionic species of cytosol estrogen receptors from mature rat uteri have been compared by HPIEC on a SynChrom AX-1000 column when complexed with either [125I]iodoestradiol, [3H]estradiol or [3H]4-hydroxy tamoxifen. Three species of receptors (isoforms) each suppressible by excess competitor were fractionated at identical salt concentrations regardless of ligand employed. One species eluted in the column void volume (10 mM) and the others at congruent to 90 mM and congruent to 155 mM phosphate. Activation of receptor complexes by increasing time of incubation with ligand from 1 to 24 h at 4 degrees C or addition of 10 mM GTP increased the proportion of the congruent to 90 mM species for all 3 ligands. The addition of 10 mM molybdate to homogenization and HPIEC buffers resulted in only two species being resolved at 10 and 110 mM phosphate. These species were again identical regardless of ligand employed. Increasing concentrations of estradiol (1-40 nM) tamoxifen (20 nM-4 microM) and 4-hydroxy tamoxifen (2-400 nM) were able to compete for binding of [125I]iodoestradiol to each of the three ionic species. Binding to each species was inhibited equally by each concentration of competitor. There was no preferential or unique association of estrogen or antiestrogen with any of the ionic species and all ligands gave identical ionic species of non-activated and activated receptor complexes.     

Effects of low-dose tamoxifen on breast cancer biomarkers Ki-67, estrogen and progesterone receptors

Breast carcinoma is the most common malignancy among women and it has a major impact on mortality. Studies of primary chemoprevention with tamoxifen have generated high expectations and considerable success rates. The efficacy of lower doses of tamoxifen is similar to that seen with a standard dose of the drug, and there has been a reduction in healthcare costs and side effects.The immune reaction to monoclonal antibody Ki-67 (MIB-1) and the expression of estrogen receptors (1D5) and progesterone receptors (PgR 636) in breast carcinoma were studied in patients treated with 10 mg of tamoxifen for a period of 14 days.A prospective randomized clinical trial was conducted with 38 patients divided into two groups: Group A: N = 20 (control group-without medication) and Group B: N = 18 (tamoxifen/10 mg/day for 14 days). All patients signed an informed consent term previously approved by both institutions. Patients underwent incisional biopsy before treatment and 14 days later a tumor tissue sample was obtained during surgical treatment. Positivity was quantitatively assessed, counting at least 1.000 cells per slide. For statistical data analysis, a Wilcoxon non-parametric test was used, and α was set at 5%.Both groups (A and B) were considered homogeneous regarding control variables. In Group A (control), there was no statistically significant reduction in Ki-67 (MIB-1) (p = 0.627), estrogen receptor (1D5) (p = 0.296) and progesterone receptor positivity (PgR 636) (p = 0.381).In Group B (tamoxifen 10 mg/day), the mean percentage of nuclei stained by Ki-67 (MIB-1) was 24.69% before and 10.43% after tamoxifen treatment. Mean percentage of nuclei stained by estrogen receptor (1D5) was 59.53% before and 25.99% after tamoxifen treatment. Mean percentage of nuclei stained by progesterone receptor (PgR 636), was 59.34 before and 29.59% after tamoxifen treatment. A statistically significant reduction was found with the three markers (p < 0.001).Tamoxifen significantly reduced monoclonal antibody Ki-67 (MIB-1), estrogen receptor (1D5) and progesterone receptor positivity (PgR 636) in the breast epithelium of carcinoma patients treated with a 10 mg dose of tamoxifen for 14 days.