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Query: UMLS:C0338671 (Steroids)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The receptor binding of a library of 187 steroids to five steroid hormone receptors (estrogen, progestin, androgen, mineralocorticoid, and glucocorticoid) has been analyzed by correspondence factor analysis (CFA) in order to illustrate how the method could be used to derive structure-activity-relationships from much larger libraries. CFA is a cartographic multivariate technique that provides objective distribution maps of the data after reduction and filtering of redundant information and noise. The key to the analysis of very complex data tables is the formation of barycenters (steroids with one or more common structural fragments) that can be introduced into CFA analyses used as mathematical models. This is possible in CFA because the method uses X2-metrics and is based on the distributional equivalence of the rows and columns of the transformed data matrix. We have thus demonstrated, in purely objective statistical terms, the general conclusions on the specificity of various functional and other groups derived from prior analyses by expert intuition and reasoning. A finer analysis was made of a series of A-ring phenols showing the high degree of glucocorticoid receptor and progesterone receptor binding that can be generated by certain C-11-substitutions despite the presence of the phenolic A-ring characteristic of estrogen receptor-specific binding.
Steroids 1995 Jun
PMID:Correspondence factor analysis of steroid libraries. 767 79

A new panel of monoclonal antibodies to the calf uterus estrogen receptor was prepared. Thirteen antibodies were characterized for their isotype and for the affinity for the antigen. These antibodies recognize the human receptor and can be used in Western blot analysis. The location of the epitopes was mapped on the antigen structure using synthetic fragments of estrogen receptor, and it was possible to group the antibodies in five groups. Many antibodies were useful for the purification of estrogen receptor from tissue extracts by immunoaffinity chromatography. The reciprocal inhibition of the antibodies for the antigen binding was measured with an immunoadsorption assay. This was maximal and symmetrical for antibody pairs within the same group, but was incomplete and, in some instances, asymmetrical between pairs of antibodies from different groups. One antibody was able to inhibit the estrogen receptor-DNA interaction, whereas two others were unable to recognize the receptor-DNA complexes. This new panel of antibodies is a useful addition to the existing tools for studying structure and function of the estrogen receptor.
Steroids 1993 Jan
PMID:Characterization and epitope mapping of a new panel of monoclonal antibodies to estradiol receptor. 767 26

The mouse estrogen receptor was expressed in yeast cells to study the mechanism of action of anti-estrogens. Tamoxifen and hydroxytamoxifen, estrogen antagonists in mammalian tissues, failed to antagonize estradiol-induced expression of a VitA2-ERE-CTC1-lacZ reporter gene construct and exhibited full agonist activity, while nafoxidine exhibited partial antagonism as well as partial agonism. ICI 164,384 is a potent anti-estrogen in both mouse and human estrogen receptor systems. Our previous studies in the mouse uterus indicated that rapid degradation of the estrogen receptor accounted for the loss of estrogen responsiveness. In yeast however, ICI 164,384 or an isomer ICI 182,780 were unable to antagonize estradiol at concentration of 200 microM. On the contrary, both ICI compounds exhibited partial agonist activity by stimulating beta-galactosidase activity to 50% that of estradiol. We examined the level of estrogen receptor in the yeast after treatment with estradiol, ICI 164,384 or vehicle by Western blot and found no ICI-induced reduction of estrogen receptor levels, but observed an increase in estrogen receptor following estradiol treatment. This indicates that the proteolytic activity responsible for degrading estrogen receptor in ICI 164,384-treated uteri or eukaryotic cells is not present in yeast. The agonist activity seen with ICI indicated that ICI-bound estrogen receptor is able to induce expression of an estrogen-responsive reporter gene. In support of this, estrogen receptor from ICI 164,384-treated yeast was able to bind an estrogen-responsive element in a gel-shift assay.(ABSTRACT TRUNCATED AT 250 WORDS)
Steroids 1994 Oct
PMID:Anti-estrogen activity in the yeast transcription system: estrogen receptor mediated agonist response. 787 84

The interrelationship between estrogen and insulin-like growth factor-I (IGF-I) in the regulation of uterine growth was studied in the rat. The levels of the estrogen receptor (ER), ER mRNA, and IGF-I mRNA in rat uterus and liver were monitored. Uterine ER in normal cycling rats was highest in proestrus and diestrus, as was IGF-I mRNA. ER mRNA and plasma estradiol peaked in proestrus. Hepatic ER mRNA and IGF-I mRNA were highest in diestrus, whereas ER was not significantly changed during the estrous cycle. The temporal effects of multiple injections or continuous infusion of 17 beta-estradiol in ovariectomized rats were examined. In the uterus of animals subjected to multiple injections, a 10-fold increase in IGF-I mRNA was seen 24 h after the start of the treatment, whereas rats given continuous infusion of estradiol showed a more than 16-fold increase. In both groups, the increase of IGF-I mRNA was transient although estrogen treatment was continued. To study local hormonal effects, ovariectomized rats were given estradiol in vaginal implants. The uterine IGF-I mRNA level increased two-fold in 3 days. The ER mRNA level increased 1.5-fold and the uterine weights were doubled. The plasma estradiol concentration did not change during the treatment. A separate experiment was carried out to establish whether IGF-I itself exercises estrogen-like effects. Ovariectomized rats were given hrIGF-I in osmotic minipumps for 3 days. The uteri of the treated animals weighted significantly more than did the controls. Quantitation of the level of uterine estrogen receptors revealed a significant decrease.(ABSTRACT TRUNCATED AT 250 WORDS)
Steroids 1994 Jul
PMID:Estrogen regulation of the estrogen receptor and insulinlike growth factor-I in the rat uterus: a potential coupling between effects of estrogen and IGF-I. 797 26

The influence of coumestrol on the action of estradiol was examined in oral and parenteral tests. Coumestrol did not antagonize the uterotrophic action of estradiol when administered either prior to, or jointly with, E2 treatment, or when administered orally or parenterally. Additive effects on estradiol stimulation of uterine weight and reduction of cytosolic estrogen receptor binding were observed following oral, but not parenteral, administration of coumestrol. On the other hand, coumestrol pretreatment did appear to dampen estradiol's induction of progestin receptors, uterine protein, and nuclear estrogen receptor binding. However, even at those endpoints where coumestrol pretreatment did dampen estradiol action, coumestrol itself produced an estrogenic response. These findings contradict the assumption that all phytoestrogens are necessarily antiproliferative agents and argue for specific identification of the actions of each chemical.
Steroids 1994 Jul
PMID:Influence of phytoestrogen diets on estradiol action in the rat uterus. 797 29

11 alpha-Hydroxytestosterone (1a), 11 beta-hydroxytestosterone (1b), 11 alpha-methoxytestosterone (1c), 11 beta-methoxytestosterone (1d), 11-ketotestosterone (1e), and delta 9(11)-testosterone (1f) were synthesized from hydrocortisone (4b) or 11-epi-hydrocortisone (4a). The six target compounds, together with 11 alpha-methoxyandrostenedione (2c), 11 beta-methoxyandrostenedione, (2d) and their lead compound, testosterone (1), were found to effectively inhibit the growth and differentiation of human decidual cells in culture. There is no observable binding of these compounds to estrogen receptor of rabbit uterus. The introduction of a polar group (e.g., hydroxyl and carbonyl) to C-11 of androstenes decreases both the relative binding affinities to progesterone receptor and the inhibitory effects on human decidual cell growth, while the methylation of 11-hydroxyl group minimizes these effects. The similar effects of a polar group at C-11 of testosterone (1) on the inhibitory effects on human decidual cell growth and the relative binding affinities to progesterone receptor of rabbit uterus may suggest that one of the mechanisms of human decidual cell growth inhibition by these compounds is the anti-progestational activity of these androgens.
Steroids 1994 Mar
PMID:Synthesis of 11-substituted androstenediones and testosterones as human decidual cell growth inhibitors. 804 51

The 7 alpha-methyl substituent is reported to increase the binding affinity of estradiol for the estrogen receptor (ER). In order to evaluate whether this substituent would improve the in vitro binding characteristics and the in vivo tissue distribution of 18F labeled estrogens that we are developing as positron emission tomographic (PET) imaging agents for ER-positive breast tumors, we have prepared four 18F labeled analogs of 7 alpha-methylestradiol. These ligands were labeled in the 16 alpha or 16 beta position with 18F by nucleophilic displacement of the corresponding epimeric estrone trifluoromethanesulfonates with 18F fluoride ion. Lithium aluminum hydride reduction afforded the estradiol (E2) series, while lithium trimethylsilylacetylide addition provided the 17 alpha-ethynylestradiol (EE2) series. The decay-corrected yields were 2-35% for a synthesis time of 85 minutes for the E2 series, and 120 minutes for the EE2 series, and the effective specific activities were 158-1213 Ci/mmol. In nearly every case, the 7 alpha-methyl substituent increases ER binding affinity (measured at 25 C) and decreases binding to high affinity serum steroid binding proteins, alphafetoprotein, and sex steroid binding protein; this substituent, however, increases the lipophilicity and the predicted non-specific binding (estimated from octanol-water partition coefficients determined by reverse-phase high-pressure liquid chromatography/[HPLC]), with the result that the ratio of ER binding to non-specific binding is nearly the same for the 7 alpha-methyl substituted analogs as for the corresponding unsubstituted analogs. In vivo distribution studies demonstrated a high level of receptor-mediated uptake in receptor-rich target tissues (uterus, ovaries), and in some cases, other tissues with low ER titers (secondary target tissues, e.g., muscle, thymus) showed significant displaceable uptake, presumed to be receptor-mediated.(ABSTRACT TRUNCATED AT 250 WORDS)
Steroids 1994 Jan
PMID:The synthesis of 7 alpha-methyl-substituted estrogens labeled with fluorine-18: potential breast tumor imaging agents. 814 Jun

Naturally occurring bioflavonoids such as luteolin compete for [3H]estradiol binding to nuclear type II sites and mimic methyl p-hydroxyphenyllactate (MeHPLA) as ligands for this cell regulatory protein. More importantly, luteolin (3',4',5,7-tetrahydroxyflavone) contains catechol hydroxyl groups on the A and B rings that may form quinones capable of binding covalently to proteins; therefore, we evaluated luteolin as a potential affinity ligand for rat uterine nuclear type II sites. The preliminary experiments presented in this manuscript demonstrate that luteolin and a related bioflavonoid, 4,7-dihydroxyflavone (DHF), are competitive inhibitors of [3H]estradiol binding to type II sites in ammonium sulfate (AmSO4) extracts of rat uterine nuclei. This high affinity (Kd 5-10 nM) interaction is specific for type II sites, and neither compound binds to the estrogen receptor (ER). More importantly, the interaction of luteolin with nuclear type II sites was irreversible, whereas DHF readily exchanged with [3H]estradiol for type II sites in these preparations. These findings suggest that this nonexchangable occupancy of type II sites by luteolin is likely to involve covalent attachment. Spectrophotometric analysis of type II site preparations pretreated with luteolin also confirmed the [3H]estradiol exchange assay data, demonstrating that the ligand attachment is irreversible. Because luteolin did not affect [3H]estradiol binding to the ER in uterine cytosol, we suspect that this bioflavonoid may not be simply randomly interacting with a multiplicity of proteins to generate covalent complexes. These preliminary findings suggest that high-affinity binding of luteolin by type II sites is prerequisite to covalent attachment and that this bioflavonoid may be a suitable affinity ligand for the purification of this protein.
Steroids 1993 Jun
PMID:Preliminary assessment of luteolin as an affinity ligand for type II estrogen--binding sites in rat uterine nuclear extracts. 821 72

We demonstrate that the hormone-binding domain (HBD) of the human estrogen receptor (ER) can function as an autonomous regulatory domain in the budding yeast, Saccharomyces cerevisiae. As in mammalian cells, the HBD can subject the activity of a heterologous protein, which is fused to it, to hormonal control. Thus, a chimeric transcriptional activator consisting of (i) the DNA-binding domain of GAL4, (ii) the ER HBD, and (iii) the activation domain of viral protein 16 (VP16) stimulates both episomal and integrated reporter genes exclusively in the presence of steroid hormone. Steroids being gratuitous signals for yeast, this fusion protein is a convenient tool for highly regulated production of proteins of interest. Notably, it can be exploited to activate the commonly used galactose-inducible expression vectors without switching the carbon source.
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PMID:Fusion of GAL4-VP16 to a steroid-binding domain provides a tool for gratuitous induction of galactose-responsive genes in yeast. 837 May 33

A series of amino acid and peptide derivatives of estradiol have been synthesized by coupling 17 beta-aminoestra-1,3,5(10)-trien-3-ol, 17-hydrazonoestra-1,3,5(10)-trien-3-ol with amino acids or peptides, using tetrahydrothiazole-2-thione, N-hydroxy-1,4-epoxycyclohex-5-ene-2,3-dicarbonylimide, benzotriazolyloxy-tris(dimethylamino)phosphonium hexafluorophosphate, and p-nitrophenol as reagents. N-protected peptidyl steroids were deprotected by traditional methods. The relative binding affinities of the deprotected derivatives to the estrogen receptor were determined by competitive radioligand binding assay.
Steroids 1993 Jan
PMID:Synthesis of new amino acid and peptide derivatives of estradiol and their binding affinities for the estrogen receptor. 843 Apr 43


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