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

The translocation of progesterone receptor from the cytosol into the nucleus was studied under "in vivo" and "in vitro" conditions in the uteri of guinea pig fetuses exposed to progesterone or a synthetic progestin, R5020. Progesterone treatment of estrogen-primed fetuses leads to a rapid (before 1h) transfer of cytosol progesterone receptor into the nucleus which is, however, short-lived (less than 3h). A rapid decrease in the retention of the estrogen receptor in the nucleus also occurs. In the "in vitro" incubations of whole fetal uteri, translocation of progesterone receptor is temperature-dependent and specific for progesterone and R5020; estradiol and cortisol have no effect. Putative progesterone receptors can also be induced in explants of fetal guinea pig uteri in organ culture which translocate from the cytosol into the nucleus under the same "in vitro" conditions as in whole uteri. Fetal uterine progesterone receptor, either stimulated "in vivo" by estrogen-priming or induced in organ culture, translocates from the cytosol into the nucleus and this process seems to be accompanied by a decrease in retention of the estrogen receptor in the nucleus which appears to be the mechanism by which progesterone antagonises estrogen action in fetal guinea pig uterus.
Steroids 1982 Apr
PMID:Characteristics of the nuclear translocation of progesterone receptor in fetal guinea pig uterus "in vivo", "in vitro" and in organ culture. 689 Nov 22

Synthesis, biochemical and biological testing of the first carborane derivatives of estrogens are described. Estrone 3-carboranylmethyl ether was synthesized in two steps from estrone. Reduction of estrone 3-carboranylmethyl ether with sodium borohydride provided estradiol-17 beta 3-carboranylmethyl ether. Enzyme kinetic measurements showed that estrone 3-carboranylmethyl ether is a substrate for human placental 17 beta-hydroxysteroid dehydrogenase with Km = 5 x 10(-6)M, and Vmax = 0.016 mumol min-1 microgram -1. The relative affinity constant of estradiol-17 beta 3-carboranylmethyl ether for rat uterine estrogen receptor was 0.5 (compared with a value of 100 for estradiol-17 beta). Consistent with its low affinity for estrogen receptor, the dose-dependent uterotropic response to estradiol-17 beta 3-carboranylmethyl ether in castrated female rats was one sixtieth that of estradiol-17 beta. None of the tested rats had a toxic reaction to estradiol-17 beta 3-carboranylmethyl ether. These results demonstrate that exceptionally stable carborane derivatives of estrogens can be synthesized with preservation of their biochemical and biological properties. Boron-containing estrogens may be useful for thermal neutron capture therapy of cancers with estrogen receptors to concentrate boron in the cell nucleus.
Steroids 1981 Feb
PMID:Boron estrogens: synthesis, biochemical and biological testing of estrone and estradiol-17 beta 3-carboranylmethyl ethers. 693 60

The effect of sodium molybdate (NaMo) on the ability to detect progesterone and estrogen receptors from human breast cancers was studied. When NaMo was added at 20 mM to cytosols from human breast cancers, progesterone receptor showed major increases by sucrose density gradient centrifugation with tritiated R5020 as ligand. Increases in both 8S and 4S receptors, or in 8S alone, also occurred (reported figuratively). When NaMo addition was analyzed by dextran-coated charcoal method, binding also increased, converting some apparently negative cytosols to positive and increasing the amount of receptor in other positive samples. Additional estrogen receptor could also be measured in some cytosols, and a quantitative temperature-dependent coversion of 8S to 4S binding molecules could be achieved. NaMo prevented loss of binding in 30-degree-incubated cytosols in the absence of added estradiol. NaMo increased amount of progesterone receptor, and to a lesser extent estrogen receptor, but how and why are not known.
Steroids 1980 Mar
PMID:Sodium molybdate increases the amount of progesterone and estrogen receptor detected in certain human breast cancer cytosols. 718 11

The metabolism of 3H-androsterone was studied in homogenates (fortified with uridine 5'-diphosphoglucuronic acid and adenosine 3'-phosphate 5'-phosphosulfate) of eighteen breast tumors, one muscle underlying the primary breast carcinoma and metastatic axillary lymph nodes from a patient with suspected primary breast cancer. The major metabolites identified were less polar than androsterone. On saponification these lipoidal derivatives afforded androsterone as the only product (3 to 48%). Unmetabolized androsterone and lesser quantities of epiandrosterone, 5 alpha-androstane- alpha, 17 beta-diol and 5 alpha-androstane-3,17-dione comprised the free steroid fraction. Androsterone glucosiduronate was isolated (0.17-4.1%) from weight breast tumor homogenates and from the node tissue incubation (17%). There was no apparent correlation between glucuronyltransferase activity and histopathology or estrogen receptor content.
Steroids 1981 Apr
PMID:Glucosiduronidation and esterification of androsterone by human breast tumors in vitro. 724 87

The purpose of this study was to determine the short-term effects of progesterone action on estrogen receptor (Re) levels in the rat uterus. Ovariectomized, adrenalectomized rats were maintained on subcutaneous Silastic implants containing crystalline estradiol. Progesterone treatment with serum estradiol maintenance caused a rapid decrease (within 4 h) of total Re, attributable to loss of nuclear Re without a significant change in cytosol Re levels. Removal of estradiol implants resulted in an increase in total Re and cytosol Re at all time periods studied without a significant decrease in nuclear Re until 8 h. Combined estradiol withdrawal and progesterone treatment resulted in lower total Re levels and a more rapid decrease in nuclear Re than with estradiol withdrawal alone. These results demonstrate that progesterone rapidly and selectively decreases nuclear Re levels in rat uterus and suggest that this process is not dependent on cytosol Re or serum estradiol levels.
Steroids 1981 Apr
PMID:Progesterone regulation of estrogen receptor in the rat uterus: a primary inhibitory influence on the nuclear fraction. 724 90

The influence of the following affinity labeling reagents on the binding of tritiated estradiol-17 beta (E) by human and calf uterine cytosols was studied: 11 beta-chloromethylestradiol (ORG4333), 2-azidoestradiol (2A-E), 4-azidoestradiol (4A-E), 3-azidohexestrol (3A-H), estradiol-17 beta 17-bromoacetate (E-17BrAc), 6-[O-carbo-(2'-chloroethoxy)methyl] oximinoestradiol (6-CMOEtC1), 17-[O-carbo-(2'-chloroethoxy) methyl] oximinoestrone (17-CMOEtCl), 2-di (2'-hydroxy-3'-chloropropyl)aminoestradiol (E-Mustard). For the human uterine estrogen receptor the relative binding affinity decreased in the order E greater than ORG 4333 greater than E-17BrAc greater than 3A-H greater than 2A-E greater than 4A-E greater than 6-CMOEtCl greater than E-Mustard greater than 17-CMOEtCl. The binding characteristics of the calf uterine estrogen receptor were qualitatively similar, but quantitatively different. ORG 4333 appeared to form a highly stable association with the receptors, but alkylation of the protein could not be conclusively demonstrated.
Steroids 1981 Nov
PMID:The synthesis and study of some potential affinity labeling reagents for estrogen receptors. 732 85

Anordrin, administered in a single s.c. dose of 62.5 micrograms in sesame oil, stimulated sustained uterine growth (wet weight) when measured at 24 and 72 hr, but total soluble protein and total DNA per uterus was not increased. By comparison, 3 micrograms of estradiol-17 beta under the same conditions significantly increased all three parameters of uterine growth. Both of the above steroid treatments significantly increased nuclear estrogen receptor content of the uterus, but only the estradiol-17 beta treatment resulted in significantly elevated cytosol receptor content per uterus. Anordrin binds to the 8S estrogen receptor with an affinity of about 2 x 10(5) M-1 as determined by competition with [3H]estradiol-17 beta. The abortifacient activity of Anordrin when given orally (8 mg/kg b.w.) to mice on the 7th day of pregnancy was almost completely blocked by simultaneous oral administration of estradiol-17 beta (0.8 mg/kg b.w.). It is concluded that the actions of Anordrin on the uterus can be attributed to its antiestrogenic activities.
Steroids 1981 Dec
PMID:Antiestrogenic and antifertility actions of Anordrin (2 alpha, 17 alpha-diethynyl-A-nor-5 alpha-androstane-2 beta, 17 beta-diol 2,17-dipropionate). 733 65

We have developed and characterized site-directed monoclonal (MAb) and polyclonal antibodies to a specific domain in the N-terminal A/B region in order to assess estrogen receptor (ER) structural integrity in human breast tumor samples. The antibodies (Abs) reacted specifically with the native (undenatured) ER from various species. The synthetic peptides competed effectively for ER binding to the Abs, suggesting site-specificity. The Abs recognized the activated (4S) and transformed (5S) but not the unactivated, untransformed, molybdate-stabilized (8S) ER, suggesting that the epitope is inaccessible in the 8S form. Some of these Abs reacted with ER bound to its responsive elements, as determined by gel mobility shift assay. To evaluate the structural integrity of ER in breast cancer, we have utilized a) ligand binding analysis for the hormone binding domain; b) site-directed MAb to the DNA-binding domain; and c) site-directed MAb to the N-terminal transactivation domain. Analysis of ER from 29 human breast tumors revealed that 10 out of 29 tumors (35%) contained ER with intact hormone-, DNA-, and N-terminal domains. Thirteen out of 29 tumors (approximately 45%) contained ER with intact hormone binding and N-terminal domains but were defective only in the DNA-binding domain. Three out of 29 tumors (approximately 10%) contained ER defective only in the N-terminal domain. Another subgroup of tumors (3/29; approximately 10%) had ER with normal hormone binding domain but were defective in both the DNA-binding and the N-terminal activation domains.(ABSTRACT TRUNCATED AT 250 WORDS)
Steroids 1995 Jul
PMID:Identification of structurally altered estrogen receptors in human breast cancer by site-directed monoclonal antibodies. 748 32

Circulating concentrations of gonadal steroid hormones and reproductive behavior in female vertebrates vary as a function of ovarian state. Steroids secreted by the ovary, specifically estrogen and progesterone, influence the expression of behaviors associated with reproduction by intracellular sex steroid receptors located in specific regions of the brain. Using in situ hybridization, we analyzed estrogen receptor and progesterone receptor messenger RNA expression in several brain regions of ovariectomized, vitellogenic, and postovulatory individuals from two species of whiptail lizards (Cnemidophorus uniparens and C. inornatus). Although these species are genetically very similar, they differ in two aspects of their reproductive biology: (i) the unisexual C. uniparens alternate between expressing female-typical and male-like pseudosexual behaviors while female C. inornatus normally express only female receptive behavior, and (ii) circulating estradiol concentrations in reproductively active female C. uniparens are approximately five-fold lower than in reproductively active female C. inornatus. We found that the regulation of sex steroid receptor gene expression was region specific, with receptor-mRNA expression being increased, unchanged, or decreased during vitellogenesis depending on the area. Furthermore, several species differences in the amount of sex steroid receptor-mRNA were found that may be relevant to the species differences in circulating estrogen concentrations and sexual behavior.
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PMID:Species differences in estrogen receptor and progesterone receptor-mRNA expression in the brain of sexual and unisexual whiptail lizards. 749 97

Benz[a]anthracenes are ubiquitous environmental carcinogens that exert estrogenic and antiestrogenic effects directly or via hydroxylated metabolites. In this paper, the structure-estrogen receptor binding relationships of four 3,9-benz[a]anthracene diols are described: unsubstituted, 7-methyl, 12-methyl, and 7,12-dimethyl. Compounds unsubstituted at the 12-position have flat molecular topology, whereas methyl substitution at the 12-position in the bay region induces twisting of the molecular framework. The oxygen-oxygen distances (11.94-11.98 A) are similar to diethylstilbestrol (12.1 A). The binding affinities range from 0.43% to 26% that of estradiol. Methyl substitution at the 7-position enhances affinity; 12-methyl substitution decreases it. These results are contrary to many estrogen receptor (ER) ligand systems, in which the compounds with the flatter molecular geometries typically have lower binding affinity. Molecular graphics were used to analyze the fit of the four compounds with a receptor excluded volume model for the ER. These studies suggest that these compounds bind to the ER in a manner in which the anthracene fragment acts as the steroid AB-ring mimic (i.e, the benz[a]anthracene 9-position corresponds to the estradiol 3-position). Molecular orbital (AM1) calculations were used to calculate the charges of selected atoms. The 7-methyl compound was found to have greater charge similarity to estradiol than the other three compounds. The high affinity of the 7-methyl compound is ascribed to its charge similarity to estradiol, hydrophobic interactions in the receptor region that would accommodate a substituent in the planar 6-position of a delta 6,7-steroid, and favorable dispersive interactions with the receptor secondary to its extended planar system. Molecular orbital calculations also suggest that some of the benz[a]anthracene monophenols and diphenols have sufficiently low ionization potentials to act as carcinogens by a radical cation process.
Steroids 1995 May
PMID:Benz[a]anthracene diols: predicted carcinogenicity and structure-estrogen receptor binding affinity relationships. 757 Jul 11


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