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1.
Analysis of the interactions of two synthetic estrogen antagonists, tamoxifen and CI 628, with rat uterine and chick oviduct cytosol revealed significant differences in the antiestrogen binding properties of these tissues. In the rat uterus CI 628, tamoxifen and estradiol were bound to a similar number of saturable binding sites and estradiol could completely inhibit the binding of tritiated antiestrogens to these sites. In contrast, high affinity, saturable antiestrogen binding sites in chick oviduct were present at three times the concentration of estradiol binding sites and estradiol could only partially inhibit the binding of tritiated antiestrogens to these sites. It is concluded that antiestrogens bind to the estrogen receptor in both tissues and that chick oviduct has an additional saturable antiestrogen binding site distinct from the classical estrogen receptor site.  相似文献   

2.
Binding of steroid hormones is inhibited by protease inhibitors and substrates. The protease inhibitors phenylmethyl sulphonylfluoride, tosyl-lysine chloromethyl ketone, and tosylamide-phenylethyl-chloromethyl ketone and the protease substrates tosyl arginine methyl ester and tryptophan methyl ester eliminate specific binding of aldosterone, dexamethasone, dihydrotestosterone, estrogen, and progesterone to their respective receptors. These protease inhibitors and substrates also inhibit binding of progesterone to the 20,000 molecular weight mero-receptor formed from the progesterone receptor in chick oviduct. The binding of estradiol to rat alpha-fetoprotein is inhibited by the protease inhibitors and substrates but not by tryptophan or tryptophan amide, indicating the importance of an ester structure in the inhibition of steroid binding. Our results suggest that all steroid hormone receptors have a site with both common structural features and a role in the regulation of steroid hormone binding.  相似文献   

3.
The binding of estradiol-horseradish peroxidase conjugate to rat uterine cytosolic estrogen receptor was studied. The conjugate having a steroid to enzyme ratio of 2.8:1 was allowed to bind to protamine precipitated receptor in presence or absence of 100-fold excess of free estradiol. The bound enzyme activity was measured and the data subjected to Scatchard analysis to obtain the dissociation constant and the number of binding sites. Although the binding parameter so obtained differed from values obtained using radiolabelled estradiol, the method may be used for comparative studies.  相似文献   

4.
5.
Purified "B" protein (MW approximately 110 kDa) that binds progesterone, and more than 90% of the activated receptor labelled with tritiated hormone in the oviduct cytosol of chicks pretreated with estrogen have the same chromatography behavior on DNA-cellulose. Conversely, neither the nonactivated "8S" receptor, that includes the heat-shock protein hsp90, nor the later bind to DNA. With other biochemical and immunological arguments, these results indicate that the hormone binding B unit of the progesterone receptor binds DNA as do all steroid hormone receptors.  相似文献   

6.
Testosterone binding in the chick oviduct   总被引:1,自引:0,他引:1  
A novel androgen receptor was observed in estrogen-stimulated chick oviducts but not in unstimulated oviducts. This binding component showed a preference for androgens and could therefore be distinguished from oviduct receptors for estadiol and progesterone. Testosterone was tightly bound having a dissociation constant (Kd) of 2.7 × 10?10 M. Sucrose gradient centrifugation, under low ionic strength conditions, showed testosterone to be bound as an 85 complex. These binding properties, plus the estrogen dependency of this component, suggest its role as a biological receptor for androgens.  相似文献   

7.
The method of initiating dissociation of 3H-estradiol from the nuclear estrogen receptor of hen oviduct was found to have a profound effect on the dissociation rate. Likewise, prior exposure to charcoal or partial purification by ion-exchange chromatography had an effect on the dissociation rate. When the reaction was initiated by isotopic dilution with the addition of 1 microM unlabeled estradiol, dissociation of the complexes was rapid (t 1/2 approximately 3 min). When the reaction was initiated by the addition of charcoal to adsorb free steroid, the dissociation of the complexes proceeded slowly (t 1/2 approximately 30 min). Partial purification of the receptors by DEAE-Sephacel chromatography or 15 min exposure to charcoal at 0 degree C prior to initiation of the dissociation reaction by isotopic dilution produced a form of the receptor that exhibited an intermediate dissociation rate (t 1/2 approximately 10 min). The partially purified receptor that exhibited an intermediate dissociation rate was reconverted to the rapidly dissociating form in a reconstitution experiment. These data raise the possibility of a nuclear substance that regulates the rates of estrogen dissociation.  相似文献   

8.
9.
The binding characteristics of [3H]estradiol and 4-[3H]hydroxytamoxifen (a powerful estradiol antagonist) in the chick oviduct cytosol was analyzed by sucrose gradient centrifugation and dissociation kinetics experiments at 28°C. Heating the cytoplasmic estradiol-estrogen receptor complexes led to the ‘transformation’ of the receptor; as with the estrogen receptor in other target tissues and species, the transformed receptor sedimented in the 5 S region of sucrose gradients containing 0.4 M KCI and had a slower rate of dissociation of bound estradiol. Upon heating, the cytoplasmic 4-hydroxytamoxifen complexes also appeared to undergo similar changes in their physical states as analyzed by sedimentation rates and dissociation kinetics, and we conclude that antiestrogen can transform the receptor. Sodium molybdate inhibited the temperature mediated changes with both estrogen and antiestrogen complexes. Slight but consistent differences in the sedimentation coefficient and rate of ligand dissociation were observed between the complexes formed by estradiol and 4-hydroxytamoxifen but the relevance to opposite biological activities remains unknown.  相似文献   

10.
11.
A hepatic estrogen receptor is described from female turtles, Chrysemys picta. The receptor adheres to DNA after incubation with [3H]estradiol and can be eluted with a linear salt gradient as a single component with an elution maximum of 0.21 M. It is steroid-specific, binding estrogens, but not androgens or progestins. Specific binding saturates between 3 and 7 nM [3H]estradiol-17 beta and Scatchard analysis gave a Kd of 2 X 10(-9) M and a maximal binding capacity of 3.02 fmol/mg protein. Hypophysectomy reduces hepatic estradiol receptor from 70 fmol/g tissue in control animals to non-detectable levels. Growth hormone replacement partially restored the receptor to 36% of control. Significant changes in receptor occur during the ovarian cycle.  相似文献   

12.
Steroid hormone receptors contain a reactive sulfhydryl group (or groups) required for hormone binding. In the present study, the effects of several sulfhydryl-blocking reagents on hormone binding to aporeceptors and hormone x receptor complexes were compared, with the use of preparations of chick oviduct progesterone receptor and intestinal vitamin D receptor. N-Ethylmaleimide inhibited hormone binding to aporeceptors, whereas prior hormone binding protected against inactivation. In contrast, the mercurial reagent mersalyl both inhibited hormone binding to aporeceptors and dissociated hormone x receptor complexes. Complete dissociation of these complexes was achieved within 20 to 30 min at 0 degrees C. This process was a pseudo-first order reaction with a t 1/2 much less than the t 1/2 for hormone dissociation for either receptor at 0 degrees C. Hormone displacement was a general property of mercurial reagents; several organic mercurials as well as HgCl2 were effective. In contrast, sulfhydryl-alkylating agents (maleimides, iodoacetamide) and the disulfide 5,5'-dithiobis(2-nitrobenzoate) were ineffective in displacing bound hormone from either progesterone or vitamin D receptors. Finally, hormone displacement by mersalyl was reversible; addition of excess thiol reagent displaced the bound mersalyl and regenerated hormone binding activity in good yield. This result suggests that mercurial reagents should prove useful in further study of steroid hormone receptors, for example in elution of receptors from steroid-affinity adsorbents.  相似文献   

13.
Two steroid binding states of an estrogen receptor each with different equilibrium constants (Kd values) Rx (Kd = 0.06 nM) and Ry (Kd = 0.8 nM) have been identified and characterized in the hen and estrogen-stimulated chick oviduct. A third non-estrogen binding form of the receptor, designated Rnb, has also been identified. These three forms of the receptor are interconvertible and appear to have a common molecular weight of approx. 66,000 under denaturing conditions. Hydroxytamoxifen binds preferentially and with high affinity to Rx (Kd 0.03 nM) and the conversion of Rx to Ry which is mediated by gamma phosphoryl group of ATP is also inhibitable by hydroxytamoxifen. Thus receptor interconversion, which may have general application to hormone action, potentially explains agonist/antagonist activity. The conversion of the non-estrogen binding form of the receptor (Rnb) to the lower affinity receptor (Ry) in chick oviduct cytosol is catalyzed by a reaction requiring the loss of the terminal phosphoryl moiety from ATP. There is a specific requirement for Mg2+. We now describe that ammonium sulfate fractionation of the cytosol allows the separation of the receptor entities from the "activating factor" (Fy) that catalyzes the conversion of Rnb to Ry. In the presence of gamma [32P]-ATP at 30 degrees C the purified non-steroid binding form of the receptor is phosphorylated. Phosphoamino acid analysis using Partisil-10 SAX anion exchange resin demonstrates that a serine is phosphorylated; and quantitation of the phosphorylation is indicative of one phosphoserine/receptor molecule. Treatment of the receptor with the partially purified activating factor to induce estradiol binding causes a dramatic reduction in phosphorylation.  相似文献   

14.
FSH is produced by the pituitary gonadotrope to regulate gametogenesis. Steroid hormones, including androgens, progestins, and glucocorticoids, have all been shown to stimulate expression of the FSHbeta subunit in primary pituitary cells and rodent models. Understanding the molecular mechanisms of steroid induction of FSHbeta has been difficult due to the heterogeneity of the anterior pituitary. Immortalized LbetaT2 cells are a model of a mature gonadotrope cell and express the endogenous steroid receptor for each of the three hormones. Transient transfection of each receptor, along with ligand treatment, stimulates the mouse FSHbeta promoter, but induction is severely diminished using receptors that lack the ability to bind DNA, indicating that induction is likely through direct DNA binding. All three steroid hormones act within the first 500 bp of the FSHbeta promoter where six putative hormone response elements exist. The -381 site is critical for FSHbeta induction by all three steroid hormones, whereas the -197 and -139 sites contribute to maximal induction. Interestingly, the -273 and -230 sites are also necessary for androgen and progestin induction of FSHbeta, but not for glucocorticoid induction. Additionally, we find that all three receptors bind the endogenous FSHbeta promoter, in vivo, and specifically bind the -381 site in vitro, suggesting that the binding of the receptors to this element is critical for the induction of FSHbeta by these 3-keto steroid hormones. Our data indicate that androgens, glucocorticoids, and progestins act via their receptors to directly activate FSHbeta gene expression in the pituitary gonadotrope.  相似文献   

15.
Steroid antagonists, at receptor level, are valuable tools for elucidating the mechanism of steroid hormone action. We have examined and compared the interaction of avian and mammalian progesterone receptors with progestins; progesterone and R5020, and a newly synthesized antiprogesterone ZK98299. In the chicken oviduct cytosol, [3H]R5020 binding to macromolecule(s) could be eliminated with prior incubation of cytosol with excess radioinert steroids progesterone or R5020 but not ZK98299. Alternatively, [3H]ZK98299 binding in the chicken oviduct was not abolished in the presence of excess progesterone, R5020, or ZK98299. In the calf uterine cytosol, [3H]R5020 or [3H]ZK98299 binding was competeable with progesterone, R5020 and ZK98299 but not estradiol, DHT or cortisol. Furthermore, immunoprecipitation and protein A-Sepharose adsorption analysis revealed that in the calf uterine cytosol, the [3H]R5020-receptor complexes were recognized by anti-progesterone receptor monoclonal antibody PR6. This antibody, however, did not recognize [3H]ZK98299-receptor complexes. When phosphorylation of progesterone receptor was attempted in the chicken oviduct mince, presence of progesterone resulted in an increased phosphorylation of the known components A (79 kDa) and B (110 kDa) receptor proteins. Presence of ZK98299 neither enhanced the extent of phosphorylation of A and B proteins nor did it reverse the progesterone-dependent increase in the phosphorylation. The avian progesterone receptor, therefore, has unique steroid binding site(s) that exclude(s) interaction with ZK98299. The lack of immunorecognition of calf uterine [3H]ZK98299-receptor complexes, suggests that ZK98299 is either interacting with macromolecule(s) other than the progesterone receptor or with another site on the same protein. Alternatively, the antisteroid binds to the R5020 binding site but the complex adopts a conformation that is not recognized by the PRG antibodies.  相似文献   

16.
Estrogen receptors and androgen receptors in the mammalian liver   总被引:2,自引:0,他引:2  
An estrogen receptor and an androgen receptor are present in the mammalian liver. In the liver of the rat, the estrogen receptor concentration increases markedly at puberty and this change correlates with enhanced estrogen stimulation of plasma renin substrate synthesis. High doses of estrogen are required for nuclear binding in liver when compared to doses for the uterus. The high dose requirement appears to be predominantly due to extensive metabolism in the hepatocyte of the estrogen to inactive derivatives. Furthermore, estradiol is much weaker than ethinyl estradiol for promoting nuclear binding in the liver. This is due to extremely rapid and extensive metabolism of estradiol. In human liver the concentration of estrogen receptor is low. An androgen receptor is present in high concentration in rabbit liver and is located predominantly in the nucleus after androgen administration. High concentrations of a putative androgen receptor are also present in human liver cytosol. Preliminary studies indicate that synthetic progestins can attach to the human liver androgen receptor. To date, a progesterone receptor has not been found in the mammalian liver. Thus, it appears that extensive steroid metabolism in liver preferentially diminishes sex steroid interaction with liver receptors and that androgen receptors may mediate progestin effects in liver. These observations provide a scientific basis for improved safety of oral contraceptives. Lowering the estrogen and progestin doses in oral contraceptives will decrease the major side-effects, which are liver mediated, and still maintain the desired effects at the hypothalamic-pituitary axis and uterus. Furthermore, it is likely that by selecting which estrogen, progestin or androgen is administered as well as by utilizing a parenteral route of administration that sex steroid effects on the liver could be minimized.  相似文献   

17.
Several biotinyl estradiol derivatives have been prepared by coupling estradiol 7 alpha-carboxylic acid to biotin via different linear linkers. All these compounds exhibit a high affinity for the estrogen receptor as determined by competitive binding assays against [3H]estradiol. These compounds also displaced the dye 4-hydroxyazobenzene-2'-carboxylic acid from the biotin-binding sites of avidin free or immobilized on agarose. It was demonstrated that only the derivatives bearing a long spacer chain (greater than 42 A greater than) between estradiol and biotin were able to bind receptor and avidin simultaneously, suggesting some steric hindrance. The biotin-avidin system has been investigated for the purification of the cytosoluble "nontransformed" estrogen receptor stabilized by sodium molybdate. The method relies on: 1) high biohormonal affinity of receptor for biotinyl estradiol derivative; 2) the specific selection by avidin-agarose column of biotinyl estradiol-receptor complexes; and 3) the biohormonal elution step by an excess of radioactive estradiol. Starting from unfractionated cytosol containing molybdate-stabilized nontransformed 8S estrogen receptor with estradiol 7 alpha-(CH2)10-CO-NH-(CH2)2-O-(CH2)2-O-(CH2)2-NH-CO-(CH2)3-NH-biotin, preliminary experiments using avidin-agarose chromatography and then a specific elution step by exchange with free [3H]estradiol, allowed a 500-1,500-fold purification. Further purification of estrogen receptor was obtained by ion exchange chromatography through a DEAE-Sephacel column and led to a congruent to 20% pure protein, assuming one binding site/65,000-Da unit. The hydrodynamic parameters of the purified receptor were essentially identical to those of molybdate-stabilized nontransformed receptor present in crude cytosol. The advantages of this double biotinyl steroid derivative-avidin chromatographic technique over more conventional affinity procedures are discussed and make it applicable to the purification of minute amounts of steroid receptors in a wide variety of tissues.  相似文献   

18.
[3H]Progesterone and [3H]RU38486 binding in the chick oviduct cytosol is associated with macromolecules which sediment as 8 S and 4 S moieties, respectively, in molybdate-containing 5-20% sucrose gradients. The [3H]progesterone binding could be displaced by excess progesterone, but not by RU38486. Conversely, the [3H]RU38486 binding was able to compete with RU38486 but not by excess progesterone. A preparation containing antibodies against chick oviduct progesterone receptor recognized only the [3H]progesterone-receptor complex but not the 4 S, [3H]RU38486 binding component of the chick cytosol. In the calf uterus cytosol, [3H]R5020 (a synthetic progestin) and [3H]RU38486 were associated with 8 S molecules and the peaks of radioactivity were displaceable upon preincubation with radionert steroids. In addition, the complexes were recognized by antibodies to chick oviduct progesterone receptor. Our data suggest that in the chick oviduct cytosol, RU38486 does not bind to progesterone receptor, but interacts with an immunologically distinct macromolecule.  相似文献   

19.
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.  相似文献   

20.
Two steroid binding states of an estrogen receptor each with different equilibrium constants (Kd values) Rx (Kd = 0.06 nM) and Ry (Kd = 0.8 nM) have been identified and characterized in the hen and estrogen-stimulated chick oviduct. A third nonestrogen binding form of the receptor, designated Rnb, is now described which exists in short-term estrogen withdrawn chick oviduct cytosol. A model is presented in which the receptor can be interconverted between the three states. The interconversion is monitored by Scatchard analysis, sucrose density gradient analysis, and affinity labeling using [3H]tamoxifen aziridine followed by receptor purification with estrogen receptor monoclonal antibody affinity chromatography and sodium dodecyl sulfate-gel electrophoresis. The results are consistent with each state existing in different conformations having a common molecular weight of approximately 66,000. This paper defines the conditions and nucleotide requirements for the Rnb to Ry conversion. The conversion to the steroid binding form is induced by ATP, ADP, and GTP. Cyclic nucleotides are ineffective. There is a specific requirement for Mg2+; neither Ca2+ nor Mn2+ will substitute. Nonhydrolyzable nucleotide analogues were tested for their relative efficiency to convert Rnb to Ry. Conversion occurred with alpha,beta-methylene adenosine triphosphate, but beta,gamma-methylene adenosine triphosphate and alpha,beta-methylene adenosine diphosphate were inert. Thus, activation of Rnb to form Ry appears to be catalyzed by an event requiring the loss of the terminal phosphoryl moiety from either ATP or ADP. Receptor derived from conversion of Rnb to Ry has the same physical properties as native Ry. Activation of Rnb is to Ry specifically; no increase in the Rx form of estrogen receptor was ever observed. The accompanying paper similarly describes the Rx to Ry conversion. Since these data also explain observations made with glucocorticoid and with epidermal growth factor receptors, it is speculated that the receptor interconversion model may have general application to hormone action.  相似文献   

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