Acceptor sites for the oestrogen receptor in hen oviduct chromatin.

Partially purified hen oviduct oestrogen receptors, charged with [3H]oestradiol, were shown to specifically bind in vitro to purified hen oviduct chromatin. Maximal binding occurred within 60min at 0 degrees C in a Tris buffer containing 0.1 M-KCl and 0.5 mM-phenylmethanesulphonyl fluoride. The binding of the [3H]oestradiol-receptor complexes to intact purified chromatin was saturable, whereas the receptor binding to hen DNA remained linear. Saturation was further demonstrated by the minimal acceptor binding of receptor charged with [3H]oestradiol plus 200-fold oestradiol compared with [3H]oestradiol receptors at equal [3H]oestradiol concentrations. Scatchard analysis of [3H]oestradiol-receptor binding to chromatin above DNA levels gave indications of high-affinity binding with a low capacity. Further, the nuclear binding was tissue-specific since the binding to hen spleen chromatin was negligible. To further uncover the specific acceptor sites, proteins were removed from hen oviduct chromatin by increasing concentrations of guanidine hydrochloride (1-7M). Those residual fractions extracted with 3-7 M-guanidine hydrochloride had the highest acceptor activity (above DNA levels) with the peak activity uncovered by 5 M-guanidine hydrochloride. To further characterize the oestrogen-receptor acceptor sites, oviduct chromatin was bound to hydroxyapatite in the presence of 3 M-NaCl and then protein fractions were extracted sequentially with 1-7 M-guanidine hydrochloride. Each fraction was then reconstituted to pure hen DNA by reverse gradient dialysis. [3H]Oestradiol receptors were found to bind to the greatest degree to the fraction reconstituted from the 5 M-guanidine hydrochloride protein extract. Reconstituted nucleoacidic proteins (NAP) from combined 4-7 M-guanidine hydrochloride protein extracts showed saturable binding by [3H]-oestradiol receptors, whereas binding to hen DNA did not saturate. The high affinity, low capacity, and specificity of binding of oestrogen receptors to NAP was similar to that found in intact chromatin. Thus, chromatin acceptor proteins for the oestrogen receptor have been partially isolated and characterized in the hen oviduct and display properties similar to that reported for the acceptor proteins of the progesterone receptor.     

Specific binding of oestradiol to guinea-pig prostate cytosol and nuclear fractions

A high affinity (Kd approximately 0.15 nM), saturable oestradiol binding site, which is specific for natural and synthetic oestrogens has been identified in guinea-pig prostate cytosol fractions. The binding site is protein in nature (heat- and protease-sensitive) and has a sedimentation coefficient of approx. 8S on glycerol gradients. A high affinity (Kd approximately 0.16 nM), saturable oestradiol binding site was also identified in salt-extracted (0.5 M KC1) nuclear fractions. The optimum incubation conditions for measuring the cytosolic and nuclear oestradiol binding sites were determined to be 20 h at 4 degrees C. Saturation analysis studies revealed that following oestrogen treatment of intact animals, approx. 80% of the specific oestradiol binding sites in prostatic cytosol fractions were transferred into the nucleus. The presence of a specific oestradiol binding protein with characteristics of an oestrogen receptor in the guinea-pig prostate, is consistent with oestrogen having biological activity in this tissue. In view of the abundance of stroma in the prostate of this species, and the consistent finding that the stroma of male accessory sex tissues is oestrogen sensitive, the guinea-pig may be an appropriate experimental animal for further investigating the role of oestrogen in the growth and development of the prostate.     

Interaction of the calf uterine estrogen receptor with acceptor sites in heterologous chicken target cell nuclei

Estrogen receptor (ER) from chicken liver and calf uterus were used to study the capacity and the characteristics of the receptor binding sites (acceptor sites) in chicken target cell nuclei. Binding studies were performed at a physiological salt concentration of 0.15 M KCl. Binding of liver ER to liver nuclei was temperature-dependent, showing a 9-fold increase between 0 and 28 degrees C. The maximal number of acceptor sites measured in this cell-free system (280 sites/nucleus) was considerably lower than measured in nuclei after in vivo administration of estrogen (820 sites/nucleus). Moreover incubation of nuclei with the liver ER preparation resulted in a substantial breakdown of nuclear DNA, making this ER less suitable for DNA binding studies. The temperature-activated calf uterine receptor bound to liver nuclei at 0 degrees C, at which temperature no DNA degradation was measured. To all chicken cell nuclei tested, the receptor bound with a high affinity (Kd = 0.4-1.0 nM). Nuclear binding displayed tissue specificity: oviduct greater than heart, liver greater than spleen greater than erythrocytes and was salt dependent. Calf uterine ER binding in liver nuclei ranged from 3000-6000 acceptor sites per nucleus when assayed under conditions of a constant protein or a constant DNA concentration. Nuclei isolated from estrogen-treated cockerels bound a 2-fold lower number of calf uterine ER complexes when compared to control nuclei. Incubation of nuclei with a fixed concentration of [3H]ER from liver and increasing concentrations of uterine non-radioactive-ER also resulted in a reduced binding of the liver receptor. Both types of experiments suggest that liver and uterine ER compete for a common nuclear acceptor site. Our data demonstrate that the ER from calf uterus is very useful as a probe to examine the nature of the acceptor sites in heterologous chicken target cell nuclei. The assay system functions at 0 degrees C, a temperature at which no DNA degradation occurs.     

Comparative study of nuclear binding sites for oestradiol in rat testicular and uterine tissue. Determination of low amounts of specific binding site by an [3H] oestradiol-exchange method.

1. An [3H]oestradiol-exchange method was developed for the determination of oestradiol-receptor complexes in the nuclear fraction of immature rat testicular tissue. This method permits the determination of nuclear oestradiol-receptor sites in the presence of a relatively large amount of non-specific oestradiol binding present in testicular nuclei. After incubation of nuclei for 60min at 20 degrees C in the presence of [3H]oestradiol with or without a 1000-fold excess of non-radioactive diethylstilboestrol, specific binding can be determined quantitatively in the KCl-extractabe fraction, which contains 40% of the total receptor population. 2. The amount of receptor-bound steroid present in the 0.4m-KCl extract of testicular neclei remained constant during incubation at 20 degrees C. For uterine nuclei incubated with [3H]oestradiol at 37 degrees C a shift of specifically bound [3H]oestradiol occurred from the KCl-soluble fraction to the KCl-insoluble fraction. 3. In intact rat testis, about 20% of the total receptor concentration was present in its nuclear form. Hypophysectomy 5 days before measurement resulted in a twofold decrease in the amount of receptor, which was present mainly in the cytosol. After injection of choriogonadotropin to intact animals, the total receptor concentration increased threefold. 4. This nuclear exchange method might be useful for determination of occupied specific receptor sites in tissues with relatively low contents of specific receptors.     

Interaction of calf uterine estrogen receptors with chicken target cell nuclei

The calf uterine estrogen receptor (ER) was used to study the capacity and the characteristics of the acceptor sites in chicken target cell nuclei. The temperature-activated ER is bound at 0 degrees C with a high affinity to all chicken cell nuclei tested (Kd = 0.4-1.0 nM). The nuclear binding displayed tissue specificity: oviduct greater than liver, heart greater than spleen greater than erythrocytes and was salt-dependent. ER binding to liver nuclei measured in 0.15 M KCl varied between 3000 and 6000 acceptor sites per nucleus. Liver nuclei isolated from estrogen-treated cockerels showed a 2-fold lower binding capacity than nuclei from non-treated chickens. When nuclei were incubated with [3H]ER from embryo liver and increasing concentrations of uterine non-radioactive-ER a progressive inhibition of the binding of the liver ER was found. These experiments suggest that liver and uterine ER compete for a common acceptor site. Liver nuclei charged in vitro with calf uterine ER were digested at 0 degree C with DNAase I and micrococcal nuclease. Both enzymes excised the ER in the form of a chromatin-ER complex. A considerable portion was associated with nucleosomal subunits and a minor fraction was associated with a nuclease-sensitive, protein-poor fraction of the chromatin.     

Dynamics of oestrogen-receptor distribution between the cytosol and nuclear fractions of immature rat uterus after oestradiol administration.

1. The nuclear-myofibrilar (800g pellet) fraction of the uterus from immature (22-23 days old) rats not exposed to oestrogen exhibits saturable binding of oestradiol. The nuclear binding capacity represents approximately 10% of that of the cytosol fraction (approx. 3.5 fmol/mug of DNA). The predominant part (0.3.5 fmol/mug of DNA) of the nuclear binind sites are present in the residual pellet after extraction with 0.5 M-KC1. 2. By using an exchange technique in vitro, determinations of the nuclear binding sites have been carried out after administration of 1 mug of oestradiol in vivo. Within 0.5h after the hormone injection, the concentration of nuclear bindng sites increased to approx. 0.4 fmol/mug of DNA in the 0.5 M-KC1-extractable fraction, and to approx. 1.2 fmol/mug of DNA in the residual fraction. Meanwhile the cytosol oestrogen-receptor concentration decreased to approx. 10% of its initial value. In the following period from 0.5 h after the oestradiol injection onwards, the concentration of nuclear oestrogen receptors decreased with halflife values of approx. 140 and 200 min for the KC1(0.5 M)-extractable and residual form respectively. At the same time, the cytosol receptor concentration increased to reach approx. 50% of the initial value by the 6h. This increase could not be blocked by cycloheximide. The initial concentration of cytosol receptor was restored approx. 11h after the injection and the increase during the 6-11h period was sensitive to cycloheximide inhibition, suggesting protein-synthesis-dependence of the process. 3. With the (more) physiological dose of oestradiol (0.1 mug), the decrease the cytosol receptor was only 50% by 4h and this was followed by a period (up to 12h after injection) during which the initial concentration was restored. During this period the increase of the receptor can be blocked by cycloheximide.     

A cytoplasmic oestrogen-binding component in chicken liver.

A macromolecular component in the liver cytosol from laying hens as well as roosters, protein in nature and sedimenting at 4S, was shown to bind oestradiol. The dissociation constant (Kd) of the complex is approximately 5 X 10(-6)M. No binding component with a higher affinity for oestradiol was detectable in the cytosol. The binding is specific for the tissue and hormone, with the exception that progesterone also shows some affinity for this 4S component. The number of binding sites is about 330 pmol/mg cytosol protein. This number is not altered significantly after treatment of a rooster with oestrogen (24 h) or with cycloheximide (3 h). The cytoplasmic complex (oestradiol-4S-component) does not enhance the binding of oestradiol to the chromatin from rooster liver. The nuclear complex (oestradiol bound to the soluble nuclear receptor seems to be more effective in doing so.     

Non-activated progesterone receptor extracted from nuclei of hen oviduct

When the progesterone receptor was extracted from nuclei of laying hen oviduct with 0.5 M sodium molybdate, a large, 7-8 S, form of the receptor was observed. This receptor form resembled non-activated cytoplasmic receptor not only in displaying the same sedimentation coefficient, but also in rapid dissociation rate of the hormone-receptor complex. This finding suggests that either activation may occur within the nuclear compartment, or that activation may be reversed under certain conditions.     

Oestrogen and progesterone receptors in chick oviduct chromatin after administration of oestradiol, progesterone or anti-oestrogen.

Oestrogen-primed and withdrawn chicks were injected with oestradiol benzoate, progesterone, and/or the anti-oestrogens tamoxifen and 4-hydroxytamoxifen. Oestrogen receptors were studied in oviduct chromatin solubilized by mild digestion of purified nuclei with micrococcal nuclease. After a single injection of oestradiol benzoate, ultracentrifugation on sucrose gradients of chromatin extracts labelled with [3H]-oestradiol showed two peaks of oestradiol binding sites, sedimenting at 13--14 S and 7--8 S. After repeated injections of oestradiol benzoate, the 13--14 S peak increased more than the 7--8 S peak. After injection of anti-oestrogen alone or together with oestradiol benzoate, no [3H]oestradiol-binding or 4-hydroxy[3H]tamoxifen-binding peaks were detected in the chromatin. Injection of progesterone also produced an increase of the 13--14 S and 7--8 S chromatin oestradiol receptor. Progesterone receptor could only by detected in chromatin early after progesterone administration, and it sedimented in density gradients with the 12 S mononucleosome fraction. Tamoxifen injected together with progesterone gave higher levels of 13--14 S oestrogen binding sites than did progesterone alone. The presence of a 13--14 S peak of oestrogen binding sites in hormonal situations which promote a biological response in the chick oviduct, and the absence of this peak after administration of anti-oestrogens, suggest that this subfraction of chromatin contains elements involved in gene regulation.     

Analysis of progesterone receptor in the quail oviduct. Correlation between plasmatic estradiol and cytoplasmic progesterone receptor concentrations

Specific binding sites for [3H]-progesterone are found in the cytosol fraction of the oviduct of castrated, immature and developing quails. The optimal conditions to accurately measure the total cytoplasmic concentration of this progesterone receptor are described. The dissociation constant (KD) at 0 degrees C is 3.6 +/- 0.6 x 10(-9) M (mean +/- SE) for [3H]-P and the concentration of binding sites is 13.4 +/- 2 pmol/mg DNA in immature animals. This binding capacity is not altered even 2 weeks after ovariectomy. During sexual development, although the dissociation constant remains unchanged, the number of binding sites increases to 74.5 +/- 1.6 pmol/mg DNA just before the beginning of the laying cycle. The concentration of cytoplasmic P receptor is under the inductive influence of estradiol. In castrated quails, estradiol 17 beta (E2) perfusion through the portal vein at a rate below or equal to 2 ng/min for 24 hr does not increase plasmatic E2 concentration and consequently does not change [3H]-P binding sites concentration in the oviduct. While E2 perfusion rate exceeds the metabolizing capacity of the liver (6.8 ng/min), both plasmatic E2 level and oviductal P receptor concentration are increased. When E2 is perfused through the jugular vein, plasmatic E2 level increases with the dose of E2 but P receptor concentration only increases when E2 perfusion rate reaches to 2.0 ng/min for 24 h.     

Non-classical inhibition of uricase by cyanide.

The existence of unoccupied nuclear oestradiol-receptor sites in normal human endometrium was investigated. Nuclei were prepared from endometrial samples obtained by curettage and exposed to [3H]oestradiol, which became maximmaly bound at 0 degrees C within 1 h. This result contrasted with the binding kinetics of oestradiol--receptor complexes, since the exchange of hormone took at least 3 h at 30 degrees C and no displacement occurred at 0 degrees C. Before concluding that the nuclear sites were unoccupied, the presence of endogenous low-affinity ligands was excluded, because the association rate of oestradiol was unchanged after nuclei were stripped from their putative ligands, and the displacement of oestrone bound to nuclear receptor by oestradiol was very slow at 0 degrees C. The available sites had high affinity for oestradiol (KD 1.3 nM) and binding-specificity characteristics of oestradiol receptors. Similar results were observed with crude and purified nuclear preparations. It was concluded that a significant proportion of nuclear oestradiol receptors in normal human endometrium is unoccupied by endogenous hormones.     

Nuclear binding of progesterone in chick oviduct. Multiple binding sites in vivo and transcriptional response.

1. Varied doses of labelled or unlabelled progesterone were injected into immature chicks which had previously been stimulated with oestrogen. The concentrations of nuclear bound [3H]progesterone were correlated with the effects of the hormone on endogenous RNA polymerase I and II activities in isolated oviduct nuclei. 2. The extent of nuclear localization of [3H]progesterone in oviduct (a progesterone target tissue) was shown to be much greater than in lung (non-target tissue). The conccentration of bivalent cations in solvents used in the nuclei isolations has a marked effect on the amount of bound hormone in the nuclei. 3. Evidence for the existence of several classes of binding sites for progesterone in the oviduct nuclei is given. These classes represent about 1000) 10000 and 100000 molecules of the hormone per cell nucleus and are saturated by injecting approx. 10, 100 and 1000 mug of progesterone respectively. 4. When saturation of the first (highest affinity) class of nuclear sites occurs, a marked inhibition in RNA polymerase II (but not RNA polymerase I) activity was observed. When the second class of sites was saturated, alterations in both RNA polymerase I and II activities were observed. Binding to the third class of nuclear binding sites was not accompained by further changes in polymerase activity. It is suggested that the first two classes of nuclear binding sites may represent functional sites for progesterone action in the chick oviduct.     

Glucocorticoid receptors in cytosol and nuclear extract of human leukocytes

Cortisol binding by cytosol and 0.4 M KCl extract of the nuclear fraction of human leukocytes were studied by gel chromatography and ion exchange filtration on DEAE cellulose. The cytoplasmic cortisol binding protein has a molecular weight 95 000 and the soluble nuclear binding protein 50 000. The absence of the uptake of radioactive cortisol by isolated nuclei and the apparent requirement of the cytosol for glucocorticoid specific binding in nuclear receptor sites was observed. The association constant characterising the binding of cortisol to cytosol was KA = 3.5 . 10(9) l/mol.     

Interaction of the radiolabelled high-affinity anti-oestrogen [3H]H1285 with the cytoplasmic oestrogen receptor.

The high-affinity triarylethylene anti-oestrogen H1285 [4-(NN-diethylaminoethoxy)-beta-ethyl-alpha-(p-hydroxyphenyl) -4'-methoxystilbene] was tritiated to high specific radioactivity (35 Ci/mmol). Competition experiments between [3H]H1285 and H1285 or oestradiol demonstrated that both compounds would compete with [3H]H1285 for oestrogen-specific binding sites in rat uterine cytosol. [3H]H1285 had at least 10 times the affinity for the receptor compared with oestradiol at the 50% competition level. [3H]H1285 appeared to have at least twice the association rate for the oestrogen receptor compared with [3H]oestradiol. In addition, the dissociation half-life (t1/2) of specific binding of [3H]H1285 to oestrogen receptors at 0 degrees C was about 220 h compared with a value of 60 h for [3H]oestradiol. Because of the extremely slow dissociation of [3H]H1285 from the oestrogen receptor, we were able to compare the sedimentation profiles of [3H]H1285-receptor complexes with those of [3H]oestradiol-receptor complexes in the presence of 0.4 M-KCl on 5-20% sucrose density gradients. [3H]Oestradiol-receptor complexes had a major peak at 4.4 S with a smaller peak at 5.6 S, whereas with [3H]H1285-receptor complexes the 5.6 S peak was always higher than the 4.4 S peak. There was significant variation between the dissociation behaviour at 20 degrees C of [3H]H1285-receptor complexes and [3H]oestradiol-receptor complexes pre-activated at 25 degrees C for 30 min in the presence and in the absence of 10 mM-sodium molybdate. The dissociation t1/2 of [3H]oestradiol-receptor complexes at 20 degrees C decreased from 1.5 h to 0.5 h when molybdate was present during heat treatment whereas the dissociation t1/2 for [3H]H1285-receptor complexes was 5 h for both conditions. These observations indicate that there are fundamental differences in the initial interaction of H1285 and oestradiol with the oestrogen receptor.     

Characterization of progesterone binding to nuclear receptors in rat placenta

Exchange assays have been validated to study several forms of the progesterone receptor found to occur in nuclei of rat placenta after extraction with high salt. One form was solubilized by the extraction procedure (KCl extractable Rpn) and another form remained attached to nuclear structures (KCl resistant Rpn). Specific binding of progesterone was optimized in both forms using buffered media containing 0.01 M Tris, 30%-glycerol (v/v), 0.2 mM leupeptin, and 1 mM dithiothreitol (TDGL), pH 7.8, at 0-4 degrees C for 18-24 h. At 0-4 degrees C the nuclear receptors were stable and degradation was negligible even after 44 h of in vitro incubation. The binding reaction between progesterone and receptor demonstrated mass action principles of ligand exchange throughout this interval. Saturation analysis indicated the presence of a single binding moiety of high affinity (app Kd = 2.9-3.2 nM) for both forms of the receptor. However, the nuclear progesterone receptor was thermolabile and after a 10 min exposure to 30 degrees C no longer complexed ligand. At an intermediate incubation temperature of 22 degrees C the binding reaction was stable for about 30 min. The KCl resistant binding sites were markedly more thermolabile. Addition of 10 mM Na molybdate protected all forms of the nuclear progesterone receptor from thermal denaturation and extended the life of the complex 3-4-fold. The dissociation rate constant of progesterone-nuclear receptor complex in each preparation was 6-8 X 10(5) s-1 resulting in a half-life of about 3 h. The KCl resistant and extractable binding sites were sensitive to blockade by 1 mM N-ethylmaleimide which was reversed by co-incubation with a 2-fold molar excess of dithiothreitol. This suggested that reduced sulfhydryl groups located on or near the surface of the ligand binding domain of the receptor were necessary to bind hormone. These studies showed that the interactions between ligand and the KCl resistant and extractable receptor sites found in rat placenta were of high affinity, saturable, and heat sensitive. Thus, these binding moieties exhibited physicochemical behavior very similar to each other and to the placental receptor which has previously been partially purified from the cytosol. The conclusion is made that all of the nuclear receptor binding sites for progesterone are structurally identical. Thus, the distinctive physicochemical properties responsible for KCl resistant and extractable forms of the nuclear progesterone receptor must reside in other domains of the receptor molecule.     

Cytosolic progesterone receptors in the oviducts of reproductively active and quiescent turkeys (Meleagris gallopavo)

Cytosolic progesterone receptors (PRcs) from the reproductive tract of the female turkey were analyzed by high-performance liquid chromatography using a diethylaminoethyl (DEAE) ion-exchange column. PRcs from oviduct tissue of laying, incubating, photorefractory and short-day turkey hens were compared. In general, three types of PRcs were identified: Receptor I, a partially displaceable species that was eluted at a 0.13 M salt concentration; and Receptors II and III, which were two specific binding species eluting at 0.23 M and 0.26 M, respectively. In the subdivided tissue from the laying hen oviduct, Receptor I was the major PRc species of the isthmus and Receptor III was the only receptor present in the uterus. The infundibulum and magnum each contained a small amount of Receptor II and a substantial amount of Receptor III. The whole oviduct of incubating hens contained a greater proportion of Receptor I than Receptor II or III, and these last two receptor types were present in equal quantity. The whole oviduct of the short-day hens had an equal distribution of the three receptor types. In the presence of sodium molybdate, an inhibitor of phosphatase and protease, only one sharp Receptor II species was seen in the magnum and uterus of the laying hen oviduct and in the whole oviducts of incubating and short-day hens. The transformation of Receptor II to Receptor III in the absence of sodium molybdate was facilitated by the aging of cytosol at 0-4 degrees C.(ABSTRACT TRUNCATED AT 250 WORDS)     

Nucleosome rearrangement in vitro. 1. Two phases of salt-induced nucleosome migration in nuclei

We have investigated the salt- and temperature-induced rearrangement of nucleosomes in both intact and H1-depleted nuclei from human cells. In agreement with previous reports on the rearrangement of nucleosomes in isolated chromatin or chromatin fragments, we observed a decrease in the average nucleosome repeat length following incubation of nuclei at 37 degrees C in elevated salt concentrations. However, this decrease occurred in two distinct phases. First, incubation of H1-depleted nuclei at 37 degrees C for as little as 10 min in low-salt, isotonic buffer (containing 0.025 M KCl) resulted in a shift in the limiting repeat value from approximately 190 to 168 base pairs (bp). A similar shift was observed for intact nuclei incubated at 37 degrees C for 1 h in buffer containing near-physiological salt concentrations (i.e., 0.175 M KCl). This limiting repeat value was maintained in both intact and H1-depleted nuclei up to a salt concentration of 0.45 M KCl in the incubation buffer. Second, at salt concentrations of 0.625 M KCl, a limiting repeat of approximately 146 bp was obtained, and the nuclei had clearly lysed. During the first shift in repeat length, little additional exchange of nuclear proteins occurred compared to nuclei kept on ice in a low-salt buffer. This was the case even though the conditions used to monitor exchange were optimized by using a high DNA to chromatin ratio. On the other hand, a significant increase in the exchange of nuclear proteins, and formation of nucleosomes on the naked DNA, was observed during the shift in repeat length to 146 bp.(ABSTRACT TRUNCATED AT 250 WORDS)