Guanosine nucleotides regulate B2 kinin receptor affinity of agonists but not of antagonists: discussion of a model proposing receptor precoupling to G protein

The effect of nucleotides on binding of the B2 kinin (BK) receptor agonist [3H]BK and the antagonist [3H]NPC17731 to particulate fractions of human foreskin fibroblasts was studied. At 0 degrees C, particulate fractions exhibited a single class of binding sites with a Kd of 2.3 nM for [3H]BK and a Kd of 3.8 nM for the antagonist [3H]NPC17731. Incubation with radioligands at 37 degrees C for 5 min gave a reduction of agonist, as well as antagonist, binding that was between 0-40% depending on the preparation, even in the absence of guanosine nucleotides. As shown by Scatchard analysis, this reduction in specific binding was due to a shift in the affinity of at least a fraction of the receptors. The presence at 37 degrees C of the guanine nucleotides GTP, GDP and their poorly hydrolyzable analogs left [3H]NPC17731 binding unaffected, but reduced the receptor affinity for [3H]BK to a Kd of about 15 nM. The maximal number of receptors, however, was unchanged. This affinity change was strongly dependent on the presence of bivalent cations, in particular Mg2+. It was reversed by incubation at 0 degrees C. The rank order of the guanosine nucleotides for [3H]BK binding reduction was GTP[gammaS] = Gpp[NH]p > GTP = GDP > GDP[betaS]. GMP, ATP, ADP and AMP showed no influence on agonist binding. A model for the interaction of the B2 kinin receptor with G proteins is discussed.     

Modulation of steroid affinity for the androgen receptor by sucrose

The effects of sucrose on androgen binding to its receptor were investigated. Sucrose decreased the rate of thermal inactivation of unoccupied and occupied androgen receptor (AR) and the rates of [3H]5 alpha-dihydrotestosterone [( 3H]DHT) dissociation from both activated and nonactivated AR complexes. Binding of [3H]DHT to AR in vivo, or in intact cells at 37 degrees C, caused reduction of [3H]DHT dissociation from cytosolic and nuclear complexes, as compared to in vitro labeled receptor complexes. Further, exposure of these complexes to sucrose at 0 degrees C caused an additional reduction of dissociation rates. Thus, the decrease of [3H]DHT dissociation induced by sucrose is independent of the reaction that reduces DHT dissociation from activated and transformed AR. Sucrose also reduced the ability of mersalyl acid to inactivate AR complexes. This effect of sucrose was markedly diminished in the presence of 2M urea. Sucrose did not significantly affect the association rate, sedimentation properties, or nuclear binding ability of AR complexes, but it did decrease the equilibrium dissociation constant. Other monosaccharides and disaccharides also stabilized AR. These data suggest that sucrose induces conformational changes in the steroid binding domain of androgen receptor, thereby reducing the rates of inactivation, steroid dissociation, and the accessibility of sulfhydryl groups to mersalyl.     

Mechanism of action of a steroidal antiglucocorticoid in lymphoid cells

We compared the biochemical properties of receptors extracted from mouse lymphoma cells and complexed with the glucocorticoid, triamcinolone acetonide, or with the high affinity antiglucocorticoid RU 38486 [17 beta-hydroxy-11 beta-(4-dimethylaminophenyl)-17 alpha-(1-propynyl)-estra- 4,9-diene-3-one]. Upon salt treatment the high molecular weight receptor complexes of both types yielded dissociated forms that had the same affinity for DNA. Increased temperature caused subunit dissociation of the agonist complex but ligand dissociation of the antagonist complex. The latter was prevented if subunit dissociation was blocked by sodium molybdate but not by chemical cross-linking of the heteromeric receptor. Immunochemical studies suggest that the instability of the RU 38486 complex only affects the level of bound ligand but not the integrity of the receptor polypeptide. In intact cells at 37 degrees C the receptor polypeptide associated with nuclei only in the presence of hormone but not in its absence or if the antihormone was present. Cells incubated at 37 degrees C with RU 38486 retained in the cytosol the high molecular weight receptor in its ligand bound form. The data suggest that in intact cells under physiological conditions the antagonist binds to the heteromeric receptor and blocks its dissociation into subunits thus preventing nuclear receptor translocation.     

Two subpopulations of alpha 1-adrenergic receptors with high and low affinity for agonists: short-term exposure to agonists reduced the high-affinity sites

Short-term receptor regulation by agonists is a well-known phenomenon for a number of receptors, including beta-adrenergic receptors, and has been associated with receptor changes revealed by radioligand binding. In the present study, we investigated the rapid changes in alpha 1-adrenergic receptors induced by agonists. alpha 1-receptors were studied on DDT1 MF-2 smooth muscle cells (DDT1-MF-2 cells) by specific [3H]prazosin binding. In competition binding on membranes and on intact cells at 4 degrees C or at 37 degrees C in 1-min assays, agonists competed for a single class of sites with relatively high affinity. By contrast, in equilibrium binding at 37 degrees C on intact cells agonists competed with two receptor forms (high- and low-affinity). We quantified the receptors in the high-affinity form by measuring the [3H]prazosin binding inhibited by 20 microM norepinephrine (this concentration selectively saturated the high-affinity sites). The low-affinity sites were measured by subtracting the binding of [3H]prazosin to the high-affinity sites from the total specific binding. High-affinity receptors were 85% of the total sites in binding experiments at 4 degrees C, but only 30% at 37 degrees C. On DDT1-MF-2 cells preequilibrated with [3H]prazosin at 4 degrees C, and then shifted to 37 degrees C for a few minutes, norepinephrine selectively reduced the high-affinity sites by 30%. We suggest that at 4 degrees C it is the native form of alpha 1-receptors that is measured, with most of the sites in the high-affinity form, while during incubation at 37 degrees C the norepinephrine present in the binding assay converts most of the receptors to an apparent low-affinity form, so that they are no longer recognized by 20 microM norepinephrine. The nature of this low-affinity form was further investigated. On DDT1-MF-2 cells preincubated with the agonist and then extensively washed at 4 degrees C (to maintain the receptor changes induced by the agonist) the number of receptors recognized by [3H]prazosin at 4 degrees C was reduced by 38%. After fragmentation of the cells, the number of receptors measured at 4 degrees C was the same in control and norepinephrine-treated cells, suggesting that the disruption of cellular integrity might expose the receptors which are probably sequestered after agonist treatment. In conclusion, the appearance of the low affinity for agonists at 37 degrees C may be due to the agonist-induced sequestration of alpha 1-adrenergic receptors, resulting in a limited accessibility to hydrophilic ligands.     

Prostaglandin E1 receptor from mouse mastocytoma P-815 cells couples to 60 kDa GTP-binding protein.

The stable [3H]prostaglandin E1 (PGE1)-bound receptor, which couples to 60 kDa GTP-binding protein, from membranes of mouse mastocytoma P-815 cells has been purified and characterized. When the membranes were preincubated with [3H]PGE1 for 60 min at 37 degrees C, the dissociation of the ligand from the receptor was remarkably decreased, even in the presence of GTP gamma S. The stable [3H]PGE1-bound receptor complex was solubilized with 6% digitonin. The solubilized [3H]PGE1 receptor was eluted with [35S]GTP gamma S bindings activity from an Ultrogel AcA44 column. The fractions containing activities of both [3H]PGE1 and [35S]GTP gamma S bindings were further purified by column chromatographies on wheat germ agglutinin (WGA)-agarose and phenyl-Sepharose CL-4B. The partially purified [3H]PGE1-bound receptor was affinity-labeled with [14C]5'-p-fluorosulfonylbenzoylguanosine and a protein with a molecular mass of 60 kDa was detected. These results suggest that the ligand-bound PGE1 receptor of P-815 cells associates with a novel GTP-binding protein with a molecular mass of 60 kDa.     

11 beta-chloromethyl-[3H]estradiol-17 beta: a very high affinity, reversible ligand for the estrogen receptor

It has been suggested that binding of 11 beta-chloromethyl estradiol (11 beta-CME2) to the estrogen receptor is irreversible, since its complex with receptor fails to undergo exchange with estradiol (E2). To investigate this behavior directly, 11 beta-CME2 was prepared in high specific activity, tritium-labeled form: The binding of [3H]11 beta-CME2 to the estrogen receptor from lamb and rat uterus and MCF-7 human breast cancer cells was shown to be fully reversible; the 11 beta-CME2 complex with receptor, as well as that of a structural analog 11 beta-ethyl estradiol, however, do not dissociate or exchange with [3H]E2 over a 22 h period at 25 degrees C. By competitive or direct binding assays, the affinity of 11 beta-CME2 for the estrogen receptor can be estimated to be as much as 10- to 30-fold higher than that of E2. The complexes of estrogen receptor from MCF-7 cells with [3H]11 beta-CME2 and [3H]E2 show identical velocity sedimentation profiles on sucrose gradients, under conditions when the receptor is either a monomer of a dimer. Because of its very high affinity and unusual dissociation kinetics, [3H]11 beta-CME2 should be a very useful ligand for studies of estrogen receptor dynamics and in the assay of estrogen receptor concentrations in tumors and tissues.     

Solubilization of the calcium antagonist receptor from rat brain

[3H]Nitrendipine binds with high affinity to a calcium antagonist receptor in rat brain membranes. At 4 degrees C, treatment with digitonin solubilized the calcium antagonist receptor as a stable complex with [3H]nitrendipine. The nitrendipine concentration that gave a half-maximal amount of the solubilized [3H]nitrendipine-receptor complex was identical to the Kd for specific nitrendipine binding to brain membranes. Nitrendipine dissociated from digitonin-solubilized and membrane-bound receptors with a half-time of 24 to 30 min at 20 degrees C. Verapamil increased and diltiazem decreased the dissociation rate to a similar extent in both preparations indicating that the solubilized receptor contains both the dihydropyridine and diltiazem/verapamil binding sites. Sucrose gradient sedimentation experiments gave a value of S20, omega = 19.2 for the receptor-digitonin complex. The solubilized calcium antagonist receptor binds specifically to wheat germ agglutinin-Sepharose columns consistent with an identification as a glycoprotein.     

Adrenergic receptor properties of hepatocytes from male and female rats

alpha 1- and beta-adrenergic receptor properties of intact hepatocytes from adult male and female rats were evaluated in ligand binding studies using [3H]prazosin and [3H]CGP-12177 (4-(t-butylamino-2-hydroxypropoxy)-[5,7-3H]benzimidazole-2-one-HCl), a hydrophilic beta antagonist. Prior work had suggested that the response of hepatocytes from males to alpha 1-adrenergic stimulation was greater than that of cells from females. However, little sexual difference in prazosin affinity, number of binding sites or kinetics of association/dissociation with the cells was found. Epinephrine, [3H]prazosin competition for binding sites on intact cells was performed at 2 degrees C and 80-90% of agonist sites remained in a high affinity state with an epinephrine Kd comparable to that previously found in glucose release and phosphorylase alpha activation studies. Agonist Kd inferred from these competition experiments also showed no sexual dimorphism. These data suggest that the greater rise in the concentration of cytosolic free calcium and release of 45Ca from cells of males in response to epinephrine stimulation is not due to male/female alpha 1-receptor differences but, rather, may be a function of the previously observed sexual difference in cell calcium metabolism. [3H]CGP binding to hepatocytes from females was stereospecific, saturable and identified a single, high affinity site. Comparable sites were not found on cells from males, however, [3H]CGP binding to crude membrane preparations from both sexes was identical. This suggests that the loss of hepatic beta-receptor function in the adult male is due to an inaccessibility of beta-receptors at the external surface of the plasma membrane of the intact cell. Further studies with other beta-receptor ligands are being carried out to confirm these initial findings.     

Sodium and guanine nucleotide regulation of dopamine receptor agonist and antagonist binding sites in MtTW15 pituitary tumors

The modulation of the dopamine receptor in MtTW15 tumors was investigated. The antagonist dopaminergic binding site in MtTW15 tumors labelled with [3H]spiperone remains unchanged at 25 degrees C in the presence or absence of sodium or guanine nucleotides (Gpp(NH)p); by contrast at 37 degrees C sodium increases the affinity while Gpp(NH)p decreases it slightly. The dopamine receptor in this tumor, such as the intact adenohypophysis, exists in a high and low affinity state for dopamine agonists. These agonist affinity states evaluated with apomorphine competition for [3H]spiperone binding show similar affinities as those of intact tissue but have a lower proportion of the high affinity state. At 25 degrees C, a partial conversion of the high into the low affinity state is obtained in the presence of both sodium and Gpp(NH)p, while at 37 degrees C a complete conversion is observed. These data show differences in the modulation of antagonist and agonist dopaminergic binding sites in MtTW15 pituitary tumors compared with the intact pituitary.     

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.     

Receptor kinetics differ for endothelin-1 and endothelin-2 binding to Swiss 3T3 fibroblasts

The equilibrium binding, kinetics of ligand-receptor interactions, and biological activity of endothelin-1 and -2 have been studied in Swiss 3T3 fibroblasts. Scatchard analyses of saturation binding data for ET-1 and -2, performed at 4 degrees C to prevent internalization of the occupied receptor, revealed similar affinity constants and numbers of binding sites for endothelin-1 and -2. Experiments designed to determine ligand-induced effects on 45Ca efflux demonstrated no qualitative or quantitative differences between the two endothelin isoforms. In contrast, kinetic studies resulted in different rates of dissociation for the two isoforms and different extents of dissociation. Specifically, only 40% of the bound [125I]endothelin-1 was dissociated at 4 h following the addition of excess unlabeled ligand, whereas 85-90% of the bound [125I]endothelin-2 was dissociated under the same conditions. Endothelin-1 and -2 also differed in the percent of specific cell-associated ligand bound after a 2 h incubation at 37 degrees C following an initial equilibration at 4 degrees C. The differences in dissociation rates and association or internalization rates at 37 degrees C are the first data that differentiate between the two isoforms. It is suggested that isoform-specific differences in the rate of dissociation from cell surface endothelin receptors influence the level of cell-associated endothelin and may be important in determining physiologic responses in vivo.     

Rapid incorporation of the solubilized dihydropyridine receptor into phospholipid vesicles

We describe the rapid incorporation of the CHAPS solubilized dihydropyridine receptor into phospholipid vesicles. A series of sucrose gradient sedimentation experiments demonstrate that the (+)-[3H]PN200-110-labeled dihydropyridine receptor is associated with lipid vesicles following detergent removal by Extracti-gel chromatography. Solubilization of the receptor results in a loss of (+)-[3H]PN200-110 binding affinity relative to that observed in native membranes; the high affinity binding of (+)-[3H]PN200-110 can be restored upon reincorporation of the receptor into phospholipid vesicles. Similarly, the incorporation of the receptor restores its stability to incubation at 37 degrees C relative to that of the detergent solubilized receptor, thereby mimicking the properties of the membrane bound form of the receptor. The dissociation rate of (+)-[3H]PN200-110 from the reconstituted receptor is shown to be allosterically regulated by verapamil and diltiazem, indicating that the binding sites for these calcium antagonists have been inserted along with the dihydropyridine receptor into phospholipid vesicles. The results presented in this report, thus demonstrate the successful reconstitution of the dihydropyridine receptor into phospholipid vesicles by a variety of criteria. The reconstitution method described here is rapid and efficient, and should now facilitate structure-function studies of this receptor and its interrelationships with other regulatory components of the voltage-sensitive calcium channel system.     

Characterization of the asialoglycoprotein receptor on isolated rat hepatocytes

Rat hepatocytes, freshly isolated by a collagenase perfusion technique, bound [3H]asialo-orosomucoid in a sugar-specific and calcium-dependent manner as expected for the hepatic asialoglycoprotein receptor. At least 90% of the total cell surface-bound [3H]asialo-orosomucoid represented specific binding and could be removed by washing with EDTA. Freshly isolated cells had about 7 x 10(4) surface receptors per cell. However, when cells were incubated at 37 degrees C, the number of surface receptors per cell rapidly increased 2- to 3-fold to about 2.2 x 10(5). This increase in receptor number occurred in the absence of serum and began within minutes, depending on the particular conditions used to keep the cells in suspension. (The maximal rate of appearance of new receptors at 37 degrees C was about 70 receptors per cell per s.) When cells were first exposed to a brief EDTA treatment at 4 degrees C, before measuring the binding of [3H]asialo-orosomucoid, the number of surface receptors per cell was found to increase by about 45%. Therefore, about 30% of the surface receptors on freshly isolated cells have already bound endogenous asialoglycoproteins or are present in the membrane in a cryptic form. At 4 degrees C the binding of [3H]asialo-orosomucoid was rapid (kon greater than or equal to 1.8 x 10(4) M-1s-1), whereas the dissociation of bound [3H]asialo-orosomucoid, measured in the presence of excess nonradioactive glycoprotein, was extremely slow (koff less than or equal to 0.9 x 10(-5) s-1). The association constant calculated from these data (Ka = 2.0 x 10(9) M-1) agreed well with that obtained from equilibrium binding experiments (Ka = 2.4 x 10(9) M-1) using untreated cells or cells which had first been treated with EDTA or incubated at 37 degrees C. In all cases, when the concentration of [3H]asialo-orosomucoid was higher than about 600 ng/ml, the Scatchard plots were curvilinear. The data are, however, consistent with the conclusion that there is a single high affinity receptor on the hepatocyte surface. The additional receptors that appear on the surface when cells are incubated at 37 degrees C or exposed to EDTA are identical with those on untreated cells,     

Nonactivated and activated glucocorticoid receptor complexes from human salivary gland adenocarcinoma cell line

[3H]Triamcinolone acetonide glucocorticoid receptor complexes from human salivary gland adenocarcinoma cells (HSG cells) were shown to be activated with an accompanying decrease in molecular weight in intact cells, as analyzed by gel filtration, DEAE chromatography, the mini-column method and glycerol gradient centrifugation. Glucocorticoid receptor complexes consist of steroid-binding protein (or glucocorticoid receptor) and non-steroid-binding factors such as the heat-shock protein of molecular weight 90,000. To determine whether the steroid-binding protein decreases in molecular weight upon activation, affinity labeling of glucocorticoid receptor in intact cells by incubation with [3H]dexamethasone 21-mesylate, which forms a covalent complex with glucocorticoid receptor, was performed. Analysis by gel filtration and a mini-column method indicated that [3H]dexamethasone 21-mesylate-labeled receptor complexes can be activated under culture conditions at 37 degrees C. SDS-polyacrylamide gel electrophoresis of [3H]dexamethasone 21-mesylate-labeled steroid-binding protein resolved only one specific 92 kDa form. Furthermore, only one specific band at 92 kDa was detected in the nuclear fraction which was extracted from the cells incubated at 37 degrees C. These results suggest that there is no change in the molecular weight of steroid-binding protein of HSG cell glucocorticoid receptor complexes upon activation and that the molecular weight of nuclear-binding receptor does not change, although the molecular weight of activated glucocorticoid receptor complexes does decrease. Triamcinolone acetonide induced an inhibitory effect on DNA synthesis in HSG cells. Dexamethasone 21-mesylate exerted no such effect and blocked the action of triamcinolone acetonide on DNA synthesis. These results suggests that dexamethasone 21-mesylate acts as antagonist of glucocorticoid in HSG cells. The fact that dexamethasone 21-mesylate-labeled receptor complexes could be activated and could bind to DNA or nuclei as well as triamcinolone acetonide-labeled complexes suggests that dexamethasone 21-mesylate-labeled complexes can not induce specific gene expression after their binding to DNA.     

Subcellular distribution of glucocorticoid receptor in the neoplastic epithelial duct cell line from human salivary gland

Neoplastic epithelial duct cell line from human salivary gland (HSG cell line) contains the specific glucocorticoid receptor. The time course study on the uptake of [3H]triamcinolone acetonide (TA), a synthetic glucocorticoid, by intact HSG cells in a growing monolayer culture showed that translocation of glucocorticoid receptors into nuclei occurred at 37 degrees C, but not at 0 degrees C. To elucidate the subcellular distribution of glucocorticoid receptor from HSG cells, a scaled-up-culture was employed. When the cells were incubated with [3H]TA at 0 degrees C, 94% of the receptors were found in the cytosol fraction, while only 6% of the receptors existed in the nuclei. When the cells were incubated at 37 degrees C, 49% of the receptor complexes were distributed in the nuclei and 74% of these nuclear receptor complexes were extractable with 5 mM pyridoxal phosphate.     

Binding and metabolism of leukotriene B4 by neutrophils and their subcellular organelles

The subcellular distribution of leukotriene (LT)B4 binding and metabolizing sites was investigated in human neutrophils. Cells were disrupted by nitrogen cavitation and fractionated by Percoll density gradient centrifugation to yield cytoplasm, membranes, azurophilic granules, and specific granules. Only membrane fractions contained high affinity [3H]LTB4 binding sites. Binding of radiolabeled ligand to membranes was rapid, reversible, and saturable; it was blocked by a series of LTB4 analogues at concentrations corresponding to their respective potencies in 1) blocking [3H]LTB4 binding to whole cells and 2) stimulating neutrophil degranulation responses. In contrast, [3H]LTB4 was metabolized by fractions enriched with markers for cytoplasm plus endoplasmic reticulum. The metabolic activity was sedimented by ultracentrifugation, enhanced by NADPH, and inhibited at 4 degrees C. The cell-free system, like intact cells, metabolized [3H]LTB4 to omega-oxidized product rapidly and quantitatively at 37 degrees C but was inactive at 4 degrees C. Whole cells converted radiolabel to 20-hydroxy (approximately 30% of product) and 20-carboxy (approximately 70% of product) derivatives; the cell-free system formed principally 20-hydroxy-[3H]LTB4. These products were less bioactive than LTB4. Nevertheless, metabolism of LTB4 played little role in limiting the cells' response to the ligand: neutrophils completed degranulation and became desensitized to LTB4 within 3-5 min of exposure. Within this time frame, they oxidized less than 30% of the stimulus, and the extracellular fluid of these neutrophil suspensions was fully capable of activating fresh cells. We conclude that neutrophils transmit bioactions of LTB4 via a specific receptor integrally associated with their plasmalemma and/or endoplasmic reticulum. They inactivate the stimulus via a particulate omega-oxidase. At the level of the individual cell, receptor down-regulation, rather than ligand metabolism, appears to limit functional responses such as degranulation.     

Identification of an androgen receptor in the adult chicken oviduct

The chicken oviduct androgen receptor was characterized by sucrose density gradient centrifugation, Scatchard analysis, competition studies, and affinity labeled with dihydrotestosterone 17 beta-bromoacetate. A specific 8.5 S peak was seen on 0.01 M KCl sucrose density gradients when the receptor was labeled with [3H]5 alpha-dihydrotestosterone. Specific 4.6 S peaks were seen when receptor labeled with [3H]5 alpha-dihydrotestosterone or [3H]dihydrotestosterone 17 beta-bromoacetate was analyzed on 0.3 M KCl sucrose density gradients. Scatchard analysis of [3H]5 alpha-dihydrotestosterone binding by oviduct cytosol was consistent with two binding sites. A Kd of 0.13 nM was found for the high affinity androgen receptor. Competition studies showed the following order of ligand affinity: 5 alpha-dihydrotestosterone greater than dihydrotestosterone 17 beta-bromoacetate greater than progesterone greater than estradiol. A 61.2 kDa protein was specifically covalently labeled with [3H]dihydrotestosterone 17 beta-bromoacetate. The chicken oviduct androgen receptor possesses characteristics similar to other androgen receptors, and provides a good source of androgen receptor for physicochemical studies of the native receptor protein.     

Effects of molybdate on steroid receptors in intact GH1 cells. Evidence for dissociation of an intracellular 10 S receptor oligomer prior to nuclear accumulation

Treatment of intact GH1 cells with sodium molybdate inhibits the subsequent rate of nuclear accumulation of hormone-occupied glucocorticoid and estrogen receptors. Cells were incubated at 23 degrees C for 1 h with 30 mM molybdate and then for up to 30 min with [3H]triamcinolone acetonide or [3H]estradiol in the continued presence of molybdate. Although molybdate did not affect the rate of receptor occupancy with either steroid, cells treated with molybdate had more occupied cytosolic and fewer occupied nuclear receptors than control cells. For the glucocorticoid receptor, cells treated with molybdate had more 10 S and fewer 4 S cytosolic receptors than control cells. In low salt cytosol molybdate inhibits the temperature-mediated subunit dissociation of occupied 10 S glucocorticoid receptor. These results suggest that a hormone-mediated dissociation of an intracellular 10 S oligomeric glucocorticoid receptor form to its 4 S subunits is required prior to accumulation of occupied receptors in the nuclear fraction. In cells incubated at 37 degrees C for 1 h or longer with [3H]triamcinolone acetonide, molybdate shifts the steady state intracellular distribution of receptor toward the 10 S cytosolic receptor form, consistent with the interpretation that molybdate affects the rapidly exchanging subunit equilibrium between the 10 S and 4 S cytosolic forms by slowing the rate of 10 S receptor dissociation. Molybdate prevents loss of glucocorticoid-occupied 10 S but not 4 S receptors in heated cytosol by stabilizing the relatively protease-resistant 10 S receptor. Since molybdate stabilizes 10 S oligomeric steroid receptors in vitro, the effects of molybdate on nuclear accumulation of occupied receptors in intact cells support the intracellular existence and physiological relevance of 10 S glucocorticoid and estrogen receptors. These results support a general model for steroid receptor activation in which binding of hormone promotes dissociation of intracellular 8-10 S oligomeric receptors to their DNA-binding subunits.     

Characterization of R5020 and RU486 binding to progesterone receptor from calf uterus

We have examined and compared the binding characteristics of the progesterone agonist R5020 [promegestone, 17,21-dimethylpregna-4,9(10)-diene-3,20-dione] and the progesterone antagonist RU486 [mifepristone, 17 beta-hydroxy-11 beta-[4-(dimethylamino) phenyl]-17 alpha-(prop-1-ynyl)-estra-4,9-dien-3-one] in calf uterine cytosol. Both steroids bound cytosol macromolecule(s) with high affinity, exhibiting Kd values of 5.6 and 3.6 nM for R5020 and RU486 binding, respectively. The binding of the steroids to the macromolecule(s) was rapid at 4 degrees C, showing saturation of binding sites at 1-2 h for [3H]progesterone and 2-4 h for both [3H]R5020 and [3H]RU486. Addition of molybdate and glycerol to cytosol increased the extent of [3H]R5020 binding. The extent of [3H]RU486 binding remained unchanged in the presence of molybdate, whereas glycerol had an inhibitory effect. Molybdate alone or in combination with glycerol stabilized the [3H]R5020- and [3H]RU486-receptor complexes at 37 degrees C. Although the rate of association of [3H]RU486 with the cytosolic macromolecule was slower than that of [3H]R5020, its dissociation from the ligand-macromolecule complex was significantly slower than [3H]R5020. Competitive steroid binding analysis revealed that [3H]progesterone, [3H]R5020, and [3H]RU486 compete for the same site(s) in the uterine cytosol, suggesting that all three bind to the progesterone receptor (PR). Sedimentation rate analysis showed that both steroids were bound to a molecule that sediments in the 8S region. The 8S [3H]R5020 and [3H]RU486 peaks were abolished by excess radioinert progesterone, RU486, or R5020.(ABSTRACT TRUNCATED AT 250 WORDS)     

A new exchange procedure for the quantitation of prostatic androgen receptor complexes formed in vivo

A procedure is described for the measurement of rat prostatic androgen receptor saturated in vivo with non-radioactive androgen. While NaSCN alone induces irreversible dissociation (denaturation) of androgen from the receptor, the combination of this chaotropic salt (0.15 M) with sucrose (15%) and sodium molybdate (10 mM) allows the exchange of R DHT with [3H]DHT at 0 degrees C with only minimal receptor denaturation. The validity of the present exchange assay is based on the following: a similar quantity of androgen receptor was detected when binding was measured directly after in vivo treatment with radioactive androgen or indirectly by [3H]DHT exchange after treatment with non-radioactive androgen. Steroid specificity, sedimentation analysis and equilibrium association constants indicated that this exchange assay labels the androgen receptor without interference from other prostatic steroid binding proteins. With this method it is now possible to quantitate not only prostatic androgen receptors bound to androgens in vitro but also hormone-receptor complexes formed in intact animals under the influence of endogenous androgen.