Transformation of calf uterine progesterone receptor: analysis of the process when receptor is bound to progesterone and RU38486

Effects of different transforming agents were examined on the sedimentation characteristics of calf uterine progesterone receptor (PR) bound to the synthetic progestin [3H]R5020 or the known progesterone antagonist [3H]RU38486 (RU486). [3H]R5020-receptor complexes [progesterone-receptor complexes (PRc)] sedimented as fast migrating 8S moieties in 8-30% linear glycerol gradients containing 0.15 M KCl and 20 mM Na2MoO4. Incubation of cytosol containing [3H]PRc at 23 degrees C for 10-60 min, or at 0 degrees C with 0.15-0.3 M KCl or 1-10 mM ATP, caused a gradual transformation of PRc to a slow sedimenting 4S form. This 8S to 4S transformation was molybdate sensitive. In contrast, the [3H]RU486-receptor complex exhibited only the 8S form. Treatment with all three activation agents caused a decrease in the 8S form but no concomitant transformation of the [3H]RU486-receptor complex into the 4S form. PR in the calf uterine cytosol incubated at 23 or at 0 degrees C with 0.3 M KCl or 10 mM ATP could be subsequently complexed with [3H]R5020 to yield the 4S form of PR. However, the cytosol PR transformed in the absence of any added ligand failed to bind [3H]RU486. Heat treatment of both [3H]R5020- and [3H]RU486-receptor complexes caused an increase in DNA-cellulose binding, although the extent of this binding was lower when RU486 was bound to receptors. An aqueous two-phase partitioning analysis revealed a significant change in the surface properties of PR following both binding to ligand and subsequent transformation. The partition coefficient (Kobsd) of the heat-transformed [3H]R5020-receptor complex increased about 5-fold over that observed with PR at 0 degrees C.(ABSTRACT TRUNCATED AT 250 WORDS)     

Characteristics of androgen binding in rat adrenal tissue using [3H]methyltrienolone (R1881) as tracer

A high level of binding of [3H]methyltrienolone (R1881 = 17beta-hydroxy-17alpha-methyl-estra-4, 9, 11-trien-3-one) was found in cytosol prepared from adrenals of castrated male rats. Binding of [3H]R1881 was of high affinity (DK = 6.2 nM) and highly specific for androgens. The [3H]R1881 complex migrates at 7-9S on sucrose gradients in low ionic strength buffer and at 4-5S in buffer containing 0.4M KC1. All binding studies have been performed in parallel with rat ventral prostate and adrenal cytosol. The present data suggest the presence of an androgen binding component in rat adrenal tissue.     

Characterization of a [3H]methyltrienolone (R1881) binding protein in rat liver cytosol

The binding of radiolabelled methyltrienolone 17 beta-hydroxy-17 alpha-methyl-estra-4,9,11-trien-3-one (R1881) to adult male rat liver cytosol has been characterized in the presence of Na-molybdate to stabilize steroid-hormone receptors, and triamcinolone acetonide to block progestin receptors. Using sucrose density gradient analysis, male liver cytosol contains a [3H] R1881 macromolecular complex which sediments in the 8-9S region. 8S binding of R1881 to male rat serum, female liver cytosol or cytosol from a tfm rat cannot be demonstrated. Further metabolism of [3H] R1881 following 20h incubation with male rat liver cytosol was excluded: In the 8S region 97% of [3H] R1881 was recovered by thin layer chromatography. Characteristics of this [3H] R1881-8S binding protein include high affinity (Kd = 2.3 +/- 41 nM) and low binding capacity (18.8 +/- 3.3 fmol/mg cytosol protein), precipitability in 0-33% ammonium sulfate, and translocation to isolated nuclei following in vivo R1881 treatment. Whereas, the cytosol R1881-receptor is competed for by dihydrotestosterone, testosterone, and estradiol, [3H] estradiol binding in the 8S region is not competitive with androgens but does compete with diethylstilbestrol. The nuclear androgen binding site has a Kd = 2.8 nM for [3H] R1881, and is androgen specific (testosterone greater than 5 alpha-dihydrotestosterone greater than estradiol greater than progesterone greater than cyproterone acetate greater than diethylstilbestrol greater than dexamethasone greater than triamcinolone). Since a number of liver proteins including the drug and steroid metabolizing enzymes are, in part, influenced by the sex-hormone milieu, the presence of a specific androgen receptor in male rat liver may provide valuable insight into the regulation of these proteins.     

ZK98299--a new antiprogesterone: biochemical characterization of steroid binding parameters in the calf uterine cytosol.

We have examined steroid binding characteristics of a newly synthesized antisteroid, ZK98299 [onapristone, 11 beta-(4-dimethylaminophenyl)-17 alpha-hydroxy-17 beta-(3-hydroxypropyl)- 13 alpha-methyl-4,9-gonadien-3-one], in the calf uterus cytosol and compared the nature of this interaction with the binding of progesterone receptor (PR) agonist R5020 [promegestone, 17,21-dimethylpregna-4,9-diene-3,20-dione]. In the freshly prepared cytosol, [3H]ZK98299 interacted specifically with a macromolecule: the binding was abolished in the presence of excess progestins (R5020 and progesterone) and the antiprogesterone ZK98299. The high affinity (Kd = 2.5 nM) interaction between [3H]ZK98299 and PR was temperature- and time-dependent, reaching an optimum by 2-3 h at 0 degrees C, and was facilitated by 20 mM Na2MoO4. Under nontransforming conditions, [3H]ZK98299-receptor complexes sedimented as 8 S species in 8-30% linear glycerol gradients. Upon salt or thermal transformation, there was a loss of the 8 S form, with only a small fraction of total complexes (5-7%) binding to DNA-cellulose. In contrast, transformed [3H]R5020-receptor complexes exhibited a greater extent of binding (25-55%) to DNA-cellulose. [3H]ZK98299-receptor complexes could be resolved into two ionic species over DEAE-Sephacel following incubation of the complexes at 0 or 23 degrees C. [3H]ZK98299 binding was sensitive to sulfhydryl group modification as beta-mercaptoethanol increased the extent of steroid binding. Although treatment with iodoacetamide (IA) abolished [3H]R5020 binding, there was a significant (nearly twofold) increase in the [3H]ZK98299 binding. The results of this study point to similarities and differences between the steroid binding properties of the uterine PR occupied by R5020 and ZK98299: both steroids appear to bind the same 8 S receptor but exhibit differential DNA binding and sensitivity to IA. The reported antagonist properties of ZK98299 may, therefore, be explained on the basis of a distinct receptor conformation induced by the antisteroid.     

Steroid metabolism and binding activity in a murine renal tumor cell line

The purpose of this study was to partially characterize the steroid binding activity of murine renal tumor cells in continuous culture. The steroid receptor content of a cloned renal tumor cell line (RAG) and a subline RAG-2 was examined by sucrose gradient analysis, hydroxylapatite and dextran-coated charcoal methods. The RAG cells lacked estrogen- and progestin-binding activity, whereas specific 5 alpha-dihydrotestosterone (DHT) and dexamethasone (Dx) binding activities were detected as 8S peaks on low salt gradients. The specificity of DHT binding was examined by sucrose gradient analysis: DHT, R1881 and ORG2058 all completely inhibited [3H]DHT binding whereas diethylstilbestrol and Dx were ineffective. The androgen receptor content of the RAG cells was approx. 15 fmol/mg cytosol protein by the hydroxylapatite-filter assay, with an estimated Kd for methyltrienolone (R1881) of 5 nM at 0 degrees C. Scatchard analysis of [3H]Dx binding by RAG cytosol showed a Kd of 6 nM for Dx and 44 nM for corticosterone at 0 degrees C. Glucocorticoid receptor levels were estimated to be 182 fmol/mg cytosol protein by dextran-coated charcoal assay. Metabolism of [3H]testosterone and [3H]DHT by RAG cells was examined 1, 4 and 6 h after exposure to labeled hormone. Radioactive DHT was the primary intracellular metabolite recovered after exposure to [3H]testosterone. There was little conversion of DHT to androstanediol.     

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)     

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.     

Mammalian progesterone receptor shows differential sensitivity to sulfhydryl group modifying agents when bound to agonist and antagonist ligands

Modulation of calf uterine progesterone receptor (PR), in relation to its binding to synthetic steroids with known agonist (R5020) and antagonist (RU486) properties, was studied in the presence of iodoacetamide (IA), N-ethylmaleimide (NEM), beta-mercaptoethanol (MER), and dithiothreitol (DTT). Pretreatment of uterine cytosol at 4 degrees C with NEM (4-10 mM) reduced the binding of [3H]RU486 to PR by 40%, but [3H] R5020 binding was completely abolished. Whereas IA (2-10 mM) treatment did not affect [3H]RU486 binding, [3H]R5020 binding was totally eliminated. DTT or MER increased the binding of both steroids slightly (15%). [3H]R5020- or [3H]RU486-receptor complexes (Rc) migrated in the 8 S region and were eliminated upon pretreatment with NEM. At 23 degrees C, DTT increased the amount of 4 S [3H]R5020-Rc, but had no effect on the [3H]RU486-Rc. In the control, [3H]RU486 binding to the 8 S PR could be competed with radioinert R5020 or RU486, but R5020 failed to compete in the presence of IA. The heat-treated [3H]R5020- and [3H]RU486-Rc showed reduced binding to DNA-cellulose in the presence of NEM and IA. The results of our study suggest that SH group modifications differentially influence the properties of mammalian PR complexed with either R5020 or RU486. In the presence of IA, the [3H]RU486-Rc remained in the 8 S form when incubated at 23 degrees C, indicating that RU486 binding causes conformational changes in PR which are distinct from those that result upon R5020 binding.     

Unravelled nucleosomes,nucleosome beads and higher order structures of chromatin: Influence of non-histone components and histone H1

Effects of non-histone components and histone H1 on the morphology of nucleosomes and chromatin were studied by electron microscopy. Soluble rat liver ehromatin was depleted of non-histone components [NH]or non-histone components and H1 [NH and H1] by dissociation and subsequent fractionation in sucrose gradients in the presence of 300 to 350 mm or 500 mm-NaCl, respectively. In reconstitution experiments the depleted samples were mixed either with [NH] or with [NH and H1] or with purified H1. The morphology of the ionic strength-dependent condensation of the samples was monitored by electron microscopy using 0 mm to 100 mm-NaCl. Based on the appearance of the different types of fibres in very low salt (0 mm up to 10 mm-NaCl), namely the zigzag-shaped, the beads-on-a-string or the DNA-like filaments, it is possible to distinguish between nucleosomes, partially unravelled nucleosomes and unravelled nucleosomes, respectively. Only those fibres which were zigzag-shaped at low ionic strength condense at increasing ionic strength into higher order structures of compact fibres. We demonstrate the dependence of the appearance of nucleosomes and chromatin upon its composition and upon the ionic strength of the solvent.[NH] have no detectable influence upon the formation of higher order chromatin structures, but they can prevent the unravelling of nucleosomes at very low ionic strength, presumably by charge shielding.For the appearance of zigzag-shaped fibres and for the condensation into compact fibres with increasing ionic strength, H1 must be present in about native amounts. Partial removal of H1 (about 10%) promotes a change from fibres into tangles. This supports the model that an H1 polymer is stabilizing the higher order chromatin structures.Reconstitution experiments with purified H1 regenerated fibres containing all the features of [NH]-depleted chromatin. Reconstitution experiments with [NH and H1] promoted fibres compatible with control chromatin. Overloading of chromatin with H1 led to additional condensation. The detailed morphology of the reconstituted fibres showed local distortions. One possibility explaining these local distortions would be competition between “main” and “additional” binding sites for histone H1.     

Characteristics of cytosol androgen receptor in rat thymus

Male and female rat thymic cytosol contained specific androgen receptor. The apparent dissociation constants (Kd) were 2.4 nM in males and 2.5 nM in females, and the number of binding sites (NBS) were 23.7 fmol/mg protein in males and 34.2 fmol/mg protein in females. Transformation of receptor to the DNA binding state was achieved by heat or KCl treatment of [3H]R1881-receptor complex, and the characteristics of transformed and nontransformed receptors were investigated. The nontransformed androgen-receptor complex eluted at 0.20-0.25 M KCl from DEAE-Sephacel and sedimented at 9.1 S and its molecular weight was 255,000 on agarose gel chromatography, while the transformed receptor complex eluted at 0.03-0.15 M KCl with a broad peak and sedimented at 4.5 S and its molecular weight was 80,000-85,000. The minicolumn binding assay revealed that approximately 57% of the total receptor complexes bound to DNA-cellulose following heat treatment (20 degrees C, 1 h). Castration exerted no effect on the physicochemical properties of cytosol androgen receptor, but it increased the number of binding site to the female level.     

Binding of [3H]triamcinolone acetonide-receptor complexes to chromatin from the B-cell leukemia line, BCL1

The binding characteristics of partially purified glucocorticoid receptor complexes from hormone sensitive, non-differentiating BCL1 cells to sequentially deproteinized BCL1 chromatin-cellulose was investigated. [3H]Triamcinolone acetonide (TA)-receptor complexes were purified (approx. 30-fold) from DEAE-cellulose columns by salt elution which allowed receptor activation only in the absence of molybdate. Addition of 10 mM molybdate completely blocked salt activation. The binding pattern of the activated [3H]TA-receptor complexes to chromatin-cellulose extracted with 0-8 M guanidine hydrochloride revealed three regions of increased binding activity (acceptor sites), at 2, 5 and 7 M guanidine hydrochloride. Acceptor site binding was markedly reduced for chromatin extracted with 3, 6 and 8 M guanidine hydrochloride. Non-activated receptor complexes demonstrated very low binding to deproteinized chromatin. It was also shown that chromatin binding required glucocorticoid receptors and that free ligand or ligand bound to other proteins did not bind significantly to chromatin. In addition, binding of [3H]TA-receptor complexes to partially deproteinized chromatin was competable by unlabeled TA-receptor complexes. Scatchard analysis demonstrated that chromatin from non-differentiating BCL1 cells possesses multiple, high-affinity binding sites which differ in their affinity for the glucocorticoid receptor. Partially deproteinized chromatin from lipopolysaccharide-stimulated BCL1 cells demonstrated a different pattern of receptor binding, i.e., receptor binding was significantly greater to chromatin previously extracted with 6-8 M guanidine hydrochloride. These results suggest that differentiation alters the state of chromatin and the interaction of non-histone protein/DNA acceptor sites with glucocorticoid receptors. These alterations may play a role in the acquisition of hormone resistance.     

Androgen binding in peripheral tissues of fetal rhesus macaques: effects of androgen metabolism in liver

In rhesus monkeys sexual differentiation of the brain and reproductive tract (RT) is androgen-dependent. Presumably these effects are mediated through the androgen receptor (AR). The AR has not been characterized in fetal tissues such as liver, kidney, heart, spinal cord and RT in this species. We characterized AR binding using [3H]R1881 as the ligand in cytosols from tissues obtained on days 100-138 of gestation. Scatchard analyses revealed a single, saturable, high affinity AR in liver, kidney, heart, spinal cord and RT. The apparent dissociation constant (Kd) ranged from 0.52 to 0.85 nM with no significant tissue differences. The number of AR (Bmax; fmol/mg protein) differed significantly (P less than 0.01) between tissues (liver greater than RT much greater than kidney greater than or equal to heart greater than or equal to spinal cord). Radioinert testosterone (T) and 5 alpha-dihydrotestosterone (DHT) but not androstenedione, progesterone, estradiol-17 beta, estrone or cortisol in a 50-fold molar excess inhibited [3H]R1881 binding to the AR in spinal cord, heart, kidney and RT. However, in liver only DHT competed significantly (P less than 0.01) for binding. This difference in binding of DHT vs T in the liver was further investigated by incubating liver and kidney cytosols with [3H]DHT and [3H]T at 4 degrees C. We identified the metabolic products by mobility on Sephadex LH-20 columns and reverse isotope dilution. Liver cytosols metabolized [3H]DHT to 5 alpha-androstane- 3 alpha,17 beta-diol (5 alpha-diol) and [3H]T to 5 beta-androstane-3 alpha, 17 beta-diol (5 beta-diol) at 4 degrees C. In contrast, kidney cytosols metabolized [3H]DHT while [3H]T remained unchanged. Further studies indicated that a 50-fold molar excess of 5 alpha-diol inhibited the binding of [3H]R1881 in liver cytosols by about 50% whereas the same molar concentration of 5 beta-diol had no effect. These data demonstrate the presence of AR in peripheral tissues of fetal rhesus monkeys and suggest that androgens through their receptors may affect development of these tissues. Liver cytosols are capable of metabolizing T and DHT at 4 degrees C at conditions similar to those used for measuring cytosolic AR. However, T and DHT are metabolized differently, generating different isomers which have different affinities for hepatic AR.     

An androgen-dependent pilosebaceous tumor spontaneously developed in the Japanese house musk shrew Suncus murinus

Following administration of [3H]testosterone to castrated male Japanese house musk shrews (Suncus murinus), radioactive metabolites were detected in sidegland nuclei and the major one of them was dihydrotestosterone (DHT). The androgen binding capacity of the cytoplasmic fraction of sideglands was measured in vitro by the use of [3H]R1881 as a ligand. The binding showed a high affinity for R1881 (Kd = 6.2 X 10(-10) M) and a low capacity (Bmax = 22 fmol/mg protein). Sucrose density gradient centrifugation brought about a peak of [3H]R1881 in the 7S region in low ionic strength buffer. Their characteristics as described above are consistent with those of other androgen target organs. A cutaneous pilosebaceous tumor, which spontaneously developed on the sidegland of old male S. murinus, was transplanted to nude athymic mice. It grew in males only and failed to grow in females and castrated males. A specific androgen binding was found in this tumor (Kd = 7.8 X 10(-10) M, Bmax = 100 fmol/mg protein). Therefore, this transplantable pilosebaceous tumor is androgen-dependent and can be utilized as a new suitable model in the study of the mechanism of androgen on tumor development.     

Molecular and hormone-binding properties of a partially purified preparation of androgen receptors from the liver of male rats

Liver cytosol of mature male rats was found to contain androgen receptors (AR). These AR were purified 7--10-fold, and their molecular and hormone-binding properties were investigated. It was found that the AR molecules have a sedimentation coefficient of 9.3 +/- 0.15 and 4.7 +/- 0.11 S, Stokes radius of 6.5 +/- 0.25 and 3.2 +/- 0.08 nm, Mr of 263000 and 65700 Da and friction coefficient ratio of 1.55 and 1.22 for low and high ionic strength media, respectively. The values of rate constants of [3H]methyltrienolone (R1881) association with AR and for the dissociation of the complexes formed are equal to (0.66 +/- 0.29). .10(5) M-1 s-1 and to (0.68 +/- 0.08).10(-5) s-1, respectively, whereas those of equilibrium association constant--to (1.4 +/- 0.3).10(9) M-1 at 0-4 degrees C. It was shown that R1881, 5 alpha-dihydrotestosterone and testosterone strongly compete with 3H-R1881 for the binding with AR (as can be judged from the relative competitive activity of 35 nonlabeled hormonal agents); 19-nortestosterone and delta1-testosterone are more weak, whereas 5 alpha-androstandiols, some hydroxy derivatives of testosterone, cyproterone acetate, estradiol and progesterone are moderate competitors. Other natural testosterone, estradiol and progesterone metabolites as well as corticosteroids do not compete or weakly compete with 3H-R1881 for the binding to AR. It is concluded that the properties of AR are similar to those of classical type AR and that they can intermediate most of the direct effects of androgens on the liver.     

Human placenta contains a high affinity R1881 binding site that is not the androgen receptor

Human placental cytosol was shown to contain a species that binds the synthetic androgen, methyltrienolone (R1881) with high affinity (Kd 6.5 nM). Major differences were found between this placental androgen binding species and the classical androgen receptor found in human foreskin cytosol. Competitive binding assays in the placental cytosol using [3H]R1881 as tracer showed a 200-fold excess of testosterone to compete poorly, while dihydrotestosterone and the synthetic androgen mibolerone did not compete at all. The placental R1881 binding component was found not to bind to hydroxylapatite, although all classes of steroid receptors are reported to do so. Temperature studies showed that the placental binding site is stable at elevated temperatures with no loss of binding after 4 h at 45 degrees C. Ion exchange chromatography showed that the placental R1881 binding site eluted from DEAE cellulose at a lower salt concentration than foreskin androgen receptors. These results show that R1881 is not entirely specific for androgen receptors and that human placenta contains an androgen binding site that is not the classical androgen receptor.     

Interaction of rat liver glucocorticoid receptor with a newly synthesized antisteroid ZK98299

Steroid receptor antagonists are important biochemical probes for understanding the mode of steroid hormone action. We have studied the interaction between rat liver glucocorticoid receptor and a newly synthesized antisteroid ZK98299 (13-antigestagen; [11-beta-(4-dimethylaminophenyl)-17a-hydroxy-17 beta-(3- hydroxypropyl)-13 alpha-methyl-4,9-gonadien-3-one]). Glucocorticoid receptor from freshly prepared hepatic cytosol bound [3H]ZK98299 with affinity approximately equal to that of [3H]triamcinolone acetonide. The binding of both steroids reached a maximum at 4 h at 0 degrees C. Both ligands were able to compete for the steroid binding site but progesterone, estradiol and dihydrotestosterone (DHT) failed to compete for the [3H]ZK98299 and [3H]triamcinolone acetonide binding. While [3H]ZK98299 binding to glucocorticoid receptor could occur in the presence of iodoacetamide and N-ethylmaleimide (NEM), [3H]triamcinolone acetonide binding capacity was completely abolished following such treatments. The [3H]ZK98299-receptor complexes sedimented as 9 S and 4 S molecules under control (4 degrees C) and receptor transforming (23 degrees C) conditions, and exhibited a faster rate of dissociation at 23 degrees C when compared with [3H]triamcinolone acetonide-receptor complexes. These results indicate that ZK98299 interacts with hepatic glucocorticoid receptor. The differential effects of iodoacetamide and NEM on the interaction of glucocorticoid receptor with ZK98299 and triamcinolone acetonide, and the faster rate of dissociation of [3H]ZK98299-receptor complexes suggest that treatment with these agents (NEM and iodoacetamide) results in distinct conformational changes in glucocorticoid receptor structure with respect to triamcinolone acetonide and ZK98299 binding. Alternatively, ZK98299 may be interacting with a site which is distinct from one which accepts triamcinolone acetonide.     

Evidence that pH induced activation of the rat hepatic glucocorticoid-receptor complex is irreversible

The possible reversibility of pH induced activation of the glucocorticoid-receptor complex was studied. Generally, this was accomplished by activating rat liver cytosol at pH 8.5 (15 degrees C, 30 min), and then returning it to pH 6.5 for a second incubation (15 degrees C, 30 min). Activation was quantitated by measuring the binding of [3H]triamcinolone acetonide [( 3H]TA)-receptor complexes to DNA-cellulose. When cytosol was incubated at pH 6.5, only 4.1% of the [3H]TA-receptor complexes bound to DNA-cellulose. However, 39.2% of the complexes bound when the cytosol was pH activated. When pH activation was followed by a second incubation at pH 6.5, 47.0% of the steroid-receptor complexes bound. Thus, according to the DNA-cellulose binding assay, pH induced activation was irreversible. In order to visualize both activated and unactivated [3H]TA-receptor complexes during this process, diethylaminoethyl (DEAE)-cellulose chromatography was performed. When cytosol was incubated at pH 6.5, only 19.6% of the [3H]TA-receptor complexes were eluted in the activated form from DEAE-cellulose. However, 67.5% of the complexes were eluted in the activated form when cytosol was pH activated. When pH activation was followed by a second incubation at pH 6.5, 74.9% of the steroid-receptor complexes were eluted in the activated form. Thus, DEAE-cellulose chromatography also showed that pH induced activation was irreversible. This is the first known report that the combination of DNA-cellulose binding and DEAE-cellulose chromatography have been used to study pH induced activation of the glucocorticoid-receptor complex. By these criteria, we conclude that in vitro pH induced activation is irreversible.     

Androgen receptor in human placental villi

In studies with a synthetic androgen, R 1881, an androgen-binding component was found in the cytosol of human placental villi. Kinetic analysis indicated that the Kd value of this component was 1.4 nM at 0-4 degrees C and that binding of R 1881 amounted to 277 +/- 73 fmol/mg protein. glycerol density gradient ultracentrifugation showed a peak of binding activity in the 8S region in a medium of low ionic strength, but in the 4.5S region in a medium containing 9.5 M KCl. The R 1881-binding component was inactivated by mild heat- or trypsin-treatment, but not by treatment with DNase or RNase. Most of the R 1881-binding activity was sedimented at 20 to 40% saturation of ammonium sulfate. These findings indicate that the R 1881-binding component in human placental cytosol is quite similar in its characteristics to androgen receptors, which are present in various androgen-responsive organs. Testosterone was a more potent competitor of R 1881-binding than DHT or cyproterone acetate. Scatchard plots indicated that the binding site of testosterone was identical with that of R 1881. These findings suggest that the androgen receptor in placental cytosol is specific for testosterone. The Kd value for testosterone was calculated to be 3.2 nM.     

Ketoconazole binds to the human androgen receptor.

Ketoconazole, an imidazole anti-fungal agent, has often produced features of androgen deficiency including decreased libido, gynecomastia, impotence, oligospermia, and decreased testosterone levels, in men being treated for chronic mycotic infections. Based on these potent effects on gonadal function in vivo as well as previous work in vitro demonstrating affinity of ketoconazole for receptor proteins for glucocorticoids and 1,25(OH)2 vitamin D3 and for sex steroid binding globulin (SSBG), the binding of ketoconazole to human androgen receptors (AR) in vitro was also examined. Ketoconazole competition with [3H]methyltrienolone (R1881) for androgen binding sites in dispersed, intact cultured human skin fibroblasts was determined at 22 degrees C. Fifty percent displacement of [3H]R1881 binding to AR was achieved by 6.4 +/- 1.8 (SE) x 10(-5) M ketoconazole. Additional binding studies performed with ketoconazole in the presence of increasing amounts of [3H]R1881 showed that the interaction of ketoconazole with AR was competitive when the data were analyzed by the Scatchard method. It should be noted, however, that the dose of ketoconazole required for 50% occupancy of the androgen receptor is not likely to be achieved in vivo, at least in plasma. Finally, androgen binding studies performed with other imidazoles, such as clotrimazole, miconazole, and fluconozole, revealed that in this class of compounds only ketoconazole appears to interact with the androgen receptor. Ketoconazole appears to be the first example of a non-steroidal compound which binds competitively to both SSBG and multiple steroid hormone receptors, suggesting that the ligand binding sites of these proteins share some features in common.     

In vitro activation and DNA binding affinity of human lymphoid (CEM-C7) cytoplasmic receptors labeled with the antiglucocorticoid RU 38486

The data reported here demonstrate that the synthetic steroid RU 38486 functions as an optimal antagonist in the glucocorticoid-sensitive human leukemic cell line CEM-C7. This steroid blocks the ability of the potent agonist triamcinolone acetonide (TA) to induce glutamine synthetase activity and to ultimately cause cell lysis, but when given alone does not exhibit partial agonist activity. Both [3H]RU 38486 and [3H]TA bind with high affinity and specificity to cytosolic glucocorticoid receptors in this cell line. However, under a variety of in vitro conditions (elevated temperature and presence of exogenous ATP), [3H]TA promotes receptor activation more effectively than [3H]RU 38486. This difference in the extent of activation was verified by two independent techniques: DEAE-cellulose chromatography and DNA-cellulose binding. [3H]RU 38486 and [3H]TA dissociate at the same rate from the unactivated receptors but at 25 degrees C (not 0 degree C) [3H]RU 38486 dissociates slightly more rapidly from the activated receptors. The defective receptors in the glucocorticoid-resistant subclone 3R7 appear to be "activation labile" (rapid dissociation of ligand from activated form) using either tritiated steroid. Once activated in vivo, the CEM-C7 [3H]TA- and [3H]RU 38486-receptor complexes undergo similar nuclear translocation and those activated complexes generated in vitro appear to bind to nonspecific DNA-cellulose with the same relative affinities. Thus the precise mechanism(s) by which RU 38486 exerts its potent antiglucocorticoid effect in this human cell line cannot be easily explained in terms of a defect in one of the crucial steps (specific high affinity binding, activation, translocation, DNA binding) required to elicit a physiological response. However, the data presented here do suggest that when comparing an antagonist and agonist which both bind to receptors with the same relative high affinity, the agonist may be more effective in facilitating the conformational change associated with in vitro activation.