metribolone and mibolerone

We have characterized two different mutations of the human androgen receptor (hAR) found in two unrelated subjects with androgen insensitivity syndrome (AIS): in one, the external genitalia were ambiguous (partial, PAIS); in the other, they were male, but small (mild, MAIS). Single base substitutions have been found in both individuals: E772A in the PAIS subject, and R871G in the MAIS patient. In COS-1 cells transfected with the E772A and R871G hARs, the apparent equilibrium dissociation constants (Kd) for mibolerone (MB) and methyltrienolone are normal. Nonetheless, the mutant hAR from the PAIS subject (E772A) has elevated nonequilibrium dissociation rate constants (k(diss)) for both androgens. In contrast, the MAIS subject's hAR (R871G) has k(diss) values that are apparently normal for MB and methyltrienolone; in addition, the R871G hAR's ability to bind MB resists thermal stress better than the hAR from the PAIS subject. The E772A and R871G hARs, therefore, confer the same pattern of discordant androgen-binding parameters in transfected COS-1 cells as observed previously in the subjects' genital skin fibroblasts. This proves their pathogenicity and correlates with the relative severity of the clinical phenotype. In COS-1 cells transfected with an androgen-responsive reporter gene, trans-activation was 50% of normal in cells containing either mutant hAR. However, mutant hAR-MB binding is unstable during prolonged incubation with MB, whereas normal hAR-MB binding increases. Thus, normal equilibrium dissociation constants alone, as determined by Scatchard analysis, may not be indicative of normal hAR function. An increased k(diss) despite a normal Kd for a given androgen suggests that it not only has increased egress from a mutant ligand-binding pocket, but also increased access to it. This hypothesis has certain implications in terms of the three-dimensional model of the ligand-binding domain of the nuclear receptor superfamily.

Topics: Amino Acid Sequence; Androgen-Insensitivity Syndrome; Androgens; Animals; COS Cells; Drug Stability; Female; Hot Temperature; Humans; Male; Metribolone; Molecular Sequence Data; Mutagenesis, Site-Directed; Nandrolone; Point Mutation; Receptors, Androgen; Testosterone Congeners; Transcriptional Activation; Transfection

Natural and pharmacological androgen receptor (AR) ligands were tested for their ability to induce the AR NH2-terminal and carboxyl-terminal (N/C) interaction in a two-hybrid protein assay to determine whether N/C complex formation distinguishes in vivo AR agonists from antagonists. High-affinity agonists such as dihydrotestosterone, mibolerone, testosterone, and methyltrienolone at concentrations between 0.1 and 1 nM induce the N/C interaction more than 40-fold. The lower affinity anabolic steroids, oxandrolone and fluoxymesterone, require concentrations of 10-100 nM for up to 23-fold induction of the N/C interaction. However no N/C interaction was detected in the presence of the antagonists, hydroxyflutamide, cyproterone acetate, or RU56187, at concentrations up to 1 microM, or with 1 microM estradiol, progesterone, or medroxyprogesterone acetate; each of these steroids at 1-500 nM inhibited the dihydrotestosterone-induced N/C interaction, with medroxyprogesterone acetate being the most effective. In transient and stable cotransfection assays using the mouse mammary tumor virus reporter vector, all ligands displayed concentration-dependent AR agonist activity that paralleled induction of the N/C interaction, with antagonists and weaker agonists failing to induce the N/C interaction. AR dimerization and DNA binding in mobility shift assays and AR stabilization reflected, but were not dependent on, the N/C interaction. The results indicate that the N/C interaction facilitates agonist potency at low physiological ligand concentrations as detected in transcription, dimerization/DNA binding, and stabilization assays. However the N/C interaction is not required for agonist activity at sufficiently high ligand concentrations, nor does its inhibition imply antagonist activity.

Topics: Androgen Antagonists; Androgen Receptor Antagonists; Androgens; Animals; COS Cells; Dihydrotestosterone; Dimerization; DNA; Dose-Response Relationship, Drug; Imidazoles; Luciferases; Mammary Tumor Virus, Mouse; Medroxyprogesterone Acetate; Metribolone; Mice; Nandrolone; Nitriles; Peptide Fragments; Progesterone Congeners; Receptors, Androgen; Recombinant Proteins; Testosterone Congeners; Transcription, Genetic; Transfection

In addition to modulation of cell proliferation and stimulation of prostate-specific antigen secretion, one of the most striking effects of androgens on the human prostate cancer cell line LNCaP is the accumulation of neutral lipids. These lipids are synthesized de novo, suggesting that LNCaP cells express all enzymes required for endogenous lipogenesis and that the expression and/or activity of some of these enzymes is affected by androgens. One of the key enzymes involved in lipogenesis is fatty acid synthase (FAS), a potential prognostic enzyme and therapeutic target that is found to be frequently overexpressed in a variety of cancers including prostate cancer. Here, using Northern blot analysis, the gene encoding FAS is shown to be abundantly expressed in LNCaP cells and in two other prostate cancer cell lines tested (PC-3 and DU-145). In LNCaP cells, androgen treatment (10(-8) M R1881) causes a 3-4-fold increase in FAS mRNA levels. Concomitantly with the increase in FAS gene expression, androgens induce a 10-12-fold stimulation of FAS activity. Effects are dose- and time-dependent and follow courses similar to those of the androgen induction of lipid accumulation. In support of the involvement of the androgen receptor, steroid specificity of regulation of FAS activity is in agreement with the aberrant ligand specificity of the mutated androgen receptor in LNCaP cells. Stimulation of FAS activity is inhibited by the antiandrogen Casodex (bicalutamide) and is absent in the androgen receptor-negative cell lines PC-3 and DU-145. Taken together, these data demonstrate that androgens, mediated by the androgen receptor, stimulate the expression and activity of FAS and suggest that stimulation of FAS activity represents at least part of the mechanism by which androgens induce the accumulation of neutral lipids in LNCaP cells.

Topics: Adenocarcinoma; Androgen Antagonists; Androgens; Anilides; Dihydrotestosterone; Dose-Response Relationship, Drug; Enzyme Induction; Fatty Acid Synthases; Gene Expression Regulation, Neoplastic; Humans; Lipids; Male; Metribolone; Nandrolone; Neoplasm Proteins; Nitriles; Prostatic Neoplasms; Receptors, Androgen; Testosterone; Testosterone Congeners; Tosyl Compounds; Tumor Cells, Cultured

Sex steroids control the proliferation of their target cells through two different pathways: 1) proliferative response (Step-1); and 2) inhibition of cell proliferation (Step-2). Mechanisms of cell proliferation regulation are incompletely understood; however, there is general agreement with the notion that sex steroid receptors play an important role in the control of the proliferation of sex steroid target cells. To test this hypothesis, a full human androgen receptor (AR) vector was transfected into human breast cancer MCF7 cells. The cloned cells that stably express the AR, called MCF7-AR1 cells, contained approximately five times more AR than the wild-type MCF7 cells from which they were derived. These AR-transfected cells retained their capacity to proliferate when estrogens were added to 10% charcoal-dextran stripped human serum but did not acquire the ability to proliferate when androgens were added to this medium. In serumless medium (ITDME), these cells proliferated maximally, as MCF7 cells did; however, natural and synthetic androgens prevented the AR-transfected cells from proliferating. Inhibition of cell proliferation occurred when physiological androgen concentrations (1 nM) were added to ITDME; this effect was almost completely reversed by Casodex, a synthetic androgen antagonist. Under the effect of androgens added to ITDME, MCF7-AR1 cells were arrested in the G0/G1 phase within 24 h. These data suggest that: 1) the androgen-induced inhibition of cell proliferation (Step-2) is AR-mediated; and 2) the AR may be necessary, but not sufficient, to mediate the androgen-induced proliferative response (Step-1).

Topics: Androgen Antagonists; Androgens; Anilides; Blotting, Western; Breast Neoplasms; Cell Cycle; Cell Division; Dihydrotestosterone; Dose-Response Relationship, Drug; Female; Flutamide; Humans; In Vitro Techniques; Metribolone; Nandrolone; Nitriles; Receptors, Androgen; Testosterone; Testosterone Congeners; Tosyl Compounds; Transfection; Tumor Cells, Cultured

During our studies of the hepatic androgen receptor in cynomolgus monkeys, tritiated mibolerone +/- a 200-fold excess of unlabeled mibolerone has been used to determine specific binding in cytosol. During time-course studies, high-capacity, unsaturable binding of [3H]mibolerone was noted after short-term incubations (4 h, 4 degrees C). When hepatic cytosol from male monkeys was incubated for 18 h at 4 degrees C, the high-capacity binding disappeared; saturable, high-affinity binding with characteristics consistent with the androgen receptor then could be identified. The characterization of [3H]mibolerone binding in molybdate-stabilized hepatic cytosol using sucrose density gradients and gel filtration yielded an unstable binding peak in addition to that of the androgen receptor. This lower molecular weight protein identified by gel filtration did not bind other androgens, including methyltrienolone, and did not have characteristics of other binding proteins that have been identified previously. This protein was not precipitated from 30% ammonium sulfate, which allowed it to be separated from the androgen receptor. Binding to this protein in ovariectomized female monkeys did not disappear with extended incubation at 4 degrees C, suggesting greater stability or a higher capacity. The function of this protein is not known, but both triamcinolone acetonide and contraceptive progestins appeared to displace tritiated mibolerone that was bound to it. This high-capacity binding of mibolerone interferes in the assessment of androgen receptor levels in these females unless it is eliminated. The synthetic androgen methyltrienolone does not bind to this protein and is a better choice for defining binding to the androgen receptor in these tissues.

Topics: Ammonium Sulfate; Animals; Binding, Competitive; Chemical Precipitation; Chromatography, Affinity; Chromatography, Liquid; Cytosol; Dihydrotestosterone; Estradiol; Female; Liver; Macaca fascicularis; Male; Metribolone; Molecular Structure; Nandrolone; Ovariectomy; Proteins; Receptors, Androgen

The baculovirus system is able to generate large amounts of a protein, permitting detailed analysis of structure-function relations. We have used this system to overexpress and characterize normal human androgen receptors (hAR) and mutant hARs from humans with complete or partial androgen insensitivity. Maximum specific binding of [3H]mibolerone (MB) in recombinant baculovirus-infected Spodoptera frugiperda (Sf9) cells varied from 15 to 40 pmol/mg protein, about 1000-fold higher than in genital skin fibroblasts, and peaked 48-72 h after infection. In contrast, Coomassie blue staining and Western blotting revealed maximum accumulation of 100-120 kDa hAR proteins 96 h post-infection. Normal and mutant hARs were specifically photo-affinity-labeled with [3H]methyltrienolone (MT), and had normal steroid-binding selectivity: the order of competition was androgen > estrogen > progestin > glucocorticoid. Normal hAR was phosphorylated in Sf9 cells, reacted with antibodies against phosphoserine and phosphothreonine after purification using testosterone-biotin, and transactivated a transfected androgen response element-luciferase reporter in infected Sf9 cells. Two mutant hARs had increased rates of dissociation from MB and MT that were in accord with the associated degree of clinical androgen insensitivity: complete, Pro903Ser > partial, Leu820Val; the third, Ile663Asn, was not abnormal. Our data extend the characterization of normal hAR produced by baculovirus-infected Sf9 cells, and demonstrate, for the first time, that point-mutated hARs so produced can display distinctive biochemical phenotypes.

Topics: Amino Acid Sequence; Animals; Baculoviridae; Base Sequence; Binding, Competitive; Blotting, Western; Cell Line; Cells, Cultured; Electrophoresis, Polyacrylamide Gel; Histidine; Humans; Kinetics; Male; Metribolone; Molecular Sequence Data; Mutagenesis, Site-Directed; Nandrolone; Phosphorylation; Point Mutation; Receptors, Androgen; Recombinant Proteins; Sequence Tagged Sites; Skin; Spodoptera; Structure-Activity Relationship; Substrate Specificity; Testosterone Congeners; Transcriptional Activation; Transfection

To study the mechanisms by which androgens intervene in the regulation of growth and differentiation of human prostatic epithelial cells, cDNA clones encoding putative prostate-secreted proteins were characterized and tested as potential markers for androgen action. One of the isolated cDNAs expressed diazepam-binding inhibitor/acyl-CoA-binding protein (DBI/ACBP), suggesting that this polypeptide, that has been implicated in a large number of biochemical processes, is expressed and secreted by prostate cells. As demonstrated by Northern blot analysis, the mRNA encoding DBI/ACBP was expressed in prostate tissue and in the three human prostatic adenocarcinoma cell lines tested: LNCaP, PC-3 and DU-145. In androgen-sensitive LNCaP cells, the synthetic androgen R1881 stimulated the DBI/ACBP steady state mRNA levels with half maximal effects at a concentration of 0.2 nM. Increases were a maximal 12 h after addition of the synthetic hormone. DBI/ACBP mRNA levels could also be stimulated by the synthetic androgen mibolerone and by the natural androgens testosterone and dihydrotestosterone. In agreement with the altered steroid specificity of the androgen receptor in LNCaP cells, estradiol and progesterone also exerted a stimulatory effect. Cortisol and the synthetic glucocorticoid dexamethasone were without effect. Androgen stimulation of DBI/ACBP mRNA levels was abolished in the presence of the protein synthesis inhibitor cycloheximide, implying a role for labile or androgen-induced proteins in this androgen stimulation. This is in contrast to the androgen stimulation of the mRNA encoding prostate-specific antigen (PSA), suggesting that different mechanisms are involved in the androgen regulation of these two genes. Although further experiments are required to confirm that DBI/ACBP is secreted by prostatic epithelial cells, these data demonstrate that the mRNA encoding DBI/ACBP is expressed in prostate cells and is affected by androgens in androgen-responsive LNCaP cells.

Topics: Adenocarcinoma; Androgens; Blotting, Northern; Carrier Proteins; Cloning, Molecular; Cycloheximide; Diazepam Binding Inhibitor; Dihydrotestosterone; DNA, Complementary; Humans; Immune Sera; Male; Metribolone; Nandrolone; Prostate; Prostate-Specific Antigen; Prostatic Neoplasms; RNA, Messenger; Testosterone; Tumor Cells, Cultured

We have prepared nine androgens substituted with fluorine at C-16 or C-20 to evaluate their potential, as positron emission tomographic (PET) imaging agents for prostatic cancer when labeled with the positron emitting radionuclide fluorine-18 (t1/2 = 110 min). These compounds represent members from the following classes of androgens: testosterone (T), 5 alpha-dihydrotestosterone (DHT), 7 alpha-methyl-19-nortestosterone (MNT), mibolerone (Mib), and metribolone (R1881). All of these compounds were prepared by functionalization of suitable androgen precursors, and the synthetic routes were developed to allow the introduction of fluorine by a fluoride ion displacement reaction late in the synthesis, as is required for the preparation of these compounds in fluorine-18 labeled form. We have also prepared four androgens in which the C-3 carbonyl or 17 beta-hydroxyl groups are replaced by fluorine. Most of the fluorine-substituted androgens show high affinity for the androgen receptor (AR), although fluorine substitution lowers their affinity by a small factor. None of the androgens where fluorine replaces oxygen functions at C-3 or C-17 have substantial affinity for AR. Derivatives of the natural androgens (T and DHT) as well as MNT have little affinity for other steroid hormone receptors (progesterone and mineralocorticoid receptors), whereas the Mib and R1881 derivatives have somewhat greater heterologous binding. With sex steroid binding protein, a human serum binding protein, the pattern of binding affinities is nearly the reverse, with derivatives of Mib, R1881 and MNT having low affinity, and DHT and T, high affinity. From these fluorine-substituted compounds, we can select several whose preparation in fluorine-18 labeled form for further tissue distribution studies is merited.

Topics: Androgens; Animals; Dihydrotestosterone; Estrenes; Fluorine; Male; Metribolone; Molecular Conformation; Molecular Structure; Nandrolone; Prostate; Prostatic Neoplasms; Rats; Receptors, Androgen; Structure-Activity Relationship; Testosterone; Tomography, Emission-Computed

We have characterized intracellularly the androgen-receptor (A-R) complexes formed by genital skin fibroblasts from 2 unrelated males with qualitative defects of the androgen receptor: one has a small nonhypospadic penis as part of a syndrome of mild androgen resistance; the other was born with ambiguous external genitalia. The dissociation rate constants of testosterone, methyltrienolone (MT), dihydrotestosterone (DHT) and mibolerone (MB) from normal androgen receptors were determined at various temperatures: when plotted by the method of Arrhenius, they yielded a linear hierarchy of dissociation states with energies of state IV greater than III greater than II greater than I, respectively. Relative to this hierarchy, patient A-R complexes were displaced to higher, androgen-inappropriate energies in a mutant-distinctive pattern. MB- or MT-R complexes of both patients were thermolabile; however, both up-regulated normally in response to prolonged incubation with either hormone. Apparent equilibrium affinity constants (Kd) of the DHT- and MB-R complexes formed by both patients were normal; however, the binding capacity (Bmax) for MB in 1 case was subnormal. The distinctive biochemical phenotypes of A-R complexes in these 2 patients with androgen resistance will facilitate the definition of structure-function relations in the androgen receptor, a classical DNA-binding, transcription-regulating protein.

Topics: Adolescent; Androgens; Child, Preschool; Dihydrotestosterone; Drug Resistance; Fibroblasts; Genitalia, Male; Humans; Male; Metribolone; Nandrolone; Receptors, Androgen; Testosterone; Thermodynamics

A comparative study of the tissue distribution of five tritium-labeled androgens was done in rats to determine the efficiency and selectivity of their uptake by target tissue. Testosterone (T), 5 alpha-dihydrotestosterone (DHT), 19-nortestosterone (nor-T), mibolerone (Mib) and methyltrienolone (R1881) all showed selective uptake by the ventral prostate in one-day castrated rats (250 g) that was 61-90% displaceable by co-injection of an excess of unlabeled steroid. The greatest uptake was with R1881 (0.69% injected dose per gram prostate tissue (%ID/g) at 1 h), and Mib (0.56% ID/g); the other three showed lower uptake (approx. 0.4% ID/g). The target tissue activity remained high for all compounds up to 4 h after injection, and at 2-4 h the prostate to blood ratio for Mib and R1881 exceeded 10 and 20, respectively. The uptake efficiency and selectivity of these five androgens appear to be related to their affinity for the androgen receptor and their resistance to metabolism. Mib and R1881 have substantial affinity for other steroid receptors, which might account for some of their prostate uptake. However, co-administration of triamcinolone acetonide, which has high affinity for progesterone and corticosteroid receptors but not for the androgen receptor, failed to block their uptake significantly, whereas co-administration of DHT, the most selective ligand for the androgen receptor, blocked their uptake as completely as the unlabeled tracer itself. The prostate uptake of Mib and R1881 in intact animals was significantly lower than in castrated animals, but treatment of the intact animals with diethylstilbestrol restored their uptake nearly to the level seen in castrated animals. These uptake patterns are consistent with earlier studies of in vivo androgen uptake and with known changes in androgen receptor content and occupancy as a result of castration or diethylstilbestrol treatment. They further suggest that high affinity androgens labeled with suitable radionuclides--particularly derivatives of mibolerone (Mib) or methyltrienolone (R1881)--may be effective receptor-based imaging agents for androgen target tissues and tumors, even when patients are already receiving hormonal therapy.

Topics: Androgens; Animals; Binding, Competitive; Diethylstilbestrol; Dihydrotestosterone; Male; Metribolone; Nandrolone; Orchiectomy; Prostate; Rats; Rats, Inbred Strains; Receptors, Androgen; Testosterone; Tissue Distribution

We have incubated cells from controls and subjects with receptor-defective androgen resistance with 3H-labelled testosterone (T), methyltrienolone (MT), dihydrotestosterone (DHT) or mibolerone (MB) and studied the temperature dependence of the dissociation rate constants of these various androgen-receptor (A-R) complexes both within cells and after they were extracted from them. In control cells, Arrhenius plots for T-, MT-, DHT- and MB-R complexes were linear and formed a hierarchy of dissociation states with energies of state IV greater than III greater than II, greater than I, respectively. Relative to this hierarchy, the dissociation states of the MB-, DHT- and MT-R complexes in mutant cells were displaced to higher, androgen-inappropriate energies in a mutant-distinctive pattern. When extracted from cells control or mutant T- or MT-R complexes, and mutant (but not control) DHT- or MB-R complexes lowered their respective dissociation rates by undergoing state transitions in conformity with the hierarchy. Hence we propose that different A-R complexes reach different dissociative states by undergoing sequential transitions along a common pathway, and that these transitions are co-regulated both by the chemical characteristics of the bound androgen and by other cellular non-receptor factors.

Topics: Cells, Cultured; Dihydrotestosterone; Drug Resistance; Energy Transfer; Female; Fibroblasts; Genitalia, Female; Humans; Male; Metribolone; Models, Biological; Mutation; Nandrolone; Receptors, Androgen; Scrotum; Skin; Temperature; Testosterone

The metabolism of DHT in the cytosol of the quail uropygial gland was found to be so high that the steroid was almost completely inactivated within 2 hours of incubation at 0 C. In these conditions, DHT cannot be used for the characterization of androgen receptors. By contrast, R 1881 and mibolerone, which are not metabolized, can be used as alternative ligands. Moreover, the extremely high metabolism of DHT questions the physiologic role of this steroid in the quail uropygial gland.

Topics: Animals; Cytosol; Dihydrotestosterone; Male; Metribolone; Nandrolone; Quail; Receptors, Androgen; Sebaceous Glands; Testosterone; Testosterone Congeners

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.

Topics: Cytosol; Estrenes; Humans; Kinetics; Male; Metribolone; Nandrolone; Penis; Placenta; Receptors, Androgen; Structure-Activity Relationship

The authors examined the binding nature of mibolerone in cytosols of hypertrophic prostates from 15 patients to androgen receptor using Dextran-charcoal assay, analyzed it by the method of Scatchard, and compared it with that of R1881. The addition of triamcinolone acetonide into the incubation medium induced specific single binding of mibolerone to androgen receptor with high affinity as well as R1881. The receptor contents obtained with mibolerone were higher than those of R1881, and both of them correlated well. The dissociation constants of both ligands showed good correlation and no significant differences. Mibolerone seems to be as suitable a ligand as R1881 for measuring the androgen receptor.

Topics: Estrenes; Humans; In Vitro Techniques; Male; Metribolone; Nandrolone; Prostate; Receptors, Androgen; Triamcinolone

In rat uterus and prostate, 7 alpha, 17 alpha-dimethyl-19-nortestosterone (DMNT) binds to the androgen receptor specifically and with high affinity. However, this steroid does not bind to glucocorticoid receptors, since it does not displace binding of [3H]triamcinolone acetonide in calf thymus cytosol. In calf uterine and human breast tumor cytosols DMNT binds to the androgen and progesterone receptors, since binding of [3H] DMNT is displaced by unlabeled 16 alpha-ethyl-21-hydroxy-19-nor-4-pregnene-3, 20-dione triamcinolone acetonide, and 5 alpha-dihydrotestosterone (DHT). Conversely, binding of [3H]16 alpha-ethyl-21-hydroxy-19-nor-4-pregnene-3,20-dione is effectively competed for by unlabeled DMNT but not by DHT. The observed differences in binding of [3H]DMNT to rat and calf uterine cytosols suggest the species specificity of progesterone receptors. Unlike DHT, DMNT has no appreciable binding to human sex-steroid binding globulin. These findings suggest DMNT as a suitable ligand for measurement and characterization of androgen receptors in rat and human prostate.

Topics: Animals; Blood Proteins; Breast; Cattle; Cell Nucleus; Cytosol; Dihydrotestosterone; Estrenes; Female; Humans; Male; Metribolone; Nandrolone; Pregnenediones; Prostate; Prostatic Hyperplasia; Rats; Rats, Inbred Strains; Receptors, Androgen; Receptors, Progesterone; Substrate Specificity; Uterus

Accurate quantitation of androgen receptors requires a radioactive ligand which has affinity and specificity for the receptor and which is stable to metabolic enzymes. In this report, we have characterized the properties of 7 alpha,17 alpha-dimethyl-17 beta-hydroxy-4-estren-3-one (mibolerone) in human benign hyperplastic prostate cytosol and compared them to those of 17 beta-hydroxy-17 alpha-methyl-estra-4,9,11-trien-3-one (R1881). Mibolerone was found to have an affinity (Kd = 1.5 nM) greater than R1881. (Kd = 2.3 nM) for the androgen receptor in human prostate tissue. Surprisingly, mibolerone was found to bind with high affinity to the progesterone receptor in both human prostate (Kd = 5.9 nM) and rabbit uterus (Kd = 1.1 nM). However, binding to this receptor in both species could be blocked with a 500-fold excess of triamcinolone acetonide. [3H]Mibolerone binding to the androgen receptor was competed effectively with unlabeled dihydrotestosterone, R1881, and mibolerone but not by progesterone, diethylstilbestrol or R5020, in the presence of triamcinolone acetonide. Interestingly, mibolerone was more resistant to metabolism than R1881 in prostate cytosol when exposed to elevated temperatures (30 degrees C) for extended periods of time. However, when exposed to high-intensity ultraviolet irradiation, both compounds lost 50% of their binding ability in about 30 minutes. Mibolerone was found to have a very low affinity (Ki = 540 nM) for human sex steroid binding protein. These studies demonstrate that mibolerone is a useful ligand for androgen receptor assays. They also emphasize the need for including competitors of progesterone receptor binding in assays utilizing this steroid for androgen receptor measurements.

Topics: Animals; Chemical Phenomena; Chemistry; Dihydrotestosterone; Estrenes; Female; Humans; Male; Metribolone; Nandrolone; Promegestone; Prostate; Prostatic Hyperplasia; Rabbits; Receptors, Androgen; Receptors, Progesterone; Testosterone

Nuclear and cytosolic androgen receptor concentrations in tissues of human benign prostatic hypertrophy (BPH) were determined by use of methyltrienolone (R-1881) and 7 alpha,17 alpha-dimethyl-19-nortestosterone (DMNT) as radiolabeled ligands. Cytosolic R-1881-binding sites were 46.1 +/- 43 fmol/mg protein and nuclear R-1881-binding sites were 51.8 +/- 42 fmol/mg protein. DMNT-binding sites in cytosol were 44.3 +/- 38 fmol/mg protein and in nuclear extract 73.4 +/- 64 fmol/mg protein. No significant correlation was found between the number of R-1881- and DMNT-binding sites in either cytosol or nuclear extracts. Cytosolic or nuclear androgen receptor content was not significantly correlated with the percentage of epithelial or stromal cells as determined from the corresponding histological sections. In BPH tissue with marked cystic degeneration, very low androgen receptor levels were found.

Topics: Cell Nucleus; Cytoplasm; Cytosol; Epithelium; Estrenes; Humans; Male; Metribolone; Nandrolone; Promegestone; Prostate; Prostatic Hyperplasia; Radioligand Assay; Receptors, Androgen; Receptors, Progesterone; Testosterone Congeners

The synthetic radiolabelled androgen mibolerone (7 alpha, 17 alpha-dimethyl-19-nortestosterone) was used to characterize androgen receptor binding in the seminiferous tubules from Cynomolgus monkey testis. Mibolerone binding was of high affinity (Kd = 0.6-5.4 nM) and limited capacity (37-50 fmol/mg protein), and was androgen specific. Sucrose density gradient centrifugation using a vertical tube rotor permitted the identification of a 9S molybdate-stabilized receptor under low salt conditions. The receptor bound to DEAE-cellulose. Methyltrienolone, but not mibolerone, also bound to a low affinity high capacity binding site in tubule cytosol, which probably represents glucocorticoid receptor binding, since it could be displaced by excess dexamethasone. However, occupancy of this low-affinity binding site by dexamethasone in an androgen receptor assay with [3H]methyltrienolone lead to a 33% underestimation of receptor binding, which appeared to relate to radioactive decomposition. Mibolerone, as well as methyltrienolone, bound to a progestin-binding protein in seminiferous tubule cytosol. These studies provide methods for the study of seminiferous tubule androgen receptors in subhuman primates and indicate that, due to its greater stability and lack of binding to glucocorticoid receptor, mibolerone is a useful new ligand in the study of androgen receptors in testis and its constituent cells.

Topics: Animals; Chromatography, DEAE-Cellulose; Dexamethasone; Estrenes; Macaca fascicularis; Male; Methods; Metribolone; Nandrolone; Receptors, Androgen; Seminiferous Tubules; Substrate Specificity; Testis; Ultracentrifugation

We have used 5 alpha-dihydrotestosterone (DHT) and two synthetic, non-metabolizable androgens, methyltrienolone (MT) and mibolerone (MB), to study intact genital skin fibroblasts from four subjects with familial incomplete androgen resistance. In each, the free androgen receptor has normal binding capacity at 37 degrees C and normal half-lives at 37-43 degrees C. In three the mutant receptor misbehaves in a pattern that is ligand-specific and temperature-dependent. At 37 degrees C the equilibrium (Kd) and non-equilibrium (k) dissociation constants, and the ability to augment binding activity during prolonged exposure to androgen, are impaired with DHT, but not with MT; with MB, only the k is abnormal. Mutant MT-receptor complexes dissociate normally even at 42 degrees C; yet, in cells post-incubated at 42 degrees C with cycloheximide and a saturating concentration of ligand, their pool size decays in the rank order, MT greater than MB greater than normal. This measure of lability is nonlinear as a semilogarithmic function of time; it varies directly with temperature and the concentration of cycloheximide, but inversely with that of ligand. Thus, MT and MB evoke distinct forms of thermal dysfunction from the androgen receptor in ligand-sensitive androgen resistance. This observation will help to elucidate the combinatorial properties of normal androgen-receptor complexes that enable them to regulate gene transcription differentially in various androgen target tissues.

Topics: Androgens; Cycloheximide; Dihydrotestosterone; Disorders of Sex Development; Drug Resistance; Estrenes; Fibroblasts; Genitalia, Male; Half-Life; Humans; Kinetics; Male; Metribolone; Mutation; Nandrolone; Receptors, Androgen; Skin; Temperature

The binding nature of mibolerone in cytosols and nuclear extracts from hypertrophic human prostate was examined in comparison with that of R 1881. The binding of mibolerone in the cytosol and nuclear extract was single and of high affinity when evaluated by the method of Scatchard (1949). Binding of mibolerone with testosterone-binding globulin was not detected. The sedimentation coefficients of the binder for mibolerone in the cytosol and nuclear extract were 10.6 S and 3.6 S, respectively. When triamcinolone acetonide was induced in the binding medium, inhibition of mibolerone binding in the cytosol by testosterone and dihydrotestosterone was potentiated and this may imply that the binding observed in the presence of triamcinolone acetonide was responsible for the binding of the androgen receptor. In the nuclear extract, the binding was attributable mainly to the androgen receptor irrespective of the presence or absence of triamcinolone acetonide. These properties of the binding observed in the hypertrophic human prostate were almost same as those of the binding with R 1881. Although maximum binding sites measured using mibolerone were correlated with those using R 1881 in the cytosols as well as in the nuclear extracts, the values obtained with mibolerone were slightly greater than those with R 1881. Thus, mibolerone seems to be a suitable ligand for measuring the androgen receptor, but when compared with R 1881 no special merits in using mibolerone were detected.

Topics: Cell Nucleus; Cytosol; Estrenes; Humans; Male; Metribolone; Nandrolone; Prostatic Hyperplasia; Receptors, Androgen; Receptors, Steroid

Tritiated 7 alpha, 17 alpha-dimethyl-19-nortestosterone (DMNT; mibolerone), a synthetic androgen stable to metabolic conversion in the rat ventral prostate, is an excellent radioactive ligand for the quantitation and characterization of androgen receptors in prostate, liver, and cultured cells. DMNT is more receptor-selective than 17 alpha-methyl-17 beta-hydroxy-estra-4,9,11-trien-3-one (R1881); DMNT interacts with glucocorticoid and progestin receptors much less strongly than R1881. Unlike 5 alpha-dihydrotestosterone, DMNT does not bind tightly to testosterone-estradiol binding globulin of human serum. The hydroxylapatite-filter assay we employed can clearly distinguish between DMNT binding to androgen receptors of rat ventral prostate and interaction of DMNT with androgen binding protein of epididymides. The prostate cytosol (3H)DMNT-receptor complex sediments in two forms (4 and 8 S) in a low salt medium. In 0.4 M KCl, both the prostate cytosol and nuclear (3H)DMNT-receptor complexes migrated as 3-4 S components. The formation of both the cytosol and nuclear DMNT-receptor complexes is inhibited by antiandrogens and 17 beta-estradiol.

Topics: Androgen-Binding Protein; Animals; Binding, Competitive; Cells, Cultured; Dihydrotestosterone; Epididymis; Estrenes; Kinetics; Liver; Male; Metribolone; Nandrolone; Prostate; Rats; Receptors, Androgen; Receptors, Steroid; Testosterone Congeners; Tritium