Analysis of the relation between receptor binding affinity and antagonist efficacy of antiglucocorticoids

The biological potencies of four antiglucocorticoids, RU486 (RU), dexamethasone-oxetanone (DOX), R5020, and progesterone have been studied with respect to dexamethasone induction of tyrosine aminotransferase (TAT) in rat hepatoma tissue culture (HTC) cells. Their inhibitory effects in whole-cell competition binding studies (at 37 degrees C) and in TAT induction studies were analyzed by Dixon plots and Schild plots, respectively. We show that: In both cases, there is an actual competition of each antiglucocorticoid with the agonist dexamethasone for the same binding site; the two Kd values derived from the two plots are almost identical for each antiglucocorticoid; RU486 can be distinguished from the three other antiglucocorticoids by its high biological efficacy and its high affinity for the glucocorticoid receptor in whole cells at 37 degrees C (identical to its affinity in cytosol at 0 degree C). These results imply that: There is a linear correlation between the antagonist efficacies of antiglucocorticoids and their affinities for the glucocorticoid receptor in whole cells at 37 degrees C; the antagonistic action is solely mediated by competition with the agonist for the receptor binding site; this is verified by the fact that in all cases, in the presence or absence of antiglucocorticoids, a specific TAT induction level was always related to the same level of receptor saturation by the agonist in whole cells; the phenomena responsible for the high antagonist efficacy of RU486 are also responsible for its high affinity in whole cells at 37 degrees C.     

Demonstration of steroid hormone receptors and steroid action in primary cultures of rat glial cells

Primary cultures of rat glial cells were established from newborn rat forebrains. A mixed population of oligodendrocytes and astrocytes was obtained, as confirmed by indirect immunofluorescence staining with specific markers for each cell type. Receptors were measured 3 weeks after primary culture in glial cells cultured in the presence or not of 50 nM estradiol and we have identified progesterone, glucocorticoid, estrogen, and androgen receptors (PR, GR, ER and AR), but only PR was inducible by the estrogen treatment. This estrogen-induction of PR was more dramatic in glial cells derived from female offsprings than from males, as measured by binding studies and by immunohistochemical techniques with the KC 146 anti-PR monoclonal antibody. The antiestrogen tamoxifen inhibited the estrogen induction, but had no effect by itself on PR concentration. Specific binding sites for PR, GR, ER and AR were measured by whole cell assays after labeling cells with, respectively, [³H]R5020, [³H]dexamethasone, [³H]OH-tamoxifen or [³H]R1881. PR and GR were also analyzed by ultracentrifugation and after exposure of cells to agonists, both receptors were recovered from cytosol as a 9S form, and from the nuclear high-salt, tungstate ions-containing fraction as a 4–6S form. In contrast, when the antiprogestin- and antiglucocorticosteroid RU486 was used as a ligand, a non-activated 8.5S receptor complex was found for both receptors in this nuclear fraction. The 8.5S complex of the GR was further analyzed in the presense of specific antibodies and, in addition to GR, the presence of the heat shock protein hsp90 and of a 59 kDa protein was found.

During primary culture, the effects of progesterone (P) and estradiol (E₂) were tested on glial cell multiplication, morphology and differentiation. Cell growth was inhibited by P and stimulated by E₂. Both hormones induced dramatic morphologic changes in oligodendrocytes and astrocytes and increased synthesis of the myelin basic protein in oligodendrocytes and of the glial fibrillary acidic protein in astrocytes.     

Evidence from pulse-chase labeling studies that the antiglucocorticoid hormone RU486 stabilizes the nonactivated form of the glucocorticoid receptor in mouse lymphoma cells

A pulse-chase labeling technique was used to determine the properties of glucocorticoid receptors occupied by the antiglucocorticoid hormone RU486 in S49.1 mouse lymphoma cells. Cells were pulse-labeled with [35S]methionine and then at the beginning of the chase, either no hormone (control), dexamethasone, or RU486 was added to cells. At 4 h into the chase, cytosol was prepared and receptors were immunoadsorbed to protein A-Sepharose using the BuGR2 antireceptor antibody. Immunoadsorbed proteins were resolved by gel electrophoresis and analyzed by autoradiography. The 90 kDa heat shock protein (hsp90) coimmunoadsorbed with receptors from control cells when protein A-Sepharose pellets were washed with 250 mM NaCl but not when protein A-Sepharose pellets were washed with 500 mM NaCl, indicating that hsp90-receptor complexes are disrupted by a high concentration of salt in the absence of molybdate. hsp90 coimmunoadsorbed with receptors from RU486-treated cells even when protein A-Sepharose pellets were washed with 500 mM NaCl, indicating that RU486 stabilizes the association of hsp90 with the glucocorticoid receptor. In contrast, hsp90 did not coimmunoadsorb with receptors from dexamethasone-treated cells, consistent with earlier evidence that hsp90 dissociates from the receptor when the receptor binds glucocorticoid hormone. Dexamethasone induced a rapid quantum decrease in the amount of normal receptor recovered from cytosol but did not induce a decrease in the amount of nuclear transfer deficient receptor recovered from cytosol, consistent with tight nuclear binding of normal receptors occupied by dexamethasone. In contrast, RU486 did not induce a quantum decrease in the recovery of normal receptors from cytosol, indicating that receptors occupied by RU486 are not tightly bound in the nuclear fraction. We conclude that the antiglucocorticoid hormone RU486, in contrast to the glucocorticoid hormone dexamethasone, stabilizes the association between the glucocorticoid receptor and hsp90. The decreased affinity of receptors occupied by RU486 for the nuclear fraction may be due to their association with hsp90 and may account for the failure of RU486 to exert agonist activity.     

RU486 inhibits induction of aromatase by dexamethasone via glucocorticoid receptor in cultured human skin fibroblasts

Effects of RU486 on the induction of aromatase by dexamethasone via glucocorticoid receptor were determined using cultured human skin fibroblasts. Competition of [3H]dexamethasone binding to the cytosol receptor was 7 times stronger with RU486 than with dexamethasone. The order of the strength of competition was RU486 greater than dexamethasone greater than betamethasone greater than prednisolone greater than hydrocortisone. RU486 abolished a specific 8.6 S [3H]dexamethasone binding peak in the cytosol, determined using a sucrose density gradient analysis. Dexamethasone markedly induced aromatase and this event was strongly suppressed by RU486, in a dose-dependent manner, in the cultured skin fibroblasts. A linear correlation between the strength of competition and the induction of aromatase of various glucocorticoids was observed. RU486 non-competitively inhibited aromatase induction by dexamethasone determined from a double reciprocal plot of aromatase activity, with respect to [3H]androstenedione concentration in the presence of RU486. These results show that RU486 is a peripheral noncompetitive antiglucocorticoid on aromatase induction by glucocorticoid in human skin fibroblasts and that aromatase induction is a good marker for the biological function of glucocorticoid receptor in human skin fibroblasts.     

Hepatic glucocorticoid receptor behaves differently when its hormone binding site is occupied by agonist (triamcinolone acetonide) or antagonist (RU486) steroid ligands

We have examined the influence of sulfhydryl (SH)-group modifying agents on the interaction of the rat liver glucocorticoid receptor (GR) with its known agonist triamcinolone acetonide (TA) and the newly synthesized antagonist mifepristone (RU486). In the freshly prepared cytosol, [3H]TA or [3H]RU486 bound to macromolecule(s) which sediment as 8-9 moieties: the binding of either ligand can be competed with radioinert TA or RU486. The presence of 2-10 mM dithiothreitol (DTT), beta-mercaptoethanol (beta-MER), and monothioglycerol (MTG) caused a 2-3 fold increase in the [3H]TA and [3H]RU486 binding to GR. Iodoacetamide (IA) and N-ethylmaleimide (NEM) decreased the agonist binding significantly. In contrast, the [3H]RU486 binding to GR increased by 50 percent in the presence of IA. IA and NEM inhibited the binding of the heat-transformed [3H]TA-receptor complex to DNA-cellulose by 70-90 percent whereas DNA binding of [3H]RU486-bound GR was inhibited only slightly. These results indicate that either a) the interaction of GR with the agonist or antagonist steroid ligands causes differential structural alterations, which are more readily detectable in the presence of SH-modifying agents or b) the agonist and the antagonist interact with distinct steroid binding sites.     

Identification of a novel 5-HT1 binding site in rat spinal cord

High affinity, specific [³H]5-hydroxytryptamine (5-HT) binding to spinal cord synaptosomes was examined to identify the 5-HT receptor subtypes present. Computer nonlinear regression analysis of competition studies employing 8-OH-DPAT indicated that this 5-HT_1A selective agonist demonstrated high affinity competition (K_{i = 1.3 nM}) for 24.6 ± 0.7% of the total [³H]5-HT binding sites. Competition studies employing the 5-HT_1B selective agonist RU24969, in the presence of 100 nM 8-OH-DPAT, indicated that RU24969 demonstrated high affinity (K_{i = 1.1 nM}) competitive inhibition for 26.2 ± 1.4% of all [³H]5-HT binding sites. Neither 5-HT_1C, 5-HT_1D, 5-HT₂ nor 5-HT₃ selective compounds demonstrated any high affinity competition for the residual 49% of specific [³H]5-HT binding. Therefore, three major classes of [³H]5-HT binding sites could be demonstrated in spinal cord synaptosomes: 5-HT_1A, 5-HT_1B and a novel [³H]5-HT binding site which respectively represented 25, 26 and 49% of spinal cord synaptosomal [³H]5-HT binding. Further studies focusing on the function of the latter binding site are needed to determine if the presently identified novel binding site is the major 5-HT₁ receptor subtype present in spinal cord.     

Comparison of the biopotency of corticosterone and dexamethasone acetate in glucocorticoid receptor down regulation in rat liver

The effects of long treatment with dexamethasone 21-acetate and corticosterone on the glucocorticoid receptor in rat liver cytosol were compared. Dexamethasone acetate (5 micrograms/ml or 10 micrograms/ml water) or corticosterone (100 micrograms/ml water) was given to adrenalectomized animals as drinking solution for 6 days, and glucocorticoid receptor concentration was determined at 0, 12, 24, 48 and 72 h after steroid withdrawal. Dexamethasone acetate caused a dose dependent depletion of cytosol receptor. There was no measurable binding at time 0; the values of Bmax for the glucocorticoid receptor with decreased at 12, 24 and 48 h after the steroid withdrawal. Increased dissociation constant (Kd) were calculated for 12 and 24 h samples. The effect of corticosterone on receptor depletion was less pronounced. Bmax for the receptor was decreased at 0, 12, 24 h after steroid withdrawal with no change in Kd. The extent of steroids-induced receptor depletion showed good correlation with the induction of tyrosine aminotransferase (TAT), however, maximum TAT activity measured immediately after withdrawal of dexamethasone acetate was lower than that found after a single injection of dexamethasone acetate. We conclude that both steroids cause down regulation of the glucocorticoid receptor in rat liver cytosol, with both the extent and the duration of depletion being dependent on the biopotency of the glucocorticoid.     

[H]lysergic acid diethylamide (LSD): differential agonist and antagonist binding properties at 5-HT receptor subtypes in rat brain

[³H]Lysergic acid diethylamide (LSD) in the presence of 40 nM ketanserin labeled the 5-HT_1A receptor subtype in rat hippocampal membranes. In the presence of guanosine triphosphate (GTP), the B_max and affinity of [³H]LSD binding to the 5-HT_1A binding site were significantly decreased. [³H]LSD in the presence of 40 nM WB4101 labeled the 5-HT₂ receptor subtype in homogenates of rat frontal cortex. In contrast to the effect on [³H]LSD binding to the 5-HT_1A binding site, GTP produced no significant effect on either the B_max or the K_D of [³H]LSD binding to the 5-HT₂ binding site. Competition of 5-HT for [³H]LSD binding to the 5-HT₂ binding site was best described by a computer-derived model assuming two binding sites. In the presence of GTP, the 5-HT competition curve was shifted significantly to the right with an approx. 3-fold increase in the IC₅₀. These binding characteristics are consistent with [³H]LSD acting as an antagonist at the 5-HT₂ receptor which has multiple affinity states for agonists and is coupled to a guanine nucleotide regulatory subunit. Thus, [³H]LSD has binding characteristics consistent with it acting as an agonist at the 5-HT_1A receptor subtype but as an antagonist at the 5-HT₂ receptor subtype in rat brain.     

Progestins stimulate the differentiation of 3T3-L1 preadipocytes

The effect of progesterone on the differentiation of the 3T3-L1 preadipocytes was investigated and compared with other sex steroids (estradiol and testosterone), with cortisol, with the synthetic progestin R5020 and with the progestin/glucocorticoid antagonist RU38486. At 10⁻⁸ M, progesterone stimulated the activity of glycerol-3-phosphate dehydrogenase and triglyceride deposition. Progesterone, R5020, cortisol, and RU38486 increased triglycerides about 2-fold at 10⁻⁷ M. Only minimal effects were observed with testosterone and estradiol even at 10⁻⁶ M. When the cells were cultured in presence of 10⁻⁵ M metyrapone the effect of progesterone was unchanged, suggesting that the progesterone was not metabolized to a glucocorticoid. Progesterone, R5020 and RU38486 competed efficiently with [³H]dexamethasone for the glucocorticoid receptor in 3T3-L1 cytosol. These results indicate a significant, reproducible dose-dependent effect of progestins on differentiation of the preadipocytes, which appears to be mediated via the glucocorticoid receptor.     

Interaction of the nicotinic agonist (R,S)-3-pyridyl-1-methyl-2-(3-pyridyl)-azetidine (MPA) with nicotinic acetylcholine receptor subtypes expressed in cell lines and rat cortex

The interaction of the nicotinic agonist (R,S)-3-pyridyl-1-methyl-2-(3-pyridyl)-azetidine (MPA) with different nicotinic acetylcholine receptor (nAChR) subtypes was studied in cell lines and rat cortex. MPA showed an affinity (Ki = 1.21 nM) which was higher than anatoxin-a > (−)-nicotine > (+)-[R]nornicotine > (−)-[S]nornicotine > and (+)-nicotine, but lower than cytisine (Ki = 0.46 nM) in competing for (−)-[³H]nicotine binding in M10 cells, which stably express the recombinant ₄β₂ nAChR subtype. A one-binding site model was observed in all competing experiments between (−)-[³H]nicotine binding and each of the agonists studied in M10 cells. MPA showed a 13-fold higher affinity for (−)-[³H]nicotine binding sites compared to the [³H]epibatidine binding sites in rat cortical membranes. In human neuroblastoma SH-SY5Y cells, which predominantly express the ₃ nAChR subunit mRNA, MPA displaced [³H]epibatidine binding from a single population of the binding sites with an affinity in the same nM range as that observed MPA in displacing [³H]epibatidine binding in rat cortical membranes. Chronic treatment of M10 cells with MPA significantly up-regulated the number of (−)-[³H]nicotine binding sites in a concentration dependent manner. Thus MPA appears to have higher affinity to 4-subunit containing receptor subtype than ₃-subunit containing receptor subtype of nAChRs. Furthermore MPA binds to ₄β₂ receptor subtype with higher affinity than (−)-nicotine and behaves, opposite to cytisine, as a full agonist in up-regulating the number of nAChRs. © 1998 Elsevier Science Ltd. All rights reserved.     

Recycling and desensitization of glucocorticoid receptors in v-mos transformed cells depend on the ability of nuclear receptors to modulate gene expression

In v-mos transformed cells, glucocorticoid receptor (GR) proteins that bind hormone agonist are not efficiently retained within nuclei and redistribute to the cytoplasmic compartment. These cytoplasmic desensitized receptors cannot be reutilized and may represent trapped intermediates derived from GR recycling. We have used the glucocorticoid antagonist RU486 to examine whether v-mos effects can be exerted on any ligand-bound GR. In the rat 6m2 cell line that expresses a temperature-sensitive p85gag-mos oncoprotein, RU486 is a complete antagonist and suppresses dexamethasone induction of metallothionein-1 mRNA at equimolar concentrations. Using indirect immunofluorescence, we observe efficient nuclear translocation of GR in response to RU486 treatment in either the presence or absence of v-mos oncoproteins. However, in contrast to the redistribution of agonist-bound nuclear receptors to the cytoplasm of v-mos-transformed cells, RU486-bound GRs are efficiently retained within nuclei. Interestingly, withdrawal of RU486 does not lead to efficient depletion of nuclear GR in either nontransformed or v-mos transformed cells. It is only after the addition of hormone agonist to RU486 withdrawn v-mos-transformed cells that GRs are depleted from nuclei and subsequently redistributed to the cytoplasm. Thus, only nuclear GRs that are agonist-bound and capable of modulating gene activity can be subsequently processed and recycled into the cytoplasm.     

大鼠胸腺细胞糖皮质激素受体结合与糖皮质激素效应的定量关系

本文通过糖皮质激素拮抗剂 RU486阻断不同分数的糖皮质激素受体(GR)后,GR 结合与糖皮质激素(GC)效应的比较,研究于两者的量的关系。在地塞米松(Dex)10_(-9)—10_(-5)mol/L浓度范围内,Dex 和大鼠胸腺细胞 GR 的特异结合与 Dex 抑制细胞尿嘧啶核苷(Urd)参入效应呈正向平行趋势。用 RU486阻断5×10_(-8)mol/L 浓度的 Dex与 GR 结合的不同分数,比较 Dex 特异结合与抑制效应的关系,发现两者表现为线性正相关(P<0.01)。将 Dex 结合-效应直线外推,结果提示 GR 有约20%的占领阈但几乎没有备用受体。     

Low Dose Ru486 Prevents Progesterone Antagonism on Uterine Growth and Concomitant Type II Oestradiol Binding Inducton by Oestradiol in Rats

Abstract

The effect of RU486, a synthetic antisteroid, on the antagonism of progesterone (Pg) and dexamethasone (Dex) against oestradiol (Oe) induced uterine growth, and on uterine oestradiol binding (type I and type II sites) was studied in ovariectomised CFY rats. Changes of hypothalamic low affinity [3H]Oe binding have also been evaluated. Inhibitory effects of Pg but not of Dex on uterine growth and type II Oe binding site induction were prevented by RU486. Antiprogestin effect of RU486 could also be demonstrated on low affinity [3H]Oe binding in hypothalami. The inhibitory effect of dexamethasone on type II Qe binding was not opposed by antisteroid, on the contrary, RU486 seemed to potentiate this effect of Dex. Evaluation of type I binding was complicated by the distorting effect of type II binding at the saturation curve. Changes of type I binding seemed to parallel those of type II binding except after Oe+Dex treatment where an increased level of uterine cytoplasmic type I sites and a simultaneous decrease of type II sites were found. Blockage of [3H]Oe binding at high RU486 concentrations was found in vitro in the uterine cytoplasmic fraction. A less pronounced effect was observed in the nuclear fraction. Possible mechanisms of the RU486 effect on type II Oe binding are discussed.     

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)     

Antiglucocorticoid steroids have increased agonist activity in those hepatoma cell lines that are more sensitive to glucocorticoids

FU5-5 rat hepatoma (Reuber H35) cells are hypersensitive in that the same percentages of full induction of tyrosine aminotransferase (TAT) occur at much lower concentrations of glucocorticoids than in the related HTC rat hepatoma (Morris) cells. Unexpectedly, these hypersensitive FU5-5 cells also exhibited more agonist activity with the affinity labeling antiglucocorticoids cortisol 21-mesylate and dexamethasone 21-mesylate than did HTC cells (Mercier et al., Endocrinology 112, 601-609 [1983]). In the present study, several other antiglucocorticoids (11-desoxycortisone, progesterone, dexamethasone oxetanone, and RU 486 in addition to dexamethasone 21-mesylate) and the antiandrogen cyproterone acetate were examined to see if chemically unreactive, reversible antisteroids also would exhibit an altered activity (i.e. increased agonist activity) in FU5-5 cells. Each antiglucocorticoid examined did display a 2-fold increased amount of agonist activity in FU5-5 cells, as compared to HTC cells; only RU 486 was predominantly an antagonist in FU5-5 cells but the potency of RU 486 was about 9-fold less than in HTC cells. Dexamethasone, and especially progesterone, was metabolized in FU5-5 and HTC cells. However, differential metabolism in FU5-5 vs HTC cells cannot account for the increased induction of TAT in FU5-5 cells since the amount of agonist activity seen for dexamethasone mesylate (or its metabolites) depended not on the cell type used but rather on the glucocorticoid inducible enzyme monitored, i.e. TAT or glutamine synthetase. The combined data suggest that the hypersensitivity of FU5-5 cells towards glucocorticoid induction of TAT may be linked with the ability of both reversible and irreversible antiglucocorticoids to display increased TAT agonist activity in FU5-5 cells. This behavior was somewhat steroid specific since the antiandrogen cyproterone acetate did not display increased TAT agonist activity in FU5-5 cells compared to HTC cells and was only 2-fold less effective as an antiglucocorticoid in FU5-5.     

Description and analysis of differential sensitivity to glucocorticoids in Fao cells

This study shows that the derived hepatoma cell line Fao displays different sensitivities for glucocorticoid induction of tyrosine aminotransferase (TAT), alanine aminotransferase (AAT) and gamma-glutamyltransferase (GGT). This was seen in the different behaviors of nine steroids with respect to these three effects: (1) in the presence of full agonists (dexamethasone or deacylcortivazol), half-maximal induction of GGT occurred at approx 5- to 6-fold higher agonist concentrations than those required for half-maximal induction of AAT and TAT; (2) in the presence of full antagonists (RU 486, R5020, or progesterone) the GGT response induced by an equal agonist concentration was inhibited at concentrations approx 4- to 5-fold lower than those required for an equivalent inhibition of TAT response; (3) in the presence of cortexolone, deoxycorticosterone, 11 beta-hydroxyprogesterone and dexamethasone-3'-oxetanone, there was a partial agonistic effect (30-50%) on TAT and AAT responses, whereas there was a mainly antagonistic effect (very weak agonistic effect: 0-10%) on GGT response; (4) regardless of the steroid or its full or partial agonist activity, a given TAT induction level (50%, for example) always corresponded to the same AAT and GGT induction levels (50 and 10% respectively). We provide evidence showing that the three above-mentioned biological responses are mediated via the same type of glucocorticoid receptor binding site. Consequently, this differential behavior probably originates from a phenomenon occurring after the common steps (activation, translocation) that follow the formation of the steroid-receptor complex. This leads us to propose a model in which this phenomenon is assumed to originate from a difference in the affinities of the activated receptor for the nuclear acceptor sites of the TAT and GGT genes.     

Receptor dynamics and tyrosine aminotransferase induction during the course of chronic treatment of rats with glucocorticoid

The changes in the cytosol glucocorticoid receptor (GR) content during a long-term administration of a glucocorticoid were studied to examine the mechanism of the development of steroid hormone resistance. Dexamethasone (Dex) (0.2 microgram/ml and 2.0 micrograms/ml) was given to adrenalectomized rats, and the GR content was determined using the exchange assay 1, 10, 20 and 50 days after the start of administration. The activity of tyrosine aminotransferase (TAT) in the cytosol was also assayed as a measure of the biological responsiveness of these animals to the administered glucocorticoid. The dissociation constant (Kd) was elevated and the Bmaxs of the GR in the cytosol were decreased by the lower concentration of Dex. The Bmaxs decreased to 30% of the untreated controls within 24 h and this lower level was maintained as long as the hormone treatment continued. On the other hand, the cytosol obtained from animals treated with 2.0 micrograms/ml of Dex for 20-24 days did not show any measurable amount of binding to 3H-Dex. The activity of TAT was elevated 24 h after the administration of Dex but decreased gradually and steadily with time during the experimental period. To examine the biological potency of remaining GR in the liver cytosol, 2.0 micrograms/ml Dex was again administered after a long-term treatment. This treatment eliminated the remaining GR completely and induced TAT at almost the same rate as observed in the untreated control animals.(ABSTRACT TRUNCATED AT 250 WORDS)     

Antiprogesterone and antiglucocorticoid actions of RU 486 on rabbit mammary gland explant cultures. Evidence for a persistent inhibitory action of residual progesterone upon the mammary tissue

The antiprogesterone and antiglucocorticoid compound RU 486 added to pregnant rabbit mammary gland explant cultures had no effect alone but significantly stimulated casein production in the presence of ovine prolactin (PRL) in a dose dependent manner. This stimulation was inhibited by progesterone (Pg) and the Pg agonist R5020. When the explants were cultured for 5 days with two changes of medium, to eliminate all steroids, and hormones added afterwards, the effect of PRL was potentiated, Pg was no longer inhibitory and RU 486 had no effect, RU 486 also could inhibit the stimulatory action of glucocorticoids added to the cultures along with PRL. The compound was able to displace [3H]dexamethasone and [3H]R 5020 from mammary gland glucocorticoid and Pg receptors respectively and proved to have a high relative binding affinity (RBA) for both receptors when compared with typical ligands for each receptor. The RBAs of RU 486 and the steroids used in this study to mammary gland glucocorticoid and Pg receptors correlated well with the ability of RU 486 to block their biological activities. These results demonstrate that RU 486 has both antiglucocorticoid and antiprogesterone activities in pregnant rabbit mammary glands as well as the existence of a strong inhibitory residual action of Pg in the gland that persists during the first 48 h of culture and that can be eliminated by RU 486 or after several days of culture with no hormones.