Changes in cytosol and nuclear progesterone receptor concentrations in the rabbit uterus and their relation to induction of progesterone-regulated uteroglobin.

To study the relation between steroid receptor concentrations and biological response, we measured cytosol and nuclear progesterone receptors from rabbit uterus under different experimental conditions, and compared receptor values with induction of uteroglobin, a progesterone-regulated protein. A 5-day progesterone treatment (1 mg/kg per day) reduced the nuclear receptor content by 40%, slightly elevated cytosol receptor levels and increased uteroglobin content 3000-fold. Estradiol and tamoxifen altered progesterone-induced changes in the receptor and uteroglobin values: cytosol and nuclear receptors rose significantly, but uteroglobin induction declined markedly, when progesterone treatment was supplemented with estradiol or tamoxifen. A 50% inhibition of progesterone action on uteroglobin synthesis was achieved with 1 μg/kg of estradiol per day. Thus under certain conditions, there is a clear disparity between steroid receptor levels and biological response.     

Early changes in rabbit uterine progesterone receptor concentrations and uteroglobin synthesis after progesterone administration

Uterine cytosol and nuclear receptors were measured at various time intervals after one dose or two consecutive doses of progesterone and the receptor values compared with the course of induction of uteroglobin, a progesterone-regulated uterine protein. The data of this study suggest (i) that progesterone action involves receptor consumption and (ii) that in the rabbit uterus the biologic response is not a direct function of available cytosol or nuclear receptor sites.     

Regulation of cytosol and nuclear progesterone receptors in rabbit uterus by estrogen,antiestrogen and progesterone administration

A synthetic progestin, 16α-ethyl-21-hydroxy-19-nor-4-pregnene-3,20-dione (ORG 2058), was utilized to measure progesterone receptors from the rabbit uterus. This steroid has a high affinity for both cytosol and nuclear receptors, with K_D values of 1.2 nM (at 0–4°C) and 2.3 nM (at 15°C), respectively. Administration of estradiol-17β or a non-steroidal antiestrogen, tamoxifen, for 5 days to estrous rabbits led to a progressive rise in the cytosol receptor levels: from 34 000 to 120 000 (estradiol-17β) and 80 000 (tamoxifen) receptors/ cell, without any major influence on the nuclear receptor content. A single intravenous injection of progesterone (5 mg/kg) elicited a 3-fold increase in the mean nuclear receptor content at 30 min after injection (from 18 000 to 48 000 receptors/nucleus). Nuclear receptor accumulation was short-lived and returned to control levels within 4 h after treatment. A second dose of progesterone given 24 h later doubled the nuclear receptor level (from 18 000 to 35 000 receptor/nucleus). The concomitant decline in the cytosol receptor content was twice that accounted for by the nuclear receptor accumulation (70 000 vs. 30 000, and 40 000 vs. 17 000 receptors/cell, after the first and second progesterone injection, respectively). Following progesterone administration, the cytosol receptor level reached a nadir by 30 min, exhibited minimal replenishment within the ensuing 24 h, and remained at approx. 50% of the pretreatment values. After a single dose or two consecutive doses of progesterone, total uterine progesterone receptor content declined to about 60% of the level prior to each dose, a nadir being reached at 2 h after treatment.     

The additive effects of progestins on testosterone-stimulated hepatic ethylmorphine metabolism and cytochrome P-450 content

The actions of several progestins on mouse liver were studied in terms of their inherent potency and for their ability to modify the biologic activity of testosterone. When hepatic ethylmorphine demethylase activity and cytochrome P-450 content were used as end points, the biological potency of progestins was ranked as follows: cyproterone acetate>progesterone>medroxyprogesterone acetate>hydroxyprogesterone caproate controls. The induced alterations of these parameters were, therefore, unrelated to reported progestational (cyproterone acetate medroxyprogesterone acetate>>hydroxyprogesterone caproate>progesterone) or androgenic (medroxyprogesterone acetate>cyproterone acetate = hydroxyprogesterone caproate = progesterone) actions of these steroids. A similar conclusion was reached when hepatic weight and microsomal protein content were used as end points.

When progestins (0.1–10 mg/day) were administered with testosterone (0.1 mg/day), the effect of both steroids were additive. This is in contrast to their actions on other tissues such as kidney and sub-maxillary gland where progestins potentiate and inhibit androgen action. We conclude from these studies that the mechanism of action of progestins on the liver differs from that on other tissues.     

Comparative effects of progesterone, norgestrel, norethisterone and tamoxifen on the abnormal uterus of the anovulatory rat.

Progesterone therapy results in partial reversibility of histological abnormalities of the rat uterus exposed to constant oestrogen stimulation and is associated with a decrease in nuclear oestrogen receptor content, which may underlie the tissue response to hormone treatment [White, Moore, Elder & Lim (1982) Biochem. J. 202, 535-41]. The synthetic progestins norgestrel and norethisterone used in this study were as effective as progesterone in decreasing the content of nuclear oestrogen receptor. However, only norgestrel had an ameliorative effect on epithelial hyperplasia and metaplasia. The non-steroidal anti-oestrogen tamoxifen caused a significant decrease in both nuclear and cytosol oestrogen receptor content without any change in luminal epithelial hyperplasia and metaplasia. Each progestin caused an increase, whereas tamoxifen caused a decrease, in the proportion of nuclear oestrogen receptors that were unoccupied. Each compound caused a decrease in the content of cytosol progesterone receptor. The effectiveness of compounds used as oestrogen antagonists is discussed with reference to their mode of action.     

Uptake of three [3H]progestins by target tissues in vivo: Implications for the design of diagnostic imaging agents

We have investigated the tissue distribution of radioactivity for 0.5–4 h follwing the i.v. injection of three tritium-labeled progestins in estrogen-primed, immature rats. Whereas [³H]progesterone shows minimal uterine uptake (<0.7% injected dose per gram; %ID/g), the two higher affinity, synthetic progestins [³H]R 5020 (promegestrone) and [³H]ORG 2058 show highly selective uptake that reaches 4–5% ID/g by 1–3 h. The uterus to non-target tissue activity ratio at 2–4 h is approximately 12–20 for R 5020 and ORG 2058, but less than 2 for progesterone; the uterus to blood activity ratio for R 5020 is also high (approximately 15), but is lower for ORG 2058, possibly due to the accumulation of radiolabeled metabolites in the blood. The uterine uptake is selectively blocked by simultaneous injection of a large dose of unlabeled steroid, indicating that the uptake is mediated by a high affinity, low capacity binding system, presumably the progesterone receptor. Pronounced uptake is also observed by the liver and into fat, but is not receptor-mediated. The highly selective target tissue uptake by the two synthetic steroids, but not by progesterone, indicates that one must have ligands with sufficiently high affinity for the target tissue receptor, as well as low affinity for certain non-receptor binding proteins, in order to obtain adequate contrast between target and non-target tissues in dynamic uptake studies. These guidelines will be important in the development of suitable in vivo imaging agents based on the progesterone receptor.     

Regulation of cytosol and nuclear progesterone receptors in rabbit uterus by estrogen, antiestrogen and progesterone administration.

A synthetic progestin, 16 alpha-ethyl-21-hydroxy-19-nor-4-pregnene-3,20-dione (ORG 2058), was utilized to measure progesterone receptors from the rabbit uterus. This steroid has a high affinity for both cytosol and nuclear receptors, with KD values of 1.2 nM (at 0--4 degrees C) and 2.3 nM (at 15 degrees C), respectively. Administration of estradiol-17 beta or a non-steroidal antiestrogen, tamoxifen, for 5 days to estrous rabbits led to a progressive rise in the cytosol receptor levels: from 34,000 to 120,000 (estradiol-17 beta) and 80,000 (tamoxifen) receptors/cell, without any major influence on the nuclear receptor content. A single intravenous injection of progesterone (5 mg/kg) elicited a 3-fold increase in the mean nuclear receptor content at 30 min after injection (from 18,000 to 48,000 receptors/nucleus). Nuclear receptor accumulation was short-lived and returned to control levels within 4 h after treatment. A second dose of progesterone given 24 h later doubled the nuclear receptor level (from 18,000 to 35,000 receptors/nucleus). The concomitant decline in the cytosol receptor content was twice that accounted for by the nuclear receptor accumulation (70,000 vs. 30,000, and 40,000 vs. 17,000 receptors/cell, after the first and second progesterone injection, respectively). Following progesterone administration, the cytosol receptor level reached a nadir by 30 min, exhibited minimal replenishment within the ensuing 24 h, and remained at approx. 50% of the pretreatment values. After a single dose or two consecutive doses of progesterone, total uterine progesterone receptor content declined to about 60% of the level prior to each dose, a nadir being reached at 2 h after treatment.     

Intracellular relationships of the oestrogen receptor in the rat uterus and hypothalamus during the oestrous cycle.

Simultaneous measurements were made of the specific oestrogen receptor in the nuclear and cytosol fractions prepared from the uterus and hypothalamus of 50--81-day-old female rats undergoing a 4-day oestrous cycle. In the uterus, the content of nuclear receptor fluctuated in concert with known cyclic changes in the secretion of oestrogen, being maximal at pro-oestrus. Over the period of 50--81 days, the nuclear content at all phases increased with age, again corresponding to known age-related increases in ovarian secretion of oestrogen. This age-related increase in nuclear content, averaged from the values of the different phases in each age group, was related to equivalent increases in uterine wet weight, an increase of 1 pmol of receptor being accompanied by an increase of 80--90 mg. The concentration of cytosol receptor was maintained constant, with respect to wet weight, throughout the cycle and with age, irrespective of changes in nuclear content. In the uterus of normal mature females, translocation of receptor into the nucleus did not lead to depletion of cytosol receptor, suggesting a process of continuous replenishment/synthesis. In the hypothalamus, the nuclear content of oestrogen receptor was also maximal at pro-oestrus. In contrast with the uterus, the content of hypothalamic cytosol receptor was minimal at this phase and reflects depletion of the cytosol receptor, possibly as a result of translocation. The extent of translocation was low compared with that in the uterus and did not alter with age during the age-period studied. This low nuclear binding of the receptor in vivo is discussed in relation to the presence of a cytosol factor, present in limiting amounts, which in vitro mediates the binding of cytosol receptor to oligo(dT)-cellulose. The difference in the physiological response of the uterus and of the hypothalamus to oestrogens may be related to the extent of nuclear binding of receptor.     

Prolactin enhances uteroglobin gene expression by uteri of immature rabbits

The effect of prolactin on uteroglobin production by immature rabbits was studied with neonatal (1 day old) and juvenile (14 days old) does. The animals were divided into 11 treatment groups for each age category and exposed to a 9-day injection protocol. Each day the animals received a subcutaneous injection of oestradiol-17 beta and/or ovine prolactin and/or progesterone, or were sham-injected. Juvenile animals, which received 100 micrograms oestradiol/kg 24 h-1, plus progesterone or plus prolactin and progesterone, produced detectable amounts of uteroglobin in the uterine secretions (0.034 +/- 0.010 mg uteroglobin/mg total protein and 0.098 +/- 0.03 l mg uteroglobin/mg total protein, respectively). None of the animals in the other juvenile treatment groups or any of the neonatal groups produced uteroglobin. From this survey it was apparent that uteroglobin secretion could be induced by exogenous oestradiol and progesterone in rabbits treated as early as 14 days of age, and that the added supplementation of prolactin enhanced the response to the ovarian steroids. As a result, additional juvenile animals were injected with 100 micrograms oestradiol +/- prolactin + progesterone and the effects of these two treatments were quantitated as follows: uteroglobin mRNA levels by slot-blot hybridization; endometrial surface area by computerized image analysis; and oestrogen, progesterone and prolactin receptors by immunocytochemistry. Prolactin modified the response of the juvenile rabbit uterus to oestradiol + progesterone for all parameters tested.     

Differences in the rabbit uterine response to progesterone as influenced by growth hormone or prolactin

The direct effect of growth hormone (GH) on the uterine response to progesterone was tested by using ovariectomized rabbits (at least 12 weeks) treated with GH; GH + progesterone; or progesterone alone. These results were compared with the effect of prolactin or prolactin + progesterone on the uterus. Prolactin treatment produced an increase (P less than 0.01) in the endometrial surface area and restored cytosolic oestrogen and progesterone receptor concentrations to oestrous control values. The sequential treatment of does with prolactin + progesterone stimulated uteroglobin production to a concentration equal to that found in intact rabbits on Day 5 of pregnancy. In contrast, GH treatment had no effect on endometrial surface area, produced an increase in the concentration of cytosolic oestrogen receptor but did not produce an increase in the concentration of progesterone receptor. The sequential treatment of does with GH + progesterone failed to stimulate uteroglobin secretion above control (progesterone alone) values. It is concluded that the action of prolactin in the rabbit uterus is no generally somatogenic; rather, prolactin increases the concentration of progesterone receptor and thereby enhances the uterine response to progesterone.     

Evidence for separate binding sites for progesterone and RU486 in the chick oviduct

Binding characteristics of synthetic steroid, mifepristone (RU38486 - also referred to as RU486), were examined in cytosol prepared from the chick oviduct and the calf uterus, and were compared with those of progesterone and synthetic progestin R5020. Unlike [³H]progesterone binding, the [³H]RU486 binding in the oviduct cytosol did not saturate at 50 nM ligand concentration. The [³H]progesterone binding could not be eliminated in the presence of excess RU486, and [³H]RU486 binding was seen to be indisplaceable upon pretreatment of the chick oviduct cytosol with a 1000-fold excess progesterone. It is apparent that the chick oviduct cytosol is endowed with two separate sets of sites which interact with progesterone and RU486 independently. Furthermore, [³H]RU486 binding in the chick oviduct cytosol remained intact when incubated for 60 min at 37°C; it exhibited a single ionic form upon elution from DEAE-Sephacel and the [³H]RU486-associated radioactivity sedimented in the 4 S region both in salt-free and 0.3 M KCl-containing 5–20% sucrose gradients. In the calf uterus cytosol, both steroids exhibited comparable binding profiles. Our results provide evidence that chick oviduct possesses distinct binding sites that accept either progesterone or RU486, but not both, as is the case in the calf uterus.     

Hormonal control of uteroglobin secretion in rabbit uterus. Inhibition of uteroglobin synthesis and messenger ribonucleic acid accumulation by oestrogen and anti-oestrogen administration

Investigations were conducted to quantify activity of uteroglobin mRNA and secretion of uteroglobin in rabbit uterus after administration of progesterone and 5alpha-dihydrotestosterone, either alone or concomitantly with oestradiol-17beta and tamoxifen, a non-steroidal anti-oestrogen. Poly(A)-containing mRNA was isolated from the uterine tissue by extraction with phenol/chloroform, precipitation with ethanol and chromatography on oligo(dT)-cellulose. Cell-free translation in vitro of the poly(A)-containing mRNA was carried out in a wheat-germ lysate, and the product isolated by specific immuno-precipitation with anti-uteroglobin antiserum purified by affinity chromatography. Radioimmunoassay was utilized to determine uteroglobin content in the uterine flushings and tissue preparations. When given for 5 days, both progesterone (1mg/kg per day) and 5alpha-dihydrotestosterone (25mg/kg per day) elicited a marked induction of uteroglobin secretion, which was accompanied with accumulation of uteroglobin mRNA in the tissue. Concomitant administration of oestradiol-17beta (50mug/kg per day) or tamoxifen (12.5mg/kg per day) significantly decreased both progesterone- and 5alpha-dihydrotestosterone-induced uteroglobin secretion, with a parallel decrease in the uteroglobin-mRNA activity. The decline in the uteroglobin content of the uterine flushes brought about by oestradiol-17beta or tamoxifen administration was not due to inhibition of secretion of this protein by the endometrial cells, since a simultaneous decrease occurred in the tissue uteroglobin content. After a 5-day pretreatment with progesterone (1mg/kg per day), administration of oestradiol-17beta (50mug/kg per day) during the ensuing 4 days greatly accelerated the decay of the uteroglobin content in the uterine fluid.     

Purification of a progesterone receptor from rabbit uterus

A progesterone receptor has been purified to homogeneity from rabbit uterus by steroid affinity chromatography. The receptor was obtained in 5% yield, with a specific activity for [³H]progesterone binding of 14,580 pmol/mg protein. The pure receptor migrated as a single band on SDS-polyacrylamide electrophoresis, with a MW of 70,000. Progesterone binding to the receptor was heat labile and was displaced by an excess of R5020. Photoaffinity labeling of the pure receptor with [³H]R5020 corresponded to the major photoaffinity labeled species in crude cytosol.     

Characterization of rat hypothalamic progestin binding by spheroidal hydroxylapatite chromatography.

The progestin-high-affinity-binding components in rat target tissues have been assayed by a simple and precise procedure by using spheroidal hydroxylapatite. The progestin 'receptors' in the uterus and hypothalamus of female rats are highly specific for progestins, which they bind with high affinity (Kd for [3H]progesterone in hypothalamus is 1.9 nM and in uterus is 3.7 nM). The dissociation of [3H]progesterone from receptor in vitro is rapid: t1/2 6 degrees C = 45 min in uterine cytosol; t1/2 6 degrees C = 160 min in hypothalamic cytosol. The binding is destroyed by proteinase. In the cytosol of hypothalamus and cortex of developing rats, progestin 'receptors' were present in both male and female rats by 2-3 days after birth; subsequent changes in concentration of these 'receptors' appeared to be independent of sex. Concentrations of progestin 'receptor' were close to adult values by 8-9 days, and thereafter changed relatively little.     

In vitro inhibition of rat uterine contractility induced by 5α and 5β progestins

Ten natural progestins were evaluated for their capacity to inhibit the $\text{in vitro}$ motility of rat's uterus. Progestins with their ring A reduced in the 5β position were significantly more potent than Δ⁴-3 keto and 5α reduced progestins. These last progestins were ineffective to inhibit uterine motility excepting 3α-hydroxy-5α-pregnan-20-one which was slightly less effective than progesterone. The potency of the progestins to inhibit uterine motility was related to their capacity to induce membrane stabilization. The data indicates that 5β, but not 5α reduction of progesterone, may be important for regulating myometrial activity.     

A specific glucocorticoid binding macromolecule of rabbit uterine cytosol

A high affinity (K_d=2.7 × 10^?10M at 0°) dexamethasone binding macro-molecule has been identified in the cytosol fraction of rabbit uteri. Competition studies show high specificity for glucocorticoids since binding of labeled dexamethasone is inhibited by cortisol and corticosterone but not by progesterone, testosterone, or estradiol 17β. The binding component has a sedimentation coefficient of 8S and its concentration in uterine cytosol is about 0.2 pmoles per mg protein. Uptake of labeled dexamethasone by isolated uterine nuclei requires the presence of cytosol and is temperature dependent. The KCl-extractable nuclear complex sediments at 4S. Thus the dexamethasone binding components of the rabbit uterus have properties similar to those described for steroid hormone receptors present in target tissues. Specific dexamethasone binding could not be demonstrated in rat uterine cytosol.     

Variable expression of the uteroglobin gene following the administration of norethisterone and its A-ring reduced metabolites

Enzyme-mediated A-ring reduction of norethisterone (NET) results in the transformation of a molecule with potent intrinsic progestational activity into neutral derivatives with estrogen-like effects. To ascertain whether these structural modifications of NET are able to modify the uteroglobin (U) gene (G) expression, a series of experiments assessing the UG products after the administration of NET and its reduced A-ring metabolites were conducted in prepubertal female rabbits. Synthesis of endometrial uteroglobin and its specific mRNA were studied in animals following the administration of NET, 5 alpha-dihydro NET,3 beta,5 alpha-tetrahydro NET and progesterone. Animals treated with either estradiol or vehicle alone served as controls. The uteroglobin content in uterine flushings and cytosols was determined by immunodiffusion and polyacrilamide gel electrophoresis techniques and by a specific double-antibody radioimmunoassay, while the U mRNA synthesis was assessed by its molecular hybridization to [alpha 32P]d-ATP uteroglobin cDNA. NET induced a significant increase of the uterine content of uteroglobin similar to that observed with progesterone with a simultaneous increase on U mRNA synthesis. On the contrary, 5 alpha-NET and 3 beta,5 alpha-NET induced very little, if any uteroglobin synthesis with a concomitantly low U mRNA production as compared with NET; thus exhibiting a similar effect to that observed in estradiol-treated animals. The overall results were interpreted as demonstrating that the enzyme mediated structural changes of NET which occur at the target organs induce variable expression of the uteroglobin gene. The data indicate that the rabbit uteroglobin gene products are suitable molecular markers to evaluate the hormonal potency of contraceptive synthetic progestins and their derivatives.     

Uterine and lung uteroglobins in the rabbit: Two similar proteins with differential hormonal regulation

Previous studies have shown that several rabbit tissues contain proteins which cross-react in the radioimmunoassay for uteroglobin, a progestin-regulated protein in rabbit uterus (Torkkeli et al. (1977) Mol. Cell. Endocrinol. 9, 101–118). In the present study, a uteroglobin-like protein was purified to an apparent homogeneity from an extra-uterine tissue, rabbit lung, by successive chromatographies on hydroxyapatite, Sephadex G-75, SP-Sephadex, DEAE-cellulose and CM-cellulose. The final preparation behaved homogeneously in various polyacrylamide gel electrophoretic systems and in isoelectric focusing. The uteroglobin-like protein isolated from the lung had very similar physico-chemical and immunological properties to those of uteroglobin present in the rabbit uterine fluid. The two proteins had: (i) the same molecular weight, of approx. 13 000, with a two subunit structure (each approx. M_r 7000); (ii) identical behavior in polyacrylamide gel electrophoresis under non-denaturing and denaturing conditions; (iii) the same isoelectric point at pH 5.4; (iv) absence of carbohydrate in the molecule; (v) very similar amino acid compositions; (vi) lack of tryptophan among the amino acids; (vii) the same N-terminal amino acid (glycine), and (viii) indistinguishable immunological characteristics. Collectively, these data strongly suggest that uterine and lung uteroglobins are identical proteins.In contrast to the induction of the uterine uteroglobin by steroids with progestational activity, the synthesis of extra-uterine uteroglobins was not affected by these steroid hormones to any major extent. In keeping with the concept that lung is a target tissue for glucocorticoid action, cortisol and dexamethasone were capable of increasing the concentration of lung uteroglobin 3-fold (from 3 to 9 μg/mg soluble protein). These compounds did not, however, alter the secretion of the uterine protein. Administration of high doses of testosterone and 5α-dihydrotestosterone elevated significantly the content of both uterine and lung uteroglobin. Only approx. one-fifth of the adult pulmonary uteroglobin levels were present in lungs of newborn rabbits indicating that developmental changes occur in the lung uteroglobin content.