Species and Tissue Distribution of Proteins Binding 16α,17α-Cycloalkanoprogesterone Derivatives

The binding of [³H]progesterone and [³H]16,17-cycloalkanoprogesterones to proteins from rat, rabbit, and human uteri and other organs was studied. We found that 16,17-cycloalkanoprogesterone derivatives display affinities for the uterine progesterone receptors comparable with that of the natural hormone and no substantial species differences in the affinity. Rabbit uterus was found to have no proteins distinct from the progesterone receptor that specifically bind [³H]16,17-cycloalkanoprogesterones. At the same time, in the human uterus, we found another protein that binds some of these progesterone derivatives; it turned out to be similar to the protein from rat uterus. A similar protein with the same selectivity and affinity for steroids was also found in rat and human kidneys. Blood serum, liver, lung, and a number of other tissues were found to contain a protein of the third type that binds the same 16,17-cycloalkanoprogesterones and exhibits submicromolar K _d values for these steroids and a very low affinity for progesterone. We speculated that the introduction of a bulky substituent adjacently to the 17-side chain of progesterone could result in a change in the general biodynamics of the derivative including its transport, uptake, and accumulation in tissues, which may determine the selectivity of its effect.     

The size and/or configuration of the cycloalkane D' ring in pentacyclic progesterone derivatives are crucial for their high-affinity binding to a protein in addition to progesterone receptor in rat uterine cytosol

[(3)H]labeled progesterone and a number of its 16alpha, 17alpha-cycloalkano derivatives with an additional three to six-membered D' ring were investigated for mutual competition and equilibrium binding to proteins from rat uterine cytosol. The interaction of all studied [(3)H]ligands with proteins was characterized by comparable affinity (K(d) in nM region) and apparent homogeneity in terms of affinity. At the same time, the concentrations of binding sites for ligands bearing 16alpha,17alpha cyclopentano, cyclohexano, or cyclohexeno substituents were several-fold higher than those for progesterone or 16alpha, 17alpha-cyclopropanoprogesterone. In mutual competition experiments, when [(3)H]progesterone or [(3)H]16alpha, 17alpha-cyclopropanoprogesterone were used, the curves of 'bound radioactivity-log of competitor concentration' for all compounds studied were parallel and corresponded to a model of 'one protein-two ligands.' However, when [(3)H]ligands with bulky 16alpha, 17alpha-substituents (with the possible exception of cyclohexene derivative) were used, competitive curves for various ligands had different appearances and fell into two groups. Parallel curves for derivatives with 5 or 6 carbons in D' ring described by a model of 'one protein-two ligands' formed the 1st group. The 2nd group comprised curves for progesterone or 16alpha, 17alpha-cyclopropanoprogesterone that had lower slopes and could be described by a model of 'two proteins-two ligands.' Taken together, the results suggest the presence in rat uterine cytosol, of a protein in addition to progesterone receptor capable of discriminating between ligands with no or small 16alpha, 17alpha-cycloalkano substituents and ligands with more bulky substituents.     

Estrophilic 3 alpha,3 beta,17 beta,20 alpha-hydroxysteroid dehydrogenase from rabbit liver--II. Mechanisms of enzyme-steroid interaction

Binding of [3H]estradiol, [3H]testosterone and [3H]progesterone to purified NADP-dependent estrophilic 3 alpha,3 beta,17 beta,20 alpha-hydroxysteroid dehydrogenase (EHSD) from rabbit liver cytosol has been examined. The three steroids bind to the enzyme with moderate [corrected] affinity (Ka congruent to 10(7) [corrected] M-1 at 4 degrees C) and equal binding capacity. High-rates were shown for both association and dissociation processes. The steroids competitively inhibited the binding of each other to EHSD. At the same time, their relative binding affinities (RBA) were dependent on the nature of [3H]ligand. The results of RBA determinations for 72 steroids and their analogues by inhibition of [3H]progesterone binding to EHSD suggest that androgens and gestagens bind preferentially to the same site on EHSD molecule, while estrogens (at least by their D-ring) bind to another site. The assumption that EHSD molecule has more than one binding site for steroids is corroborated by (i) substrate inhibition revealed for a number of steroids; (ii) the estrogen ability to potentiate 20 alpha-reduction of progesterone; (iii) stimulatory effect of 5 alpha (beta)-androstane-3 alpha (beta), 17 beta-diols on [3H]testosterone and progesterone binding; and (iv) reciprocal effect of NADP on [3H]estradiol and [3H]testosterone binding to EHSD. Significant differences in sensitivity to pH and changes in NaCl concentration upon metabolism and binding of various steroids have been found. At concentrations of 16 mM dithiothreitol potentiated catalytic conversion of some steroids and had no effect on metabolism of others. Both the affinity for steroids and binding capacity of EHSD are found to be cofactor-dependent. It is speculated that EHSD has a complex active center including at least two mutually influencing steroid-binding sites tightly related with cofactor-binding site. The polyfunctionality of EHSD may be due to both the excess of functional protein groups that form individual constellations upon binding of any steroid and also to conformational lability of EHSD molecule implying alternative orientations of steroids at the binding site.     

DNA slows dissociation of progesterone receptor-steroid ligand complexes

Steroid ligands are known to affect the interactions of their respective receptors with DNA. In the present study, the possibility of DNA interference in progesterone receptor-ligand interactions was investigated. An oligonucleotide containing a hormone response element (HRE) was shown to decrease the dissociation rate of complexes of [3H]progesterone or [3H]16alpha,17alpha-cycloalkanoprogesterones with PRs from rabbit and rat uterine cytosol. The extent to which the oligonucleotide affected the dissociation constant varied from about 4- to 1.5-fold depending on the ligand structure and was ranked in the following order: progesterone>16alpha,17alpha-cyclopropanoprogesterone approximately 16alpha,17alpha-cyclopentanoprogesterone>/=16alpha,17alpha-cyclohex-2'-enoprogesterone approximately 6alpha-methyl-16alpha,17alpha-cyclohexanoprogesterone>/=16alpha,17alpha-cyclohexanoprogesterone. The control oligonucleotide lacking HRE had a weak effect, if any, on the dissociation kinetics. No influence of the HRE-containing oligonucleotide on the equilibrium binding of ligands to PR was observed. The results suggest that the DNA partner affects binding of PR to its ligand.     

Selective retention and formation of a delta5-androstenediol-receptor complex in cell nuclei of the rat vagina.

Cellular protein binding of a number of androstene and androstane derivatives that promote the growth of the vagina in rats has been studied. It was found that cell nuclei of the rat vagina contain a tissue-specific protein that binds 3beta,17beta-dihydroxy-androst-5-ene (delta5-androstenediol), a unique steroid causing growth and keratinization of the vaginal epithelium. The formation of the steroid-protein complex can be demonstrated by the administration of delta5-[3H]androstenediol to ovariectomized rats or by the incubation of minced vagina with the radioactive steroid. The steroid can interact with purified vaginal cell nuclei even in the absence of a cytosol preparation, forming the same steroid-protein complex. The formation of the complex is temperature-dependent; it occurs much more readily at 37 degrees than at 0 degrees. The delta5-[3H]androstenediol-protein complex migrated as about 4 S in a sucrose gradient medium containing 0.4 M KCl. A similar complex can be detected when nuclei of vaginal cells are incubated with 3alpha,17beta-dihydroxy-5alpha-androstane, 3beta,17beta-dihydroxy-5alpha-androstane, and 3beta-hydroxy-androst-5-en-17-one which also have the capability of stimulating vaginal epithelium, although in somewhat different ways. These steroids may bind to different groups of chromatin-bound receptor proteins in various layers of vaginal epithelium. The delta5-androstenediol binding protein is not found in the vaginal cytosol fraction that contains receptor proteins for estrogens and progestins, nor in the cytosol or nuclei of rat uterus cells, but not in muscle, brain, kidney, or liver. Testosterone and 5alpha-dihydrostestosterone bind weakly to the protein, whereas cortisol, androstenedione, 17beta-estradiol, and progesterone do not bind to the same protein by any significant extent.     

Pentacyclic steroid analogs: interaction of 16 alpha,17 alpha-cyclopentanoprogesterone with rat uterus proteins

Using 3H-labeled derivatives, kinetic parameters of specific binding of progesterone (I) and 16 alpha, 17 alpha-cyclopentanoprogesterone (II) to proteins of the uterus soluble fraction in rats were measured. It was shown that their affinities to proteins are comparable (K 10.5 +/- 2.4 and 6.7 +/- 3.4 nM for (I) and (II), respectively, upon 22 h incubation). The unlabeled compound (II) can displace [3H]progesterone from complexes with the protein with a concentration-independent efficiency corresponding to the ratio of K values for compounds (I) and (II). At the same time, the efficiency of the unlabeled progesterone in the displacement of [3H]compound (II) from protein complexes fell with an increase in the progesterone concentration. The concentration of high-affinity sites of [3H]compound (II) exceeded by 1.5 to 2 times the concentration of sites for [3H]progesterone. Dynamics of dissociation of proteins complexes of [3H]progesterone and 3H]compound (II) had a two-phase character with a decrease in the dissociation rate constants for both phases as the times of exposition of [3H]ligands to proteins grew. The ratio of slow- and fast-dissociating ligand-receptor complexes was thereby unchanged. These data suggest the presence in the rat uterus soluble fraction of two types of proteins differing in the capacity to recognize the additional five-membered ring D' in the steroid molecule.     

The unusual estrogen-binding protein (UEBP) of male rat liver: structural determinants of ligands

The unusual estrogen-binding protein (UEBP) found in a male rat liver is a sex dependent protein which differs from other known receptor and transport proteins by the high lability of its complexes with estradiol (E2) and also the unique specificity of affinity for hormones. In this work values of relative binding affinity (RBA) of the UEBP for 57 steroids and their analogs were determined. The affinity of steroids was characterised by the amount of the unlabeled compound needed for 50% inhibition of [3H]-E2 binding with the UEBP. A number of derivatives of estrane and androstane possess an ability to interact with this protein, in contrast to the derivatives of pregnane, stilbene and triphenylethane. Characterized by RBA values, natural steroids are found to have the following order: estriol larger than or equal to E2 greater than 16 alpha-hydroxyestrone = 2 alpha-hydroxytestosterone greater than 16-epiestriol greater than or equal to estetrol greater than or equal to 17-epiestriol greater than or equal to 2-methoxyestradiol greater than or equal to 5 alpha-androstane-3 alpha,17 beta-diol greater than or equal to estrone greater than testosterone greater than or equal to 2 beta-hydroxytestosterone greater than 5 alpha-dihydrotestosterone. Affinity of estrogens and androgens for the UEBP diminishes abruptly after removal of 3- and 17-hydroxy groups, masking of these by ether bonds or changing of 17 beta-hydroxyl to 17 alpha. All the investigated 17 oxo-C19-steroids, 5 beta-derivatives of testosterone, its 6 beta- and 16 alpha-hydroxy metabolites as well as 5 alpha-androstane-3 beta,17 beta-diol and 19-nortestosterone exhibit no essential affinity for the protein. On the basis of the results obtained it is suggested that the binding sites for estrogens and androgens in the UEBP molecule overlap but do not completely coincide.     

Steroidogenic correlates of pregnancy in the rock hyrax (Procavia capensis)

In pregnant rock hyraxes isolated leucocytes metabolise both [3H]pregnenolone and [3H]progesterone while whole blood, erythrocytes and an erythrocyte/leucocyte mixture only metabolised [3H]progesterone. Plasma displayed no tendency to metabolically convert any one of these two steroids. In whole blood [3H]progesterone appears to be converted to 5alpha-pregnane-3,20-dione and a compound with chromatographic properties similar to that of 5alpha-pregnan-3alpha-ol-20-one. 5Alpha-pregnane-3,20-dione exhibited a high relative binding affinity for the uterine progesterone eceptor (94%), but 5alpha-pregnan-3alpha-ol-20-one displayed very little affinity for the same receptor (0.4%). 5Alpha-pregnane-3,20-dione may therefore aid in the maintenance of pregnancy. Corpora lutea metabolised progesterone to 17alpha-hydroxyprogesterone, a compound exhibiting no progestational function because of its low relative binding affinity for the uterine progesterone receptor (2%). Progesterone appears to be the main product of the corpus luteum. However, 5alpha-pregnane-3,20-dione circulated at concentrations approximately 8.5 times higher than progesterone, probably due to the metabolic conversion of progesterone to 5alpha-pregnane-3,20-dione by the blood. We conclude that in the hyrax progesterone, produced by the corpora lutea, enters the circulation, where it is reduced to 5alpha-pregnanes. 5Alpha-pregane-3,20-dione may then be transported to the uterus where it binds to the progesterone receptor to assist in the maintenance of pregnancy. This mechanism appears to be analogous to that of the African elephant which is phylogenetically related to the hyrax, except that in the elephant the 5alpha-reduced metabolites are produced by luteal tissue and not the blood.     

Interaction of [3H]nomegestrol acetate with cytosolic progesterone receptors from the rat uterus

The binding characteristics of the progestin 17 alpha-acetoxy-6-methyl-19-[3H]norpregna-4,6-diene-3,20-dione, nomegestrol acetate ([3H]NOM-Ac) to progesterone receptors (PgRs) of uterus were determined in the rat. Scatchard plot analysis of the equilibrium binding data showed that [3H]NOM-Ac binds to uterine PgR with a Kd of 5.44 +/- 1.27 nM and a Bmax of 1.51 +/- 0.11 pmol/mg protein. Analysis of dissociation kinetics showed that [3H]NOM-Ac dissociates slowly from the PgR, k - 1 = 4.9 +/- 0.5 10(-5) s-1. Competition experiments against [3H]NOM-Ac showed the specificity of the binding with a sequence in relative affinity as follows: ORG 2058 greater than P greater than NOM-Ac greater than medroxyprogesterone acetate greater than megestrol acetate greater than cyproterone acetone greater than NOM.     

Regulation of uterine progesterone receptors by the nonsteroidal anti-androgen hydroxyflutamide

We have recently reported that the anti-androgen hydroxyflutamide causes delayed implantation and exhibits antideciduogenic activity in the rat. The present experiments were conducted to examine whether hydroxyflutamide binds to the uterine progesterone receptors and/or alters the progesterone binding sites in the uterus. Cytosol and nuclear fractions from decidualized rat uterus were incubated with [3H]-R5020 without or with increasing concentrations of radioinert R5020, RU486, dihydrotestosterone, or hydroxyflutamide. From the log-dose inhibition curves, the relative binding affinity of both hydroxyflutamide and dihydrotestosterone was less than 0.1% and 2%, compared with R5020 (100%) for displacing [3H]-R5020 bound to uterine cytosol and nuclear fractions, respectively. Injection of estradiol-17 beta (1 microgram/rat) to ovariectomized prepubertal rats induced a 1.85-fold increase in uterine weight by 24 h. Hydroxyflutamide at 2.5 or 5.0 mg did not significantly alter the estrogen-induced increase in uterine weight. Compared to vehicle alone, estrogen induced an approximately 5-fold increase in uterine cytosolic progesterone binding sites. Hydroxyflutamide at both 2.5- and 5.0-mg doses significantly attenuated the estrogen-induced elevation in uterine progesterone binding sites. These studies demonstrate that hydroxyflutamide does not bind with high affinity to progesterone receptors, but suppresses the estrogen-induced elevation in progesterone receptor levels in the uterus.     

Formation of 5alpha-reduced C19 steroids from progesterone in vivo by 5alpha-reduced pathway in older prepubertal rat testis.

Either [3H] progesterone (0.5 or 5 nmol/5 muCi), 5alpha-[3H] pregnane-3,20-dione (5 nmol/5 muCi) or [14C] progesterone (6.6 nmol/0.2 muCi) plus 5alpha-[3H]-pregnane-3,20-dione (1 or 6.6 nmol/0.6 muCi), suspended in 0.05 ml of physiological saline solution, was injected into each testis of 32- and 90-day-old rats. Following injection, radioactive metabolites in testis and spermatic vein blood were extracted, isolated, measured and identified by column and paper chromatographies, with derivative formation and recrystallization to constant specific activity. In the blood and testis of older prepubertal rats, major 17-OH-C21 and C19 metabolites of progesterone were 5alpha-reduced steroids such as 3alpha, 17alpha-dihydroxy-5alpha-pregnan-20-one, 5alpha-androstane-3alpha,17beta-diol and androsterone. Following injection of [14C] progesterone plus 5alpha-[3H] pregnane-3,20-dione into 32-day-old rat testis, no significant augmentation of the isotope from progesterone was observed in 5alpha-reduced C19 steroids as compared with 5alpha-reduced 17-OH-C21 steroids, indicating that 5alpha-reduced C19 steroids were mainly formed from 5alpha-reduced 17-OH-C21 steroids in older prepubertal testis. In the blood and testis of adult rats, small amounts of 5alpha-reduced metabolites were shown to be produced from progesterone, while active 17alpha-hydroxylation of 5alpha-pregnane-3,20-dione followed by C17-C20-lyase reaction was demonstrated. These findings seem to indicate that formation of 5alpha-reduced C19 steroids from progesterone by the 5alpha-reduced pathway is a major pathway of androgen biosynthesis in older prepubertal rat testis in vivo.     

Aromatization of androstenedione and 16alpha-hydroxyandrostenedione in human placental microsomes. Kinetic analysis of inhibition by the 19-oxygenated and 3-deoxy analogs

Inhibition of aromatase activity in human placental microsomes with androstenedione (AD) (1a) and its 19-oxygenated derivatives 1b and 1c, their 16alpha-hydroxy compounds 2 and 3, and 3-deoxyandrost-4-ene compounds 5 and 6 was studied using [1beta-(3)H]AD as a substrate and compared to that with [1beta-(3)H]16alpha-hydroxyandrostenedione (16-OHAD). AD series of steroids, compounds 1, inhibited competitively [1beta-(3)H]AD aromatization whereas other 16alpha-hydroxy steroids 2, 3, 5, and 6 inhibited AD aromatization in a non-competitive manner. On the other hand, all of 16-OHAD series, compounds 2, blocked the [1beta-(3)H]16-OHAD aromatization in a competitive manner whereas the AD series steroids 1 as well as the 3-deoxy-16alpha-hydroxy-17-one steroids 5 and 3-deoxy-16alpha,17beta-diol steroids 6 inhibited 16-OHAD aromatization non-competitively. 3-Carbonyl and 16alpha-hydroxy functions of 16-OHAD play a critical role of selection of the 16-OHAD binding site. The results suggest that the AD derivatives 1 are kinetically aromatized at a different site from the 16-OHAD derivatives 2. Physical and/or chemical environments around the aromatase protein in the microsomal membrane may play a significant role in the expression of the substrate specificity, and the present results do not exclude the idea that the placental microsomes have a single binding site.     

Interaction between rat alpha 1 fetoprotein and fluorescent derivatives of estrone in relation to the position and type of the fluorescent label

A series of derivatives of estrone with fluorescent dyes (dansyl or coumarin) coupled at different positions on the steroid molecule, have been synthesized. These derivatives were tested for their quantum yields and their binding properties were determined with respect to rat alpha 1 fetoprotein. Derivatives at C-3 (estrone-3-hemisuccinate-dansyl-cadaverine and estrone-3-dansyl) compete with estrone for binding to the fetal protein; however derivates of estrone at C-6 (estrone-6-carboxymethyloxime-dansyl-cadaverine) and at C-17 (estrone-17-carboxymethyloxime-coumarine, estrone-17-carboxymethyloxime-dansyl-cadaverine and estrone-17-dansyl-hydrazine) compete poorly or not at all. The association constant of the radioactive derivative estrone-3-dansyl [3H] with rat alpha 1 fetoprotein was measured directly: the same number of high affinity binding sites (0.6) as that for estrone was found with an apparent association constant of 3.7 X 10(6) M-1. In addition to the high affinity binding sites, a low affinity class of binding sites was found which corresponds to the binding of the dansyl fraction of the fluorescent steroid derivative.     

Binding characteristics of progesterone and antiprogestin ZK 98.299 in human endometrial and myometrial cytosol

The binding of ZK 98.299, a synthetic progesterone antagonist, with human endometrium and myometrium cytosol was studied and compared with that of progesterone. Progesterone showed specific saturable binding to its receptors in both endometrium and myometrium. ZK 98.299 and progesterone were mutually competitive for binding to progesterone receptors; however, the relative binding affinity of ZK 98.299 was 16% that of progesterone. ZK 98.299 exchanged the progesterone-labelled receptor sites. [3H]ZK 98.299 showed specific binding which was linearly related to the cytosol protein concentration. The binding was not saturable at 15 nM of ligand. The binding capacity and binding affinity of ZK 98.299 receptor was less than that of progesterone. Progesterone also partially displaced the binding of [3H]ZK 98.299. This study suggest that ZK 98.299 and progesterone both bind to the same protein. However, whether ZK 98.299 binds to progesterone receptors alone or even to other functionally related sites is not known. It appears that ZK 98.299 when present in higher concentration than progesterone would be an effective receptor ligand.     

High affinity progesterone binding sites of human uterine microsomal membranes

Microsomal membranes sedimented at 40 000 g were prepared from human myometrium samples. The progesterone binding properties of microsomal suspensions were determined by incubating microsomes and [3H]progesterone at 4 degrees C. Dextran-coated charcoal was used for the separation of bound and free steroids. Membrane-associated progesterone binding sites of high affinity were identified in microsomes prepared from pregnant and nonpregnant uteri. The binding was saturable (Kd approximately 4 X 10(-9) M, concentration of binding sites 400-900 fmol/mg microsomal protein) and specific for natural progesterone. Of 21 steroids tested only 21-hydroxy-4-pregnene-3,20-dione, 17 alpha-hydroxyprogesterone and testosterone showed moderate competition against progesterone with relative affinities between 7.0-20.0% (R.A. of progesterone 100%). 5 alpha-Dihydroprogesterone and 5 alpha-dihydrotestosterone showed weak cross reaction (relative affinities 2.5 and 2.0%, respectively). Corticosteroids, estrogens and the 5 synthetic progestins tested showed only weak competition with relative affinities lower than 1.0%. These microsomal progesterone binding sites of high affinity and limited capacity resemble steroid hormone receptors but they are different from the soluble cytosolic progesterone receptor of human uterus in terms of steroid specificity. The physiological function of this microsomal progesterone receptor is unknown.     

Estrogen receptors in the adrenal cortex of the possum (Trichosurus vulpecula)

1. Specific [3H]estradiol binding activity with characteristics of estrogen receptors was found in the cytosols and nuclear extracts of the adrenal cortex proper and special zone of the brushtail possum (Trichosurus vulpecula). 2. The specific estradiol receptor had a sedimentation coefficient on sucrose gradients of approximately 9S and a molecular weight on gel filtration of more than 200,000. The adrenal cortex cytosol binds [3H]estradiol with high affinity (Ka 5.5 X 10(9) M-1), and limited capacity (Bmax 62.7 fmol/mg cytosol prot). In competition experiments with different steroids the receptor showed a high affinity for four estrogens and a very low affinity to androgens, progesterone and cortisol. 3. There was no difference in the affinity and maximum binding capacity of the cytosols from cortex proper in male and female animals, but the binding capacity of the special zone of females was half that of cortex proper. Estradiol receptors were found in the kidney, liver, lung, testis and muscle but only in the adrenal and prostate was the binding capacity relatively high compared with the uterus. 4. The specific binding capacity of [3H]estradiol to cytosols of adrenal cortex at different stages of the estrus cycle and pregnancy was unrelated to that of the uterus. In the adrenal the receptor concentration was lowest at estrus, when uterine concentration was high, while in late pregnancy the binding of adrenal cortex and uterus cytosols was almost the same. 5. The possible physiological significance of the presence of a specific estrogen receptor in male and female possums is discussed.     

Production of testosterone from progesterone by rat testicular microsomes without release of the intermediates 17 alpha-hydroxyprogesterone and androstenedione

It has been shown that during the in vitro conversion of progesterone to androstenedione, 17 alpha-hydroxyprogesterone is not an obligatory intermediate which equilibrates with freely diffusible steroids in the incubation medium. Recently a cytochrome P-450 was purified that catalyzed, in addition to hydroxylase/lyase activities, reduction of androstenedione to testosterone. In order to determine whether progesterone could be transformed to testosterone without both intermediates (17 alpha-hydroxyprogesterone and androstenedione) being equilibrated with steroids in the medium, several double-label double-substrate experiments were performed. When rat microsomes were incubated with an equimolar mixture of [14C]progesterone and 17 alpha-hydroxy[3H]progesterone, androstenedione was isolated with a 11-fold higher 14C/3H ratio than 17 alpha-hydroxyprogesterone, indicating that androstenedione could not be produced from free, diffusible 17 alpha-hydroxyprogesterone. Incubation of an equimolar mixture of 17 alpha-hydroxy[3H]progesterone and [14C]androstenedione with testicular microsomes resulted in the incorporation of 3-4-fold more 17 alpha-hydroxyprogesterone into testosterone than of androstenedione, although the latter is the immediate precursor of testosterone. In an experiment in which equimolar concentrations of [3H]progesterone and [14C]androstenedione were incubated with testicular microsomes, the large pool of progesterone inhibited competitively lyase activity, but still the label of progesterone was incorporated into testosterone to the same extent as that of androstenedione. These results indicate that testosterone can be produced by immature rat testicular microsomes from added progesterone on an organized unit without the intermediates equilibrating with the incubation medium.     

Photoaffinity labeling of steroid 5 alpha-reductase of rat liver and prostate microsomes

21-Diazo-4-methyl-4-aza-5 alpha-pregnane-3,20-dione (Diazo-MAPD) inhibits steroid 5 alpha-reductase in liver microsomes of female rats with a Ki value of 8.7 +/- 1.7 nM, and the inhibition is competitive with testosterone. It also inhibits the binding of a 5 alpha-reductase inhibitor, [3H] 17 beta-N,N-diethylcarbamoyl-4-methyl-4-aza-5 alpha-androstan-3-one ([3H]4-MA), to the enzyme in liver microsomes. The inhibition of 5 alpha-reductase activity and of inhibitor binding activity by diazo-MAPD becomes irreversible upon UV irradiation. [1,2-3H]Diazo-MAPD binds to a single high affinity site (Kd 8 nM, 125 pmol binding sites/mg of protein) in liver microsomes of female rats, and this binding requires NADPH. Without UV irradiation, this binding is reversible, and it becomes irreversible upon UV irradiation. Both the initial reversible binding and the subsequent irreversible conjugation after UV irradiation are inhibited by inhibitors (diazo-MAPD and 4-MA) and substrates (progesterone and testosterone) of 5 alpha-reductase, but they are not inhibited by 5 alpha-reduced steroids (5 alpha-dihydrotestosterone and 5 alpha-androstan-3 alpha, 17 beta-diol). NADPH stimulates the binding of [3H] diazo-MAPD to microsomes of male rat liver and prostate. UV irradiation also induces conjugation of [3H] diazo-MAPD to these microsomes. Photoaffinity labeled liver microsomes of female rats were solubilized and fractionated by high performance gel filtration. The radioactive conjugate eluted in one major peak at Mr 50,000.     

Metabolic pathways for androstanediol formation in immature rat testis microsomes

Metabolic routes from progesterone to androstanediol in washed rat testicular microsomes were investigated, with special emphasis on the importance of 4-ene-3-oxosteroids, as well as the effect of a minimal effective dose of human chorionic gonadotropin on these transformations. Incubation of equimolar concentrations of a mixture of [¹⁴C]progesterone and 17α-hydroxy[³H]progesterone resulted in a large preference of 17α-hydroxyprogesterone over progesterone as substrate for androstanediol formation. Incubation of [³H]progesterone together with [¹⁴C]androstenedione resulted in the inhibition of C-17,20-lyase and in a low ¹⁴C/³H ratio in androstanediol, indicating the preference of progesterone over androstenedione as substrate for androstanediol production. When a mixture of 17α-hydroxyl[³H]progesterone and [¹⁴C]androstenedione was incubated with the microsomes, a more than 8-fold preference of 17α-hydroxyprogesterone as substrate for androstanediol production was found. The minimal dose of human chorionic gonadotropin stimulated testosterone production but inhibited androstanediol formation and effected, in some instances, a change in the metabolic routes. It is concluded that androstanediol is produced preferentially through 17-hydroxylated C-21 steroids, and also, to a lesser extent, through C-19 steroids.     

Approaches to the design of selective ligands for membrane progesterone receptor alpha

A number of progesterone derivatives were assayed in terms of their affinity for recombinant human membrane progesterone receptor alpha (mPRα) in comparison with nuclear progesterone receptor (nPR). The 16α,17α-cycloalkane group diminished an affinity of steroids for mPRα without significant influence on affinity for nPR, thus rendering a prominent selectivity of ligands for nPR. On the contrary, substitution of methyl at C10 for ethyl or methoxy group moderately increased the affinity for mPRα and significantly lowered the affinity for nPR. A similar but even more prominent effect was observed upon substitution of the 3-oxo group for the 3-O-methoxyimino group. A significant preference towards mPRα was also rendered by the 17α-hydroxy group and additional C6–C7-double bond. The data suggest that the modes of lig- and interaction with mPRα and nPR in the C3 region of the steroid molecule are different. One can speculate that combination of the above substitutions at C17, C10, C6, and C3 may give ligand(s) with high specificity towards mPRα over nPR.