Regulation of 3 beta-hydroxysteroid dehydrogenase activity by human chorionic gonadotropin, androgens, and anti-androgens in cultured testicular cells

delta 5-3 beta-Hydroxysteroid dehydrogenase is a key enzyme for testicular androgen biosynthesis and a marker for the Leydig cells. The hormonal regulation of this enzyme was studied in cultured rat testicular cells. Human chorionic gonadotropin (hCG) increased testosterone production in vitro while time course studies indicated a biphasic action of the gonadotropin on 3 beta-hydroxysteroid dehydrogenase activity. An initial stimulation (51%) of the enzyme was detected between 3 and 12 h of culture when medium testosterone was low. This is followed by an inhibition of 3 beta-hydroxysteroid dehydrogenase activity on days 2 and 3 of culture when medium testosterone was elevated. Concomitant treatment with a synthetic androgen (R1881) inhibited 3 beta-hydroxysteroid dehydrogenase activity and testosterone production in hCG-treated cultures while an anti-androgen (cyproterone acetate) increased 3 beta-hydroxysteroid dehydrogenase activity and testosterone biosynthesis. Addition of 10(-5) M spironolactone, an inhibitor of 17 alpha-hydroxylase, blocked the hCG stimulation of testosterone production but increased medium progesterone. In the absence of the secreted androgen, hCG stimulated 3 beta-hydroxysteroid dehydrogenase activity in a time- and dose-related manner. Furthermore, hCG stimulation of 3 beta-hydroxysteroid dehydrogenase activity and progesterone accumulation in spironolactone-supplemented cultures was decreased by concomitant treatment with R1881 but was not affected by cyproterone acetate. The inhibitory effect of R1881 was blocked by the anti-androgen. In the absence of hCG, treatment with testosterone, dihydrotestosterone, or R1881, but not promegestone, alone also inhibited 3 beta-hydroxysteroid dehydrogenase activity while the inhibitory effect of testosterone was blocked by cyproterone acetate. Thus, hCG stimulates 3 beta-hydroxysteroid dehydrogenase activity in cultured testicular cells. The androgenic steroidogenic end products, in turn, inhibit this enzyme. The hormonal regulation of 3 beta-hydroxysteroid dehydrogenase activity may be important in the ultrashort loop autoregulation of androgen biosynthesis.     

Progestin regulation of progesterone biosynthetic enzymes in cultured rat granulosa cells

Progestins have recently been shown to augment gonadotropin-stimulated progesterone and 20 alpha-hydroxypregn-4-en-3-one (20 alpha-OH-P) biosynthesis in cultured rat granulosa cells. The mechanism by which progestins autoregulate ovarian progestin biosynthesis was investigated by studying the modulation of pregnenolone biosynthesis as well as the activities of the enzymes 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) and 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD). Granulosa cells obtained from immature hypophysectomized, estrogen-treated rats were cultured with FSH and/or progestins. Pregnenolone production was measured in the presence of cyanoketone (10(-6) M) to inhibit 3 beta-HSD activity. Enzymatic activities of 3 beta-HSD and 20 alpha-HSD were determined in cell homogenates by direct enzyme assays. FSH stimulated pregnenolone production, while treatment with progesterone or R5020 alone was ineffective. Concomitant treatment with the progestins further enhanced FSH-stimulated pregnenolone production in a dose-dependent manner with minimal effective doses of 10(-8) and 10(-7) M for R5020 and progesterone, respectively. In FSH-primed cells, LH increased pregnenolone accumulation, and concomitant treatment with R5020 also enhanced the LH action. Furthermore, the gonadotropins stimulated the activity of 3 beta-HSD, and this effect was further enhanced by concomitant treatment with either R5020 or progesterone in a dose-dependent manner. In addition, the 20 alpha-HSD activities were enhanced by progestins in cells treated with FSH but not with LH. Thus, both natural and synthetic progestins stimulate the gonadotropin-induced progesterone production in cultured granulosa cells via enhancing the 3 beta-HSD enzyme as well as pregnenolone biosynthesis.     

Functional activity of rat testicular cells in culture

Testicular cells from adult hypophysectomized rats were cultured for 10 or 12 days, and the effect of treatment with hCG (10 ng/ml) on testosterone and progesterone production and the activity of the Leydig cell enzyme, 3 beta-hydroxysteroid dehydrogenase, were studied. Regardless of hormone treatment, on 4th day in culture a decline in the steroidogenic activity of cultured cells could be observed. Treatment with hCG resulted in stimulation of steroidogenesis on days 6 to 10 in culture, as measured by testosterone and progesterone production. Hormone treatment stimulated or inhibited the enzyme activity depending on the presence or absence in the culture medium of 10(-6) M spironolactone, an inhibitor of 17 alpha-hydroxylase, or an anti-androgen, cyproterone acetate.     

催乳素对培养的绵羊睾丸间质细胞睾酮分泌的影响

在绵羊睾丸间质细胞体外无血清长期培养的条件下,研究了催乳素对睾丸间质细胞睾酮分泌的调节作用。实验结果表明,催乳素可增强细胞对人绒毛膜促性腺激素(hCG)刺激的反应。催乳素的这种作用呈双相调节。睾酮分泌量显著高于hCG和催乳素单独作用时的总和。在hCG存在下,不同的底物转化为睾酮的量不同。其中雄烯二酮和孕酮转化为睾酮的方式存在着双相性。脱氢表雄酮转为睾酮的量少,不存在双相性,而与其剂量成正比。催乳素在hCG存在下可调节底物转化为睾酮。低剂量的催乳素(1ng/ml)可使一定剂量的孕酮(10～30ng/ml)转化为睾酮的量明显增加,而高剂量的催乳素(>10ng/ml)却明显地抑制孕酮转化为睾酮。催乳素可明显地抑制雄烯二酮转化为睾酮,与剂量无关。可见催乳素对于孕酮和雄烯二酮这两个关键底物转化为睾酮的调节是不同的。催乳素增强hCG刺激睾酮分泌的作用可能部分是通过其促进孕酮转化为睾酮来实现的。     

Androgen regulation of progestin biosynthetic enzymes in FSH-treated rat granulosa cells in vitro

The influence of androgens on the FSH modulation of progestin biosynthetic enzymes was studied $\text{in vitro}$. Granulosa cells obtained from immature, hypophysectomized, estrogen-treated rats were cultured for 3 days in a serum-free medium containing FSH (20 ng/ml) with or without increasing concentrations (10^?9?10^?6 M) of 17β-hydroxy-5α-androstan-3-one (dihydrotestosterone; DHT), 5α-androstane-3α, 17β-diol (3α-diol), or the synthetic androgen 17β-hydroxy-17-methyl-4,9,11-estratrien-3-one (methyltrienolone; R1881). FSH treatment increased progesterone and 20α-hydroxy-4-pregnen-3-one(20α-OH-P) production by 10.2- and 11-fold, respectively. Concurrent androgen treatment augmented FSH-stimulated progesterone and 20α-OH-P production in a dose-related manner (R1881 > 3α-diol > DHT). In the presence of an inhibitor of 3β-hydroxysteroid dehydrogenase (3β-HSD), the FSH-stimulated pregnenolone (3β-hydroxy-5-pregnen-20-one) production (a 20-fold increase) was further enhanced by co-treatment with R1881, 3α-diol or DHT. Furthermore, FSH treatment increased 4.4-fold the activity of 3β-HSD, which converts pregnenolone to progesterone. This stimulatory action of FSH was further augmented by concurrent androgen treatment. In contrast, androgen treatment did not affect FSH-stimulated activity of a progesterone breakdown enzyme, 20α-hydroxysteroid dehydrogenase(20α-HSD). These results demonstrate that the augmenting effect of androgens upon FSH-stimulated progesterone biosynthesis is not due to changes in the conversion of progesterone to 20α-OH-P, but involves an enhancing action upon 3β-HSDΔ⁵, Δ⁴-isomerase complexes and additional enzymes prior to pregnenolone biosynthesis.     

Effects of amphetamine on steroidogenesis in MA-10 mouse Leydig tumor cells

Amphetamine influences plasma and testicular testosterone levels. However, there is no evidence that amphetamine can directly influence Leydig cell functions. In the present study, a MA-10 mouse Leydig tumor cell line was used to determine whether and how amphetamine affected Leydig cell steroidogenesis. MA-10 cells were treated with different concentrations of amphetamine without or with human chorionic gonadotropin (hCG) and/or enzyme precursors over different time durations. Steroid production, enzyme activities and StAR protein expression were determined. Amphetamine alone had no any effect on MA-10 cell steroidogenesis. However, amphetamine (10(-11)M and 10(-10)M) significantly enhanced hCG-treated progesterone production at 3 hr in MA-10 cells (p < 0.05). Furthermore, amphetamine significantly induced more progesterone production upon treatment with 22R-hydroxycholesterol (p < 0.05), a precursor of P450 side-chain cleavage enzyme (P450scc). However, amphetamine did not induce more progesterone production when treated with pregnenolone (p > 0.05), a precursor of 3beta-hydroxysteroid dehydrogenase. In addition, the expressions of StAR protein and P450scc enzyme were not significantly different between hCG alone and hCG plus amphetamine treatment in MA-10 cells (p > 0.05). These results suggested that amphetamine enhanced hCG-induced progesterone production in MA-10 cells by increasing P450scc activity without influencing StAR protein and P450scc enzyme expression or 3beta-HSD enzyme activity.     

Influence of A23187 and dibutyryl cyclic AMP on progestagen production by rat granulosa cells in vitro

The gonadotrophic regulation of progesterone production by rat granulosa cells was examined in a chemically-defined medium containing FSH, dibutyryl cyclic AMP [Bu)2cAMP) and the calcium ionophore, A23187. FSH and A23187 alone significantly enhanced the production of pregnenolone, progesterone and its metabolite, 20 alpha-hydroxypregn-4-en-3-one (20 alpha-OH-P) from endogenous substrate(s). Stimulation of progesterone production by A23187 was accompanied by an increase in 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) but not 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD) activity, as attested by enhancement of the metabolism of exogenous pregnenolone to progesterone but not of progesterone to 20 alpha-OH-P. In contrast, although (Bu)2cAMP increased pregnenolone and progesterone production and the metabolism of exogenous progesterone to 20 alpha-OH-P, it failed to stimulate the conversion of exogenous pregnenolone to progesterone. The increase in progesterone production and in the conversion of exogenous pregnenolone to progesterone by FSH and A23187 was concentration- and time-dependent. Whereas maximal stimulation of de-novo progesterone synthesis by FSH was evident by 6 h (earliest time examined), a significant increase in the conversion of exogenous pregnenolone to progesterone in the presence of FSH or the ionophore was not noted until 12 h of incubation. Although a small but significant increase in progesterone production was also noted as early as 6 h of incubation in the presence of the calcium ionophore, this was markedly smaller than that elicited by FSH. We conclude that the calcium ionophore A23187 and (Bu)2cAMP have similar as well as distinct effects on progesterone production in rat granulosa cells in vitro.(ABSTRACT TRUNCATED AT 250 WORDS)     

Bromocriptine-induced inhibition of hydroxylase/lyase activity of adult rat Leydig cells

The present in vitro studies using a suspension of Leydig cells from adult rat testis demonstrated that bromocriptine (BR, 2 × 10⁻⁵M) inhibits hCG-stimulated testosterone production (in the presence of submaximal and maximal doses of hCG), while basal production was unaffected. When the cells were exposed to 8-bromo-cAMP either in the presence or absence of hCG, the inhibitory effect of BR was not reversed. In intact cells, BR inhibited conversion of progesterone and 17-hydroxy-progesterone to testosterone while conversion of androstenedione was not affected. Incubation of homogenates of Leydig cells in the presence of limiting NADPH concentrations ( 0.1 mM) resulted in significant BR-induced inhibition of conversion of progesterone (10 μM) to testosterone, while in the presence of “high” concentrations of NADPH ( 0.5 mM) BR was without effect. Present results suggest that BR inhibits androgen production at the level of the microsomal enzymes 17-hydroxylase and/or 17,20-lyase. The inhibitory effect of BR using homogenates of Leydig cells was evident only in the presence of limiting NADPH concentrations that suggests a competitive-like pattern of inhibition, but mechanisms by which BR decreases activity of microsomal enzymes remain to be determined.     

Mouse Leydig tumor cells produce C-19 steroids,including testosterone

The mouse Leydig tumor cells (MLTC-1) were derived from a transplantable Leydig cell tumor carried in C57BL/6 mice. The original cell line (M5480) produced testosterone and little progesterone. However, it was later shown that there were two subtypes of the cell line, one producing mainly progesterone and termed M5480P and the other which produced androgens and termed M5480A. MLTC-1 cells are reportedly derived from the former. We studied the production of testosterone by MLTC-1 cells using a specific and sensitive testosterone RIA, tandem mass spectrometry (TMS) and examined the expression of mRNA of some key enzymes involved in steroidogenesis. Although the molar yields were 1:20:60 for testosterone, androstenedione and progesterone, respectively, in response to human chorionic gonadotropin (hCG), testosterone measured by our RIA accounted for 94% of the testosterone immunoreactivity. Both MLTC-1 and Balb/c Leydig cells expressed Steroidogenic Acute Response (StAR) protein mRNA in response to hCG. Cytochrome P450 17alpha-hydroxylase/17,20-lyase mRNA was expressed constitutively in MLTC-1 and Balb/c Leydig cells. Whereas the latter expressed 17beta-hydroxydehydrogenase/17-ketoreductase isoform Type 3mRNA in response to hCG, MLTC-1 cells expressed isoform Type 7 constitutively. The absence of isoform Type 3 in MLTC-1 cells thus may account for the low conversion of androstenedione to testosterone in this cell line. However, with a very specific and sensitive RIA even the low production of testosterone becomes meaningful. In conclusion MLTC-1 cells produce testosterone.     

Effect of in vitro ketoconazole on steroid production in rat testis

In an attempt to confirm where in the testosterone (T) biosynthetic pathway of the rat testis ketoconazole (KTZ) inhibits T production, rat testicular mince was incubated with either 10 micrograms/ml or 100 micrograms/ml KTZ in the presence and absence of hCG (1 IU), and intratesticular pregnenolone (delta 5P), progesterone (P), 17-alpha-hydroxyprogesterone (17 alpha-HP), androstenedione (A) and testosterone (T) were assayed. In the absence of hCG, 10 micrograms/ml KTZ was sufficient to reduce intratesticular T by 80%. At this concentration of KTZ, intratesticular 17 alpha-HP (ng/g testis, mean +/- SEM) increased from 0.3 +/- 0.1 to 1.3 +/- 0.2 (p less than 0.0025), whereas intratesticular A decreased from 84 +/- 7 to 17 +/- 1 (p less than 0.005). KTZ did not inhibit the conversion of P to 17 alpha-HP. From these data it was concluded that KTZ has its inhibitory effect on testosterone biosynthesis in the rat testis primarily at the step catalyzed by the 17,20 desmolase enzyme.     

Studies with purified immature porcine Leydig cells in primary culture

The steroidogenic capacity of purified immature porcine Leydig cells in culture was studied over several days. The cells were obtained by fractionating crude testicular interstitial cell suspensions on a discontinuous Percoll gradient (d = 1.037, 1.042, 1.052, 1.098 g/ml), and characterized by specific binding of 125I-human chorionic gonadotropin (hCG), testosterone (T) and cyclic adenosine 3':5'-monophosphate (cAMP) production in response to hCG, and the enzymatic determination of delta 5-3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) activity. The Leydig cells were recovered in a density band between 1.052-1.068 g/ml and grown in a chemically defined medium (Mather et al., 1981). In the absence of hCG, T production was low throughout the 6 days of culture. However, in response to hCG (10 mIU/ml), the cultured Leydig cells showed a progressive increase in T synthesis, which reached a maximum at Days 3-4. 8-Br-cAMP (1 mM) induced a comparable rise in T production to that obtained with hCG throughout the culture period. In contrast, 8-Br-cAMP induced a near maximal increase in dehydroepiandrosterone (DHEA) production from Day 1. This paper demonstrates that purified immature porcine Leydig cells in primary culture are a valuable model to study the ontogeny of Leydig cell function.     

Effects of follicle regulatory protein on thecal aromatase and 3 beta-hydroxysteroid dehydrogenase activity in medium- and large-sized pig follicles

Theca was excised from large (greater than 8 mm) and medium-sized (3-6 mm) pig follicles and prepared as monolayer cultures in serum-free media. After 24 h cells were treated with (1) M199 (control), (2) 5 i.u. hCG, (3) 100 micrograms or 100 ng FRP or (4) hCG (5 i.u.) + FRP (100 micrograms or 100 ng). At 3, 6, 12, 24 and 48 h after treatment, progesterone, oestradiol, androstenedione and testosterone were measured in media. Formation of progesterone by microsomal fractions incubated (37 degrees C) with 1 microM-pregnenolone + 5-microM-NAD+ for 1 h was used as a measure of 3 beta-HSD activity. Aromatase activity was determined by incubating cells with [3H]testosterone for 3 h (37 degrees C) and measuring 3H2O release. In theca from large follicles, hCG enhanced 3 beta-HSD activity after 48 h (P less than 0.05) and secretion of progesterone after 36 h. FRP alone inhibited 3 beta-HSD activity at 36 and 72 h, but had little effect on progesterone secretion. FRP inhibited (P less than 0.05) the hCG-induced increase in 3 beta-HSD activity at 36, 48 and 72 h. HCG enhanced aromatase activity after 48 h while FRP prevented (P less than 0.05) the hCG-induced increase in aromatase activity at 48 and 72 h. Secretion of oestradiol was enhanced (P less than 0.05) at 48 h but inhibited at 72 h by hCG. FRP alone had little effect on secretion of oestradiol but hCG + FRP was inhibitory at 72 h.(ABSTRACT TRUNCATED AT 250 WORDS)     

Absence of LHRH effect on testosterone production by Leydig cells from fetal mouse testis

The effect of LHRH and one of its agonist (des-gly10 (D-Ala6)-LHRH-ethylamide) on the functional activity (testosterone and progesterone production) of purified fetal mouse Leydig cells was examined in short-term primary culture and under dynamic conditions. The continuous presence of increasing concentrations of LHRH (10(-10) to 10(-6) M) for 3 days was unable to affect the hCG-stimulated testosterone production on any day of culture. Stimulated testosterone production progressively decreased from day 1 to day 3 of culture (P less than 0.001). Progesterone accumulation increased in both basal and hCG stimulated conditions during the same period (P less than 0.001) and was not altered by the presence of LHRH at all three concentrations tested. There was no effect of LHRH pretreatment either on the basal production or on the acute hCG stimulation studied during a subsequent 6 h incubation. Exposure of cells to hCG for 120 min enhanced testosterone accumulation. No change in kinetic characteristics was observed when LHRH (10(-6) M) was continuously present in the medium. These results show that LHRH does not have any detectable effect on the fetal population of Leydig cell in the mouse.     

The effects of reduced O2 and antioxidants on steroidogenic capacity of cultured rat Leydig cells

We have examined the effects of reduced O2 tension and the antioxidant dimethylsulfoxide (DMSO) to determine if O2-derived free radicals are the cause of decreased steroidogenic capacity (testosterone and progesterone production) of cultured rat Leydig cells. Rat Leydig cells were initially cultured under standard conditions of 5% CO2, 95% air (19% O2) with or without DMSO. Addition of DMSO resulted in increased basal testosterone production on days 2, 3 and 4 of culture. hCG (10 mIU)-stimulated testosterone secretion was 2-3 times greater on days 2 and 3 in the presence of DMSO. Lowering the O2 concentration to 5% in the presence of DMSO resulted in even greater hCG-stimulated testosterone production on days 1 to 3. However, the effect of DMSO or low O2 and DMSO were not seen after 5 days. The reduced O2 concentration resulted in an increase in hCG (10 mIU)-stimulated progesterone synthesis throughout the culture, particularly on days 4 to 8. Also, when total steroid (progesterone and testosterone) was determined, cells cultured under reduced O2 conditions responded with increased steroid production on days 1 to 8 in comparison to controls (19% O2). These results demonstrate that lowered O2 concentration and DMSO provide a protective effect resulting in the maintenance of testosterone production and an increase in progesterone synthesis. These findings suggest that free radical-mediated damage of enzymes may result in decreased steroidogenic capacity of cultured Leydig cells.     

Introduction of a gonadotropin receptor expression plasmid into immortalized granulosa cells leads to reconstitution of hormone- dependent steroidogenesis

We have recently succeeded in immortalizing rat granulosa cells by co- transfection with SV-40 DNA and the Ha-ras oncogene. These cells lost their response to gonadotropins, but expressed the cytochrome P450scc mitochondrial system enzymes and produced progesterone and 20 alpha- hydroxy-4-pregnan-3-one (20 alpha-OH-P) upon cAMP stimulation (Suh, B. S., and A. Amsterdam. 1990. Endocrinology. 127:2489-2500; Hanukoglu, I., B. S. Suh, S. Himmelhoch, and A. Amsterdam. 1990. J. Cell Biol. 111:1973-1981). In an attempt to restore the steroidogenic response to gonadotropins in immortalized cells, lutropin/choriogonadotropin (LH/CG- R) receptor expression plasmid was prepared by introducing the complete coding region of LH receptor cDNA (McFarland, K. C., R. Sprengel, H. S. Phillips, M. Kohler, N. Rosemblit, K. Nikolics, D. L. Segaloff, and P. H. Seeburg. 1989. Science (Wash. DC). 245:494-499) into a SV-40 early promoter based eucaryotic expression vector. Granulosa cells from preovulatory follicles were transfected with this LH receptor expression plasmid, together with SV-40 DNA and the Ha-ras oncogene. Cell lines obtained after this triple transfection accumulated cAMP in a dose-dependent manner in response to hCG. Moreover, they produced progesterone and 20 alpha-OH-P upon hCG stimulation with an ED50 of 125 pM and 75 pM, respectively, which is within the physiological range. Concomitantly with hCG induced differentiation, inhibition of cell proliferation was evident following stimulation with hormone concentrations as low as 40 pM. The number of hCG receptor sites per cell after numerous passages and several freezing and thawing cycles was 1.9 x 10(4), they showed a Kd of 180 pM. Stimulation with hCG induced pronounced morphological and biochemical changes in these cells including formation of mitochondrial located adrenodoxin, a marker enzyme for enhanced steroidogenesis. These findings make possible the expression in immortalized granulosa cells, of selectively mutated receptor molecules which preserve their steroidogenic potential, thereby opening the way to analysis of structure-function relationships of the receptor molecule.     

R5020 enhances PGE2 stimulated steroidogenesis in cultured rat granulosa cells.

Progesterone biosynthesis and metabolization to 20 alpha-hydroxyprogesterone was stimulated in granulosa cells cultured in the presence of 20 ng/ml of follicle stimulating hormone (FSH) or increasing concentrations of PGE2 (10(-9)-10(-7)M). Concurrent treatment with the synthetic progestin R5020 (10(-6) M) enhanced the FSH or PGE2 stimulated progesterone and 20 alpha-hydroxyprogesterone accumulation in culture media, as well as delta 5-3 beta-hydroxysteroid dehydrogenase activity in granulosa cell homogenates. These findings may represent another example of an autocrine control mechanism in which the steroidogenic product of the granulosa cell exerts an ultra-short loop regulation of its own production.     

Subcellular distribution and properties of progesterone (delta4-steroid) 5alpha-reductase in rat medial basal hypothalamus.

The subcellular distribution and properties of rat hypothalamic progesterone 5 alpha-reductase, which accelerates the conversion of progesterone to 5 alpha-pregnane-3,20-dione, have been investigated by utilizing 3H-labeled substrate and a reverse isotopic dilution assay system. The enxymic activity was associated primarily with a cell debris-membranes fraction deribed from the 100 x g pellet. This fraction contained mainly membrane-like particulates and was free of nuclei. Little or no activity was associated with the purified nuclei. The hypothalamic 5 alpha-reductase was stimulated by NADPH but not by NADH. The reaction proceeded optimally over a pH range of 6.0 to 7.2 and at a temperaturhe substrate specificity of the enzyme for other delta 4-3-ketosteroids and the ability of these steroids to inhibit the 5 alpha reduction of [1,2-3H]progesterone as well as the effect of 17 beta-estradiol were also studied. 20 alpha-hydroxypregn-4-en-3-one was more reactive that progesterone, while testosterone was the least reactive. The estimated Km for 20 alpha-hydroxypregn-4-en-3-one was 8.6 +/- 1.9 x 10(-7) M, and for testosterone, 1.6 +/- 1.4 x 10(-5) M. The inhibition studies indicate that 20 alpha-hydroxypregn-4-en-3-one and 17 beta-estradiol are competitive and noncompetitive inhibitors, respectively, of the 5 alpha reduction of progesterone with Ki of 6.0 +/- 3.0 x 10(-8) M for 20 alpha-hydroxypregn-4-en-3-one and Kii (intercept inhibition constant) of 2.6 +/- 0.7 x 10(-5) M and Kis (slope inhibition constant) of 3.6 +/- 0.6 x 10(-5) M for 17 beta-estradiol. Testosterone is a poor competitive inhibitor of the reaction.     

Properties and subcellular distribution of delta4-steroid (progesterone) 5alpha-reductase in rat anterior pituitary.

The properties and subcellular distribution of anterior pituitary delta4-steroid (progesterone) 5alpha-reductase, which stimulates the conversion of progesterone to 5alpha-pregnane-3,20-dione, have been investigated utilizing 3H-substrate and a reverse isotopic dilution assay system. The enzymic activity was stimulated by NADPH but not NADH and exhibited a Km of 2.7+/-0.9 times 10(-7) M for progesterone. The substrate specificity of the enzyme for other delta4-3-ketosteroids and the effect of estradiol-17beta were also studied. 20alpha-hydroxy-4-pregnen-3-one was more reactive than progesterone, while testosterone was less reactive. Estradiol-17beta in vitro had an inhibitory effect on the 5alpha-reduction of progesterone. Studies on the subcellular distribution of the 5alpha-reductase activity indicate that the bulk of the activity was widely distributed amongst particulates sedimenting at 1,000, 15,000 and 100,000xg; with the 15,000xg pellet containing the most enzymic activity. The 100,000xg supernatant possessed only a small fraction of the total activity. After further fractionation of the 1,000xg pellet, the activity was distributed equally between the purified nuclear and cell debris-membranes fractions.     

Modulation of 17 alpha-hydroxylase/C17,20-lyase activity in porcine theca cells

The major source of ovarian androgen is the theca cells. Androgens are produced by the conversion of progestins by the 17 alpha-hydroxylase/C17,20 lyase enzymatic system (lyase). The 3 beta-hydroxysteroid dehydrogenase and aromatase enzymes in the theca cells are modulated by gonadotropins as well as by steroids produced locally. Therefore, the combined effects of hCG plus progesterone, estradiol, or dihydrotestosterone (DHT) on microsomal lyase activity in theca cells from large and medium-sized follicles were determined. Theca cells (3 x 10(6) cells/6 ml/well) were cultured in Medium 199 (M199) containing only insulin (10 micrograms/ml) and transferrin (5 micrograms/ml). At 24 h, theca cells were treated with M199, hCG (15 ng/ml), progesterone, estradiol, or DHT (100 ng/ml) or a combination of hCG + one of the three steroids. Media were removed at various times of culture (27-72 h) and levels of androgen determined by RIA. Microsomes were incubated with 1 microCi [3H]progesterone +0.5 mM NADPH and radioactive conversion products were measured after purification by thin layer chromatography. Administration of progesterone, estradiol, or DHT alone had little effect on lyase activity in theca cells from medium-sized follicles whereas the addition of hCG alone significantly increased lyase activity in these cells. However, concomitant addition of any steroid with hCG inhibited the increase in lyase activity after the addition of hCG alone. Theca cells from large porcine follicles had a higher basal level of lyase activity compared to theca cells from the smaller follicles. Lyase activity in theca cells from large follicles was enhanced by progesterone; estradiol was inhibitory. DHT initially stimulated lyase activity in theca cells from large follicles, but was inhibitory later in culture. In contrast to its marked effect on theca cells from medium follicles, hCG had only a small effect on lyase activity in theca cells from large follicles. Thus, thecal lyase activity increased as the follicle matured, providing more androgen substrate for the production of estrogen. Lyase activity in theca cells of medium follicles appears to be regulated predominantly by gonadotropin from the pituitary while intraovarian regulation of lyase activity by steroids may be more important in larger follicles.     

Estrogen regulation of progestin biosynthetic enzymes in cultured rat granulosa cells

The mechanism by which estrogens enhance gonadotropin-stimulated ovarian progestin production was investigated by studying the modulation of pregnenolone biosynthesis as well as the activities of 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) and 20 alpha-hydroxysteroid dehydrogenase (20 alpha-HSD) in cultured rat granulosa cells. Cells from immature hypophysectomized, estrogen-treated rats were cultured for 3 days with follicle-stimulating hormone (FSH) and/or estrogens. Pregnenolone production was measured in the presence of cyanoketone which inhibits 3 beta-HSD activity. Activities of 3 beta-HSD and 20 alpha-HSD were determined in cell homogenates by direct enzyme assays. Some cells were also primed with FSH to induce luteinizing hormone (LH) receptors for studies on the effects of estrogens on LH-modulated parameters. Pregnenolone production by cultured granulosa cells was stimulated by FSH, while treatment with diethylstilbestrol (DES) or estradiol further enhanced the gonadotropin action. Treatment with FSH increased 3 beta-HSD activity. Similarly, concomitant treatment with DES further enhanced 3 beta-HSD activity in a dose-dependent manner with an apparent ED50 of 10(-8) M. Also, treatment with estrogens alone increased 3 beta-HSD activity. The increases in enzyme activity induced by estrogen alone or in combination with FSH were not associated with changes in the apparent Km values. FSH also stimulated 20 alpha-HSD activity by 2-fold in these cells, while concomitant treatment with DES did not affect the FSH action. In FSH-primed cells, LH stimulated pregnenolone production while the LH action was enhanced by concomitant treatment with the estrogens. Likewise, LH stimulated the activity of 3 beta-HSD, while concomitant DES treatment further augmented LH action. LH did not stimulate 20 alpha-HSD activity when added alone or in combination with DES. Thus, the estrogen enhancement of the gonadotropin-stimulated progesterone production in cultured rat granulosa cells is associated with increases in pregnenolone biosynthesis and the activity of the 3 beta-HSD enzyme, without affecting the 20 alpha-HSD activity.