Protein kinase stimulation of steroidogenesis in rat luteal cell mitochondria

The regulatory role of cAMP-dependent protein kinase in steroidogenesis was examined in luteal cell mitochondria prepared from heavily luteinized prepubertal rat ovaries. The cAMP-dependent protein kinase, localized in luteal mitochondria, comprised 5.5% of the total cellular protein kinase activity (cAMP-dependent). Intact mitochondria supported by a suitable electron-donor substrate and inhibited by isoxazole converted cholesterol to a single steroid product, pregnenolone. Neither (Bu)2 cAMP nor a crude preparation of cytosolic protein kinase stimulated pregnenolone production from cholesterol when added to intact luteal cell mitochondria; however, mitochondria treated with 10 mM CaCl2 became responsive to both (Bu)2 cAMP and protein kinase by showing increased pregnenolone production. Likewise, the addition of cytosol protein kinase to incubations of cholesterol and crude cholesterol sidechain cleavage enzyme (cytochrome P-450cscc) isolated from luteal mitochondria, also stimulated pregnenolone production. Cholesterol-poor mitochondria, depleted of endogenous sterol by prolonged preincubation, when subsequently incubated with Ca+2 plus (Bu)2 cAMP and protein kinase showed significantly increased pregnenolone production. Conversely, mitochondria with greatly increased intramitochondrial cholesterol after preincubation with 200 microM cholesterol and a cytochrome P-450cscc inhibitor (aminoglutethimide) synthesized pregnenolone in significantly higher amounts than either normal or cholesterol-poor mitochondria after removal of the aminoglutethimide block. However, addition of (Bu)2cAMP or protein kinase to Ca+2-treated cholesterol-rich mitochondria failed to additionally stimulate pregnenolone synthesis. We conclude from these observations that the mitochondrial membrane normally excludes protein kinase and (Bu)2cAMP from any stimulatory action on cholesterol side-chain cleavage. Disruption of the mitochondrial membrane by high Ca+2 concentrations eliminates this barrier and permits (Bu)2cAMP and protein kinase stimulation of the CSCC enzyme system. The mechanism of stimulation is not clear. It could involve direct action on the CSCC enzyme. Alternatively, an increase in either intramitochondrial transport or binding of cholesterol substrate to the CSCC enzyme could be facilitated by protein kinase action. Direct stimulation of the enzyme by protein kinase seems less likely, since increased enzyme activity was not observed in the presence of high concentrations of intramitochondrial cholesterol substrate.     

Estrogen regulation of steroidogenesis in rabbit luteal cells

Estradiol is a potent modifier of gonadotropin-stimulated steroidogenesis. By the seventh day after ovulation, estradiol is the only agent required for the stimulation of progesterone synthesis by corpora lutea of superovulated pseudo-pregnant rabbits. To learn which control points in steroidogenesis are susceptible to regulation by estradiol alone, we have studied the production of pregnenolone, progesterone, and 20 alpha-hydroxy-4-pregnen-3-one by corpora lutea of estradiol-stimulated and estradiol-deprived pseudopregnant rabbits. In previous investigations, we learned that estradiol deprivation in vivo, on day 9 of pseudopregnancy, causes an abrupt cessation of progesterone and 20 alpha-hydroxy-4-pregnen-3-one production, which is associated with accumulation of cholesterol and cholesteryl ester in the luteal tissue. We now report that production of pregnenolone, measured as its concentration in serum, also decreases abruptly by 84% within 48 h when the estradiol stimulus is removed on day 9 of pseudopregnancy. In addition, short term incubations of luteal tissue demonstrate that corpora lutea from estradiol-deprived rabbits do not use stores of luteal intracellular cholesterol for production of pregnenolone and progestin. These findings suggest that upon estradiol deprivation, rabbit luteal cells lose their capacity for using stored cholesteryl ester, or cholesterol synthesized de novo, for the production of pregnenolone and progestins. We, therefore, tested the hypothesis that a blockade of steroidogenesis caused by estrogen deprivation occurs at the point of cytochrome P-450 cholesterol side-chain cleavage (P-450scc), a principal rate-limiting step in the conversion of cholesterol to hormonal steroid products. To this end, we assayed the P-450scc activity in mitochondria-rich fractions of corpora lutea from rabbits that were deprived of estradiol for 24 and 48 h beginning on day 9 after induction of superovulation. Surprisingly, withdrawal of the estradiol stimulus did not cause loss of luteal P-450scc activity, measured as the amount of aminoglutethimide-inhibitable conversion of 25-hydroxycholesterol to pregnenolone by mitochondria-rich preparations. From these results, we infer that the luteotropic action of estradiol is probably not effected at P-450scc in the rabbit corpus luteum, but, presumably, occurs at control points that regulate the availability of stored cholesterol and/or its movement to or within the mitochondria for conversion to pregnenolone.     

Synthesis of the cholesterol side-chain cleavage enzymes in cultured rat ovarian granulosa cells: induction by follicle-stimulating hormone and dibutyryl adenosine 3',5'-monophosphate

The effects of FSH and (Bu)2cAMP on synthesis of the components of the cholesterol side-chain cleavage (SCC) enzyme complex, namely SCC cytochrome P-450 (P-450scc), the iron-sulfur protein adrenodoxin (ISP), and NADPH:ISP reductase (Red), were investigated in granulosa cells obtained from ovaries of immature estrogen-primed rats cultured for up to 72 h in defined medium in the presence or absence of FSH and (Bu)2cAMP. The cells were lysed, and proteins were subjected to polyacrylamide gel electrophoresis, followed by immunoblotting using antibodies specific to bovine adrenocortical P-450scc, ISP, and Red. A time-dependent increase was observed in the specific contents of these three components of SCC, but not of the reference mitochondrial protein, F1-ATPase, upon treatment with FSH or (Bu)2cAMP. The increase in the content of these three enzymes was accompanied by a rise in progesterone and 20 alpha-hydroxyprogesterone production. The synthesis of P-450scc, ISP, and Red increased 3- to 4-fold with time upon FSH or (Bu)2cAMP treatment respectively, as evidenced by pulse labeling of the cell proteins with [35S]methionine, followed by immunoprecipitation. Immunoprecipitation of P-450scc and ISP from an in vitro translation system programmed by RNA isolated from cultured cells revealed that treatment with FSH or (Bu)2cAMP resulted in an increase in the levels of translatable mRNA specific for these proteins, and that the initial products of translation were precursor forms of cytochrome P-450scc and ISP, similar to those observed in bovine adrenal and granulosa cells. It is concluded that in cultured rat ovarian granulosa cells, FSH induces the synthesis of cytochrome P-450scc, ISP, and Red by increasing the content of translatable mRNA coding for the precursor forms of these enzymes and that this action is mediated by cAMP. Furthermore, the effects of FSH and (Bu)2cAMP provide an explanation for the action of these compounds to stimulate progestin synthesis in cultured ovarian cells.     

Cholesterol side-chain cleavage activity in rat fetal gonads: a limiting step for ovarian steroidogenesis

The aim of this study was to examine the first step in steroidogenesis in male and female gonads of fetal rats. Pregnenolone production was measured by radioimmunoassay in organ culture, conversion of [3H]cholesterol to [3H]pregnenolone was evaluated in isolated mitochondria and cytochrome P-450scc was revealed by immunoblotting and immunocytochemical techniques. Our results clearly showed that in fetal testes (1) pregnenolone was produced in media where testes were cultured in the presence of trilostane and spironolactone, indicating an important metabolism of pregnenolone, (2) [3H]cholesterol was converted into [3H]pregnenolone in mitochondria, (3) cytochrome P-450scc was revealed in immunoblots with a molecular weight of 50,000, (4) cytochrome P-450scc was localized in Leydig cells from 15.5-day-old fetal testes onwards. With respect to fetal ovaries, we were unable to detect any scc activity, except after treatment with dibutyryl cyclic AMP. A lag period of 18 h was necessary to induce pregnenolone synthesis. However, the immunoperoxidase staining did not localize ovarian positive cells. Cytochrome P-450scc could be revealed in postnatal ovaries by immunoblotting and some interstitial positive cells were observed with immunostaining; the reaction was enhanced in luteinizing hormone-pretreated ovaries. These data indicate that (a) the cholesterol scc activity is present in fetal testes, (b) the conversion of cholesterol to pregnenolone is a limiting step for steroidogenesis in fetal ovaries. The inductive effect of the nucleotide on the enzyme suggests that the absence of gonadotrophic receptors in fetal female gonads could explain the lack of steroidogenesis before birth.(ABSTRACT TRUNCATED AT 250 WORDS)     

Periovulatory expression of cholesterol side-chain cleavage cytochrome P-450 in cumulus cells

Immunocytochemical staining methods were used to examine the appearance of cholesterol side-chain cleavage cytochrome P-450 (P-450scc) in mitochondria of cumulus cells during follicular development. The cumulus-oocyte complexes were isolated from pregnant mare serum gonadotropin (PMSG)/human CG (hCG)-treated 25 day rats and examined in culture. It is shown that P-450scc is not expressed in the cumulus cell earlier than 2-3 h before ovulation. After ovulation, the expression of P-450scc rapidly increased, so that postovulatory cumuli contained ample amounts of the cytochrome. RIA of progestins secreted by the cumulus-oocyte complexes in culture corroborated the immunocytochemical observations. A single administration of LH or PMSG treatment of hypophysectomized rat did not result in P-450scc accumulation. However, this failure of hormonal responses in vivo was not due to lack of available receptors, since both FSH and LH could induce cAMP accumulation and P-450scc when added to isolated cumuli in culture. Therefore, these findings suggest the presence of a putative intraovarian suppressive factor(s) which disappears before ovulation and thus render(s) the cumulus cells permissive for P-450scc responsiveness. An additional intriguing aspect of P-450scc responsiveness to gonadotropins was revealed in experiments showing that 60% of the cultured cumulus complexes failed to accumulate P-450scc in response to hormones, if collected from 21 day animals. Interestingly, those P-450scc negative cumuli were always associated with an oocyte which did not resume meiotic maturation. We may therefore suggest that meiotic incompetence of the oocyte is also accompanied by functional incompetence of its embracing cumulus cells which cannot, for yet unclear reasons, acquire their steroidogenic capacity.     

In vitro binding and utilization of lipoproteins by luteal cells from ferrets treated with dopaminergic drugs during pseudopregnancy

The effects of administration of dopaminergic drugs in vivo on the binding and utilization of lipoproteins for progesterone synthesis in vitro by ferret luteal cells were investigated. Pimozide, a dopamine antagonist, and bromoergocriptine (CB-154), a dopamine agonist, were administered to pseudopregnant ferrets to alter prolactin (PRL) concentrations daily beginning the day after ovulation. The control group received the vehicle solution only. Corpora lutea taken on Day 13 after ovulation were dissociated and the cells were incubated with canine lipoproteins, cyclic adenosine monophosphate (cAMP), and 5-cholesten-3 beta-25-diol (25-OH-cholesterol). Canine high-density lipoprotein (HDL) and low-density lipoprotein (LDL) stimulated progesterone accumulation by luteal cells from pimozide-treated animals but not from CB-154-treated ferrets. However, when 25-OH-cholesterol, which bypasses the LDL receptor, was provided as the substrate, steroidogenesis was stimulated in all groups. Together these observations suggest that dopaminergic alteration of PRL levels preferentially affects the utilization of lipoproteins. The uptake of canine HDL and LDL by luteal cells was saturable, and a high degree of cross-reactivity was observed. Heparin released surface-bound HDL and LDL, suggesting that HDL was binding to the LDL receptor. The quantity of LDL which could be released from luteal cells by heparin treatment was greater in animals treated with pimozide and decreased by treatment with CB-154, relative to luteal cells from control animals. It was concluded that the chronic administration of pimozide or CB-154 alters serum PRL levels in vivo, and influences the subsequent binding and utilization of lipoproteins by luteal cells in vitro. PRL may increase the number of LDL binding sites in luteal cells, thereby enhancing lipoprotein uptake for progesterone synthesis.     

Influence of long-term dietary administration of procymidone, a fungicide with anti-androgenic effects, or the phytoestrogen genistein to rats on the pituitary-gonadal axis and Leydig cell steroidogenesis

Procymidone is a fungicide with anti-androgenic properties, widely used to protect fruits from fungal infection. Thereby it contaminates fruit products prepared for human consumption. Genistein-containing soy products are increasingly used as food additives with health-promoting properties. Therefore we examined the effects of long-term dietary administration (3 months) of the anti-androgen procymidone (26.4 mg/animal per day) or the phytoestrogen genistein (21.1 mg/animal per day) to rats on the pituitary-gonadal axis in vivo, as well as on Leydig cell steroidogenesis and on spermatogenesis ex vivo. The procymidone-containing diet elevated serum levels of LH and testosterone and, furthermore, Leydig cells isolated from procymidone-treated animals displayed an enhanced capacity for producing testosterone in response to stimulation by hCG or dibutyryl cAMP, as well as elevated expression of steroidogenic acute regulatory protein (StAR), cytochrome P450 side-chain cleavage (P450 scc) and cytochrome P450 17alpha (P450c17). In contrast, the rate of DNA synthesis during stages VIII and IX of spermatogenesis in segments of seminiferous tubules isolated from genistein-treated rats was decreased without accompanying changes in the serum level of either LH or testosterone. Nonetheless, genistein did suppress the ex vivo steroidogenic response of Leydig cells to hCG or dibutyryl cAMP by down-regulating their expression of P450 scc. Considered together, our present findings demonstrate that long-term dietary administration of procymidone or genistein to rats exerts different effects on the pituitary-gonadal axis in vivo and on Leydig cell steroidogenesis ex vivo. Possibly as a result of disruption of hormonal feedback control due to its anti-androgenic action, procymidone activates this endocrine axis, thereby causing hyper-gonadotropic activation of testicular steroidogenesis. In contrast, genistein influences spermatogenesis and significantly inhibits Leydig cell steroidogenesis ex vivo without altering the serum level of either LH or testosterone.     

cis-platinum-mediated decrease in serum testosterone is associated with depression of luteinizing hormone receptors and cytochrome P-450scc in rat testis

Previously we had shown that cis-platinum decreases testosterone levels in rat serum and that hCG reverses this effect. The purpose of these studies was to determine the biochemical basis of cis-platinum-mediated effects on testicular testosterone production. In the testis of rats treated with cis-platinum (7 mg/kg, iv), the mitochondrial P-450scc concentration and side-chain cleavage activity were depressed by 40%. Also, the microsomal 17 alpha-hydroxylase activity and cytochrome P-450 concentration were decreased. Testicular binding capacity (in vitro) for [125I]hCG was decreased by 75-80%. On the other hand, FSH binding to Sertoli cell membrane receptors was not appreciably changed. hCG (25 IU/100 g daily) in treated rats caused complete occupancy of the remaining 20-25% LH receptors and caused a 20- to 30-fold increase in serum and testicular testosterone, a 2-fold increase in mitochondrial P-450scc, and a 5-fold acceleration of side-chain cleavage activity. 17 alpha-Hydroxylase activity and microsomal cytochrome P-450 were not increased over the control values. In addition to testicular functions, pituitary glycoprotein hormone production was assessed. Treatment of rats with cis-platinum (7 mg/kg, iv) did not change serum LH or FSH, but caused a 50% decrease in serum and testicular testosterone levels. A GnRH challenge test (1.5 micrograms/100 g, in 30 min) of treated rats caused prompt increases of 10- to 15-fold in serum LH and resulted in increases in serum and testicular testosterone. Thus, there was little evidence for cis-platinum effects at the level of hypothalamus or pituitary that could account for the decreased testosterone production. Reversal of the cis-platinum effect on steroidogenesis by hCG or GnRH appears to be due to the induction of suprasaturating levels of LH with full occupancy of remaining Leydig cell LH receptors. This, in turn, would reverse the diminished levels of mitochondrial side-chain cleavage activity and cytochrome P-450scc. These data suggest that cis-platinum causes a depression in serum testosterone, mainly by decreasing the number of LH receptors and inhibiting side-chain cleavage activity.     

Stimulation of progesterone synthesis in luteinized human granulosa cells by human chorionic gonadotropin and 8-bromo-adenosine 3',5'-monophosphate: the effect of low density lipoprotein

Primary cultures of luteinized human granulosa cells reduced progestin secretion when taken from serum- and gonadotropin-containing medium into serum- and hormone-free medium. When added individually hCG, 8-bromo-cAMP and low density lipoprotein (LDL) stimulated progestin secretion by the cells after they spent 48 h in serum- and hormone-free medium. However, combinations of hCG or 8-bromo-cAMP and LDL were most effective in increasing steroidogenesis. The effects of hCG in enhancing steroidogenesis in the presence of LDL were first detectable after 3 h, but were most marked after 20 h of culture. hCG and 8-bromo-cAMP increased the conversion of [3H]cholesteryl linoleate, which had been incorporated into the core of LDL, into [3H]progesterone. hCG also stimulated cellular accumulation of LDL cholesterol, as assessed by incorporation of [1-14C]oleic acid into sterol esters or by measurement of total cellular cholesterol in the presence of amino-glutethimide to block steroidogenesis. In contrast to progesterone secretion, estradiol secretion was not affected by the addition of LDL in the absence or presence of 8-bromo-cAMP. We conclude that LDL cholesterol is required for maximal rates of progestin synthesis by human luteinized granulosa cells. When granulosa cells are stimulated by hCG, uptake of LDL cholesterol is promoted, and there is increased utilization of LDL cholesterol for steroid synthesis.     

Developmental and hormonal regulation of cholesterol side chain cleavage cytochrome P-450 in the fetal rabbit testis

Male sexual differentiation is dependent upon the induction of testosterone synthesis by the fetal testis at a critical phase of development. In the rabbit, testosterone synthesis by the fetal testis is initiated after 17.5-18 days of gestation, reaches peak values by day 21 and subsequently declines. In the present study, we analyzed the specific activity and concentration of immunoreactive cholesterol side chain cleavage cytochrome P-450 (cytochrome P-450scc) in the fetal rabbit testis during development to assess its possible role as a key regulatory enzyme in fetal testicular steroidogenesis. The effects of human chorionic gonadotropin (hCG) and dibutyryl cyclic AMP on the specific activity and synthesis of cytochrome P-450scc in fetal rabbit testes in vitro also were evaluated. We observed that changes in cholesterol side chain cleavage activity paralleled the induction of testosterone synthesis; the specific activity of this enzyme which was approximately equal to 0.25 pmol min-1 mg-1 protein in testes from 19-day fetal rabbits was increased approximately equal to 10-fold in testes of 21-day fetuses and thereafter declined dramatically. Immunoreactive cytochrome P-450scc, which was first detectable in gonads of 19-day fetal rabbits, was induced markedly in 21-day fetal testes, reached maximum levels on day 24 and declined slightly thereafter. Incubation of testes from 19- and 21-day gestational age fetal rabbits with hCG or dibutyryl cyclic AMP for 24 h resulted in an induction of testosterone synthesis, cholesterol side chain cleavage activity and synthesis of cytochrome P-450scc. These findings are suggestive that androgen synthesis by the fetal Leydig cell is mediated by an induction of the synthesis and specific activity of cytochrome P-450scc. In addition, these data support the hypothesis that the developmental changes in the synthesis of cytochrome P-450scc are regulated by fetal gonadotropin and are mediated by cyclic AMP.     

Expression of mRNA species encoding steroidogenic enzymes in the rat ovary.

We have examined the levels of expression of mRNA species encoding cholesterol side-chain cleavage cytochrome P-450 (P-450scc), 17 alpha-hydroxylase cytochrome P-450 (P-450(17 alpha), aromatase cytochrome P-450 (P-450AROM) and 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) in rat ovaries throughout the oestrous cycle, during pregnancy and in immature animals treated with pregnant mare serum gonadotrophin (PMSG). Total or poly(A)(+)-enriched RNA was prepared from adult rat ovaries throughout the oestrous cycle, from immature rat ovaries 24 and 48 h after treatment and from adult rat ovaries on days 10, 14, 17 and 21 of gestation. Expression of the mRNA species was examined by Northern analysis using specific [32P]cDNA probes. During the oestrous cycle P-450scc mRNA of approximately 1.9 kb was detected at low levels, while 3 beta-HSD mRNA of 1.7 kb was in relatively high abundance throughout the oestrous cycle. While P-450(17) alpha mRNA of 1.9 kb and P-450AROM of 2.7, 2.2 and 1.7 kb were highly abundant during dioestrus, pro-oestrus and oestrus, the levels of these mRNA species decreased markedly to be nearly undetectable during metoestrus. During pregnancy there was considerably more variation in the expression of the mRNA species examined. Expression of P-450scc mRNA was at low, but detectable, levels until day 14, thereafter expression increased to high levels (day 14-21 of gestation). Levels of P-450(17) alpha mRNA on day 10 of gestation were lower than at pro-oestrus during the oestrous cycle and decreased further on days 14 and 17. Expression of 3 beta-HSD was decreased on day 10, but on days 14, 17 and 21 of gestation high mRNA levels were detectable. Ovarian expression of the three P-450AROM species was dramatically increased between days 14 and 17 of pregnancy, but declined by day 21. In immature rats, P-450scc mRNA was detected at low levels in unstimulated animals and increased markedly after treatment with PMSG, while subsequent treatment with human chorionic gonadotrophin (hCG) had a minimal effect on expression. Expression of P-450(17) alpha mRNA was high in unstimulated immature and PMSG-treated rats, but diminished after treatment with hCG. All three P-450AROM mRNA species were undetectable in ovaries from unstimulated immature animals; however, induction of all three was observed in PMSG-treated rats, but this expression decreased to undetectable levels upon subsequent administration of hCG.(ABSTRACT TRUNCATED AT 400 WORDS)     

Transforming growth factor-beta inhibits steroid 17 alpha-hydroxylase cytochrome P-450 expression in ovine adrenocortical cells

The maintenance of optimal steroidogenesis in adrenocortical cells primarily depends on the chronic action of ACTH to promote the synthesis of the various steroid-metabolizing cytochrome P-450 enzymes. In the steroidogenic pathway, 17 alpha-hydroxylase cytochrome P-450 (P-450(17) alpha) is a key enzyme controlling the formation of cortisol and androgens. Recently, we demonstrated that transforming growth factor-beta (TGF beta) is a potent inhibitor of steroid production in ovine adrenocortical cells. In the present study we used a polyclonal antibody to P450(17) alpha to determine adrenal cell P-450(17) alpha enzyme content by Western analysis. In addition, we used a cDNA probe encoding for bovine P-450(17) alpha mRNA to determine levels of P-450(17) alpha mRNA in sheep ovarian adrenocortical cells in primary culture. When cells were cultured in a serum-free medium in the presence of ACTH for 48 h, P-450(17) alpha activity, enzyme content, and mRNA levels for P-450(17) alpha increased by 3- to more than 10-fold. TGF beta decreased the basal level and completely blocked the stimulatory action of ACTH on P-450(17) alpha enzyme activity. The effects of TGF beta on P-450(17) alpha enzyme content and mRNA levels were manifested in a dose-dependent manner, with maximal inhibition observed using 1 ng/ml TGF beta. Importantly, the inhibitory effects of TGF beta on P-450(17) alpha were not overcome by (Bu)2cAMP. These findings indicate that TGF beta is a potent negative regulator of P-450, and the inhibitory action appears to be at the level of P-450(17) alpha gene expression. The ability of TGF beta to suppress the positive stimulatory action of ACTH suggests that TGF beta could play a role in determining the pathway of steroidogenesis and, thereby, the specific steroids secreted by adrenocortical cells.     

Vasoactive intestinal peptide induces the synthesis of the cholesterol side-chain cleavage enzyme complex in cultured rat ovarian granulosa cells.

Vasoactive intestinal peptide (VIP) has been identified in ovarian nerves and stimulates steroid secretion from immature ovaries. To gain insight into its mechanism of action, the effect of VIP on the synthesis of the cholesterol side-chain cleavage enzyme complex was studied in ovarian granulosa cells from immature estrogen-primed rats. The cells were cultured for 48 hr in serum-free medium; the proteins were labeled with [35S]methionine; and the synthesis of cytochrome P-450, iron-sulfur protein, and NADPH:iron-sulfur protein reductase was evaluated by electrophoretic analysis after immunoisolation with polyclonal antibodies directed against the bovine adrenal enzymes. VIP at concentrations ranging from 0.001 to 1 microM stimulated 3- to 5-fold the synthesis of cytochrome P-450 and iron-sulfur protein. Peptide NH2-terminal histidine, COOH-terminal isoleucine, which has greater than 50% sequence homology of VIP, stimulated the synthesis of both proteins at approximately 50% of VIP effectiveness. Secretin, another member of the glucagon-secretin family of peptides, which has only 30% sequence homology to VIP, was without effect. Similar results were observed with the NADPH:iron-sulfur protein reductase. VIP-induced synthesis of the cholesterol side-chain cleavage enzyme complex was accompanied by a dose-related increase in cAMP accumulation and progestin formation. It is concluded that VIP regulates the synthesis of the ovarian cholesterol side-chain cleavage enzyme complex, which catalyzes the rate-limiting reaction in progesterone biosynthesis, and that the VIP effect is at least partially mediated through cAMP. It is suggested that a stimulatory action of VIP on the synthesis of ovarian progesterone may contribute to regulating the functional development of the ovary.     

Prostaglandin E2 is a positive regulator of adrenocorticotropin receptors, 3 beta-hydroxysteroid dehydrogenase, and 17 alpha-hydroxylase expression in bovine adrenocortical cells.

The maintenance of optimal steroidogenesis in adrenocortical cells primarily depends on the chronic action of cAMP. Herein we examine the effects of prostaglandin E2 (PGE2) on the differentiated functions of bovine adrenocortical (BAC) cells in primary culture. PGE2 (10 microM) treatment for 3 h stimulated steroidogenesis and cAMP production by over 100-fold. In addition, the cAMP antagonist Rp-cAMP (1 mM) inhibited PGE2 stimulation of steroidogenesis by 60%. This observation suggests that the cAMP second messenger system is responsible for much of the PGE2-activated steroid hormone synthesis. Chronic treatment of BAC cells with PGE2 caused induction of 3 beta-hydroxysteroid dehydrogenase and steroid 17 alpha-hydroxylase cytochrome P-450 expression as determined by the examination of enzyme activity, enzyme levels by immunoblotting, and specific messenger RNA (mRNA) levels by Northern analysis. The positive effects of PGE2 on expression of 3 beta-hydroxysteroid dehydrogenase and 17 alpha-hydroxylase cytochrome P-450 were similar to the effects seen after ACTH treatment of BAC cells. In addition, treatment of BAC cells with PGE2 for 3 days caused a 3-fold induction of ACTH receptors as determined by increased cell binding of [125I]ACTH. Finally, we determined that BAC cells produced PGE2 and that the level of synthesis increased 10-fold after treatment with the hormone angiotensin II. Taken together these data indicate that PGE2 is a positive regulator of BAC cell differentiation acting on ACTH receptors, steroid metabolizing enzymes, and steroidogenesis. The ability of BAC cells to produce PGE2 leaves open the possibility for paracrine and autocrine regulation within the adrenal.     

Microanalysis of hormone responsive ovarian interstitial gland cells in miniature culture

Small cell aggregates of functional interstitial tissue were isolated from ovaries of 21- to 24-day-old rats, and their biochemical properties were studied in miniature cultures of 500-4000 cells. The isolated interstitial cells expressed high amounts of the mitochondrial cholesterol side-chain cleavage cytochrome P-450, visualized by immunofluorescent staining. Freshly isolated cells also expressed high activities of 17 alpha-hydroxylase and 17:20-lyase, which were assayed by TLC analysis of [3H]progesterone metabolites. The TLC technique revealed the immediate conversion of progesterone to 5 alpha-reduced progestins. Consequently, no aromatizable androgens were produced but, accumulation of androsterone resulted instead from the direct action of 17 alpha-hydroxylase on 3 alpha-hydroxy-5 alpha-pregnane-20-one (pregnanolone). Both the immunoreactive levels of cholesterol side-chain cleavage cytochrome P-450 and the rate of the 17:20-lyase activity declined rapidly during culture. However, addition of LH to the medium restored both enzymes, indicating the presence of functional LH receptors. The latter were also demonstrable by their ability to evoke cAMP formation in response to LH, but not to FSH. The activity of 5 alpha-reductase in the interstitial cells was much higher (3-fold) than its activity in the granulosa cells. Unlike 17:20 lyase, the activity of 5 alpha-reductase did not decay in culture, nor was it affected by LH. We thus established a novel and sensitive experimental method to isolate and study a minute population of ovarian cells which, unlike the follicular granulosa and theca cells, are enigmatically differentiated at the early stages of ovarian development.     

Induction of renin activity by gonadotropic hormones in cultured Leydig tumor cells

The hormonal regulation of renin activity in cloned and cultured Leydig tumor cells (designated MA-10) was examined. The treatment of Leydig cell cultures with bovine LH (bLH), hCG, or with (Bu)2cAMP elicited a dose- and time-dependent induction of renin activity and a concomitant increase in steroid biosynthesis. The optimum concentration of hCG was 25 ng/ml, which caused an average 25-fold increase in renin activity compared to the control value. bLH action was optimum at 75-100 ng/ml and induced an approximately 35-fold increase in renin activity. The maximum inducible level of renin activity was attained after 8-9 h of hormone treatments. The addition of progesterone (the major steroid product of the MA-10 cells) did not induce a significant increase in renin activity. Treatment of MA-10 cells with epidermal growth factor also failed to produce any increase in renin activity. The optimum concentration of (Bu)2cAMP was 800 microM for the induction of renin activity and caused an approximately 40-fold increase compared to the control value. Renin activity induced by bLH, hCG, or (Bu)2cAMP was completely inhibited by mouse anti-renin antibody, indicating the specific nature of renin. Upon withdrawal of (Bu)2cAMP from the culture medium, renin activity gradually declined to the control level, and with retreatment of these cultures with (Bu)2cAMP, a newly induced state of enzyme activity was resumed. Indirectly, the role of new protein and RNA synthesis was examined during hormonal regulation of renin induction using protein and RNA synthesis inhibitors such as cycloheximide, puromycin, actinomycin D, or rifampicin. Both protein and RNA synthesis inhibitors blocked the induction of renin activity in the presence of all three inducing agents, bLH, hCG, or (Bu)2cAMP. The results provide evidence that the induction of renin activity is modulated by bLH, hCG, or (Bu)2cAMP and represent the de novo synthesis of enzyme molecules.     

Direct stimulation of nucleoside triphosphatase activity in human ovarian nuclear membranes by human chorionic gonadotropin

We previously reported that nuclei isolated from ovaries of premenopausal women contain binding sites for hCG/human LH (hLH). This study was undertaken to determine the possible functional significance of these nuclear binding sites. Upon addition to isolated ovarian (mostly luteal cells) nuclear membranes, hCG and hLH stimulated nucleoside triphosphatase (NTPase), an enzyme involved in nucleocytoplasmic transfer of mRNA, but not Mg2+-ATPase or NADH cytochrome c reductase activities, in a concentration-dependent manner. Heat-denatured hCG, isolated alpha- and beta-subunits of hCG, human FSH, PRL, and porcine relaxin had no effect on the enzyme. Addition of hCG antiserum blocked hCG's ability to stimulate NTPase activity. cAMP, which is a second messenger in hCG- and hLH-stimulated steroidogenesis, had no effect on NTPase activity. These results, which demonstrate that hCG acts on human ovarian nuclei directly, raise the possibility that internalized hCG might influence nuclear function(s) before it is eventually degraded in the lysosomes of ovarian cells.     

Ovarian 3 beta-hydroxysteroid dehydrogenase and sulfated glycoprotein-2 gene expression are differentially regulated by the induction of ovulation, pseudopregnancy, and luteolysis in the immature rat.

The present studies were conducted to elucidate the effects of gonadotropin-induced alterations in ovarian status on expression of 3 beta-hydroxysteroid dehydrogenase/delta 5-delta 4 isomerase (3 beta-HSD), an enzyme which plays a crucial role in steroidogenesis, and sulfated glycoprotein-2 (SGP-2), a heterodimeric protein which is highly expressed by cells undergoing programmed death (i.e. apoptosis). Prepubescent female rats were used to reduce the influence of endogenous gonadotropins and to avoid the presence of preexisting, degenerating corpora lutea in the ovaries. 3 beta-HSD, cholesterol side-chain cleavage cytochrome P450, and SGP-2 messenger RNA (mRNA) levels were measured by Northern analysis of total ovarian RNA. Rats which received PMSG (20 IU) followed 48 h later by human CG (hCG) (10 IU) to induce ovulation and pseudopregnancy exhibited a significant increase in ovarian 3 beta-HSD mRNA 1 day later (164%, P less than 0.01 vs. saline control). The most dramatic change in 3 beta-HSD expression was the rise seen 2 days after hCG (262%, P less than 0.01), after which levels remain constantly elevated throughout pseudopregnancy. In contrast, ovarian cholesterol side-chain cleavage cytochrome P450 mRNA was greatly elevated (i.e. 15-fold) 48 h after PMSG treatment alone (P less than 0.01). Thus, gonadotropic stimulation which induces ovulation and luteogenesis is required to observe a potent stimulatory effect on ovarian 3 beta-HSD expression. The slow time course of induction is indicative of a differentiation-dependent expression. These observations are consistent with luteal cell expression of the 3 beta-HSD gene and suggest that this expression is correlated with the high progestin secretion and 3 beta-HSD activity characteristic of luteal cells. Interestingly, the pattern of regulation of ovarian SGP-2 expression was markedly different than that observed for 3 beta-HSD. PMSG treatment alone (48 h), and in combination with hCG, dramatically reduced SGP-2 mRNA to 12-27% of controls (P less than 0.01). SGP-2 levels were not elevated until 7 days after hCG; levels then remained constant through day 14 of pseudopregnancy. Since luteal progesterone secretion begins to diminish 5-7 days after hCG, the increased expression of SGP-2 on day 7 may be related to the initiation of the regression/degeneration of luteal cells which occurs during luteolysis. Thus, this study demonstrates that alterations in SGP-2 expression by the ovary may precede or occur simultaneously with cellular events initiating luteolysis and suggests a role for this glycoprotein as an early marker for luteolysis and implicates it in yet another instance of programmed cell death.     

The biosynthesis of cholesterol side-chain cleavage cytochrome P-450 in the rabbit corpus luteum depends upon estrogen

To gain a better understanding of the luteotropic action of estrogen, we have investigated the effect of estrogen on the synthesis of the enzyme, cholesterol side-chain cleavage cytochrome P-450 (P-450scc) in the rabbit corpus luteum. Using an established protocol, rabbits were treated with estradiol, and the estradiol was then withdrawn on day 9 of pseudopregnancy, which caused an 88% fall in serum progesterone within 48 h. In other rabbits, estradiol was replaced at 48 h which stimulated a 6.6-fold increase in serum progesterone concentration within the next 24 h. Luteal tissues were incubated with [35S]methionine and homogenized, and a mitochondrial fraction lysate was obtained. Equal trichloroacetic acid-precipitable radioactivity was taken for immunoprecipitation using a well-characterized polyclonal antiserum against bovine adrenal P-450scc. The immunoisolated proteins were resolved by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and radioactivity was visualized by autofluorography. The results indicate that the rate of synthesis of P-450scc in 48 h-estradiol withdrawn animals was markedly reduced, and by 72 h of withdrawal was barely detectable. When estradiol was reintroduced, the synthesis of P-450scc was increased. Despite the prominent changes in P-450scc synthesis, immunoblotting revealed only a minimal (approximately 30%) decrease in relative P-450scc content by 72 h after estradiol withdrawal. Analyses of DNA and protein contents of luteal tissues revealed an increase in DNA per mg luteal tissue, a decline in total tissue protein/DNA ratio, but no change in mitochondrial fraction protein/DNA ratio after estrogen withdrawal. The results indicate that de novo synthesis of P-450scc in the corpus luteum is sensitive to estrogen; however, the estrogen-sensitive rate-limiting step(s) for steroidogenesis are at other sites in the steroid biosynthetic pathway.     

Regulation of testicular P-450 cholesterol side-chain cleavage and P-450 C17-20 lyase/C17 hydroxylase enzymes in the neonatal and adult rat

Adult Leydig cells respond to LH or hCG with an initial stimulation of testosterone secretion followed by LH receptor down-regulation and blockade of androgen biosynthesis. In contrast, fetal Leydig cells respond with increased LH receptor number and enhanced steroidogenesis. In this study, the molecular mechanisms of high-dose hCG treatment on steroidogenesis in adult and neonatal testes (containing predominantly the fetal generation of Leydig cells) were examined using two recombinant DNA clones specific for enzymes of the rat steroidogenic pathway (P-450 cholesterol side-chain cleavage enzyme, P-450scc and P-450 17 alpha-hydroxylase/C17-20 lyase, P-450c17). We treated adult (60 days of age) and neonatal (2 days of age) rats with a single high dose of hCG (600 IU/kg), sc. The high dose of hCG caused neonatal testicular P450scc and P450c17 mRNA levels to increase, and stimulated adult testicular P450scc mRNA levels, but caused a decrease in adult P450c17 mRNA levels. These studies suggest that high doses of hCG regulate testosterone production differently in adult and fetal Leydig cells at a pretranslational level of the P450c17 enzyme, while mRNA for P450scc is stimulated in both the adult and fetal Leydig cell.