Steroidogenic effects of lipoproteins and 25-hydroxycholesterol on luteal and ovarian cells: a comparison of two pseudopregnant rat models

Steroidogenesis was compared between luteal cells from immature pseudopregnant (PSP) rats induced by either 5 IU pregnant mare serum gonadotropin (PMSG) alone or 50 IU PMSG combined with 25 IU human chorionic gonadotropin (hCG). It was also determined whether differences in steroidogenesis existed when the entire ovary (ovarian cells) or just luteal cells from Day 4 PSP rats were exposed in vitro to lipoproteins or 25-hydroxycholesterol (25-OH chol). In the absence of luteinizing hormone (LH), basal steroid accumulation, especially progesterone (P4) was around fourfold greater in luteal cells from rats treated with PMSG alone than from rats receiving PMSG-hCG. However, serum P4 and LH were about fivefold greater in the latter group. It is therefore likely that net cellular cholesterol uptake per luteal cell is lower in the PMSG-hCG treated rats, but this is offset by a much greater mass and number of corpora lutea. Lipoproteins (HDL and LDL) and 25-OH chol stimulated in vitro luteal steroidogenesis from rats treated with PMSG alone or PMSG-hCG, and their responses were virtually identical. Therefore, luteal steroidogenesis in the rat always depends on exogenous cholesterol even though treatment in the preovulatory period with PMS or PMSG-hCG and serum LH and follicle-stimulating hormone (FSH) levels on Day 4 PSP are very different. When ovarian cells from PMSG-hCG treated rats were incubated with LH plus HDL or 25-OHP, the production of 20 alpha-DHP was considerably greater than luteal cell production which may be due to a contribution from nonluteal cells. Indeed, about 30% of the cells in the PMSG-hCG group represent nonluteal components as estimated by weight and deoxyribonucleic acid content.     

In vitro effect of leptin on steroids' secretion by FSH- and LH-treated porcine small, medium and large preovulatory follicles

The role of exogenous leptin in the follicular steroidogenesis in pigs has not been fully elucidated and available data are controversial. In the current study porcine follicles were recovered from ovaries during early, middle, and preovulatory stages of the follicular phase of the estrous cycle. Follicles were cultured in the presence of the recombinant ovine leptin (oLEP) with or without LH (100 ng/ml) or FSH (100 ng/ml). Medium estradiol (E(2)), testosterone (T) and progesterone (P(4)) concentrations were determined after 48h of culture. Leptin at a dose of 2 ng/ml had no effect on basal E(2) and T secretion by small and medium follicles but decreased E(2) secretion by large follicles. Significant synergistic action of FSH and leptin resulting in a 2 - 5 fold stimulation of E(2) secretion by small and medium follicles was observed. The aromatase inhibitor, CGS 16949A augmented T secretion and inhibited E(2) secretion by control and FSH-treated medium follicles. In FSH and leptin-treated follicles, the inhibitory action of CGS 16949A on E(2) secretion was observed. However, there was no augmentation of T secretion. In leptin-treated follicles the stimulatory action on P(4) secretion was observed only during the preovulatory stage. In these follicles, significant synergistic action of leptin with LH on P(4) secretion was also noted. These results indicate that there is a maturation-dependent action of leptin on both E(2) and P(4) secretion. They also suggest a synergistic action of leptin and FSH on E(2) secretion by small and medium follicles as well as leptin and LH on P(4) secretion by large follicles in pigs.     

Relationship between the preovulatory luteinizing hormone (LH) surge and androstenedione synthesis of preantral follicles in the cyclic hamster: detection by in vitro responses to LH

Preantral follicles of cyclic hamsters were isolated on proestrus, estrus and diestrus I, incubated for 3 h in 1 ml TC-199 containing 1 microgram ovine luteinizing hormone (LH) (NIH-S22), and the concentrations of progesterone (P), androstenedione (A) and estradiol (E2) determined by radioimmunoassay. At 0900-1000 h on proestrus (pre-LH surge) preantral follicles produced 2.4 +/- 0.3 ng A/follicle per 3 h, less than 100 pg E2/follicle and less than 250 pg P/follicle. At the peak of the LH surge (1500-1600 h) preantral follicles produced 1.8 +/- 0.2 ng P and 1.9 +/- 0.1 A and less than 100 pg E2/follicle. After the LH surge (1900-2000 h proestrus and 0900-1000 h estrus) preantral follicles were unable to produce A and E2 but produced 4.0 +/- 1.0 and 5.0 +/- 1.1 ng P/follicle, respectively. By 1500-1600 h estrus, the follicles produced 8.1 +/- 3.1 ng P/follicle but synthesized A (1.6 +/- 0.2 ng/follicle) and E2 (362 +/- 98 pg/follicle). On diestrus 1 (0900-1000 h), the large preantral-early antral follicles produced 1.9 +/- 0.3 ng A, 2.4 +/- 0.4 ng E2 and 0.7 +/- 0.2 ng P/follicle. Thus, there was a shift in steroidogenesis by preantral follicles from A to P coincident with the LH surge; then, a shift from P to A to E2 after the LH surge. The LH/follicle-stimulating hormone (FSH) surges were blocked by administration of 6.5 mg phenobarbital (PB)/100 g BW at 1300 h proestrus. On Day 1 of delay (0900-1000 h) these follicles produced large quantities of A (2.2 +/- 0.2 ng/follicle) and small amounts of E2 (273 +/- 27 pg/follicle) but not P (less than 250 pg/follicle).(ABSTRACT TRUNCATED AT 250 WORDS)     

Use of low-density and high-density lipoproteins in undifferentiated porcine granulosa cells

Granulosa cells aspirated from medium-sized porcine ovarian follicles (3-5 mm) in short-term incubation responded to the addition of both low-density lipoprotein (LDL) and high-density lipoprotein (HDL) with increased accumulation of progesterone. HDL was more potent than LDL in enhancing progesterone secretion. When granulosa cells were cultured under serum-free conditions for 72 h, HDL but not LDL exhibited a dose-dependent enhancement of progesterone secretion. Addition of insulin to the cells greatly potentiated the stimulatory effect of LDL on progesterone accumulation, while the response to HDL was only slightly increased. Granulosa cells in culture degraded LDL but not HDL. Addition of insulin enhanced LDL degradation. Exposure of cells in culture to chloroquine, an inhibitor of lysosomal function, completely blocked LDL degradation and LDL-induced stimulation of steroidogenesis. The stimulatory effect of HDL was not affected by chloroquine. We interpret these findings to indicate that granulosa cells derive cholesterol from LDL by means of lysosomal degradation, which is not required for use of cholesterol from HDL. Monensin, a carboxylic ionophore that interrupts recycling of LDL receptors, prevented LDL-enhanced progesterone accumulation but not HDL-induced stimulation. This provides evidence that HDL-induced stimulation of steroidogenesis does not involve LDL receptors. We conclude that HDL present in follicular fluid is capable of providing cholesterol to granulosa cells for steroidogenesis. The stimulatory effect of HDL is not due to the presence of apoprotein E, an HDL component that binds to the LDL receptor. A unique HDL pathway that does not involve LDL receptors and lysosomal degradation may operate in porcine granulosa cells.     

The regulation of steroidogenesis by opioid peptides in porcine theca cells

The present study was designed to investigate basal and LH-induced steroidogenesis in porcine theca cells from large follicles in response to various concentrations (1-1000 nM) of mu opioid receptor agonists (beta-endorphin, DAMGO, FK 33-824), delta receptor agonists (met-enkephalin, leu-enkephalin, DPLPE) and kappa receptor agonists (dynorphin A, dynorphin B, U 50488). Agonists of mu opioid receptors suppressed basal androstenedione (A4), testosterone (T) and oestradiol-17beta (E2) secretion and enhanced LH-induced A4 and T release by theca cells. The inhibitory effect of the agonists on E2 secretion was abolished in the presence of LH. All delta receptor agonists depressed basal progesterone (P4) output. However, the influence of these agents on LH-treated cells was negligible. Among delta receptor agonist used only leu-enkephalin and DPLPE at the lowest concentrations inhibited basal A4 release. The presence of LH in culture media changed the influence of these opioids from inhibitory to stimulatory. Similarly, DPLPE reduced T secretion by non-stimulated theca cells and enhanced T secretion of stimulated cells. All of delta agonists inhibited basal E2 secretion and unaffected its release from LH-treated theca cells. Agonists of kappa receptors inhibited basal, non-stimulated, P4 secretion and two of them (dynorphin B, U 50488) potentiated LH-induced P4 output. Basal A4 and T release remained unaffected by kappa agonist treatment, but the cells cultured in the presence of LH generally increased both androgen production in response to these opioids. Basal secretion of E2 was also suppressed by kappa agonists. This inhibitory effect was not observed when the cells were additionally treated with LH. In view of these findings we suggest that opioid peptides derived from three major opioid precursors may directly participate in the regulation of porcine theca cell steroidogenesis.     

In vitro effects of cannabinoids on follicular function in the rat

delta 1-Tetrahydrocannabinol (delta 1-TCH), the major psychoactive constituent of marihuana, was found to suppress the preovulatory surge of gonadotropins and thereby to prevent ovulation in rats, rabbits and rhesus monkeys. These studies suggested that the drug acts primarily on the hypothalamus to suppress luteinizing hormone releasing hormone (LHRH) secretion. The aim of the present study was to examine the direct effect of delta 1-THC, the psychoactive constituent of marihuana and cannabidiol (CBD), one of its nonpsychoactive constituents, on preovulatory rat follicles in vitro. Both cannabinoids inhibited follicular steroidogenesis in a dose-dependent manner. Basal accumulation of progesterone (P), testosterone (T) and estradiol-17 beta (E2) was reduced up to 60% by the highest doses examined (100-200 microM). The luteinizing hormone (LH)-stimulated increase in P and T was inhibited by 75-88% by the highest doses of both cannabinoids (50-200 microM), while E2, accumulation was inhibited by only 40%. It appears that the inhibitory action of cannabinoids is exerted beyond LH binding and activation of adenylate cyclase and prior to pregnenolone formation in the gonadal steroidogenic pathway. In addition to this anti-steroidogenic effect, both cannabinoids induced resumption of meiosis in follicle-enclosed oocytes cultured in hormone-free medium; 200 microM delta 1-THC resulted in 80% maturation and CBD in 75%. It seems that the action of cannabinoids on rat follicles in vitro is unrelated to their psychotropic activity.     

Effects of in vivo and in vitro administration of prostaglandin F2 alpha on lipoprotein utilization in cultured bovine luteal cells

Two experiments were conducted to determine if a loss in the ability to utilize lipoprotein-cholesterol is one mechanism whereby prostaglandin F2 alpha (PGF2 alpha) decreases steroidogenesis in bovine luteal cells. In the first experiment, serum-free cultures of bovine luteal cells were treated with PGF2 alpha (100 ng/ml) for 5 days prior to addition of lipoproteins. Exposure to PGF2 alpha completely suppressed low-density lipoprotein (LDL)- and high-density lipoprotein (HDL)-stimulated progesterone production (p less than 0.01) compared to control (no PGF2 alpha) cultures. Luteal cells cultured in the presence of LDL + luteinizing hormone (LH, 10 ng/ml) + PGF2 alpha produced significantly less progesterone than luteal cells cultured with LDL + LH (p less than 0.05). Treatment with PGF2 alpha had no significant effect on HDL + LH-stimulated progesterone synthesis. In the second experiment, cows were injected with a luteolytic dose of PGF2 alpha (25 mg), and the corpora lutea were removed at 0 (no PG), 1, 4, or 12 h post-injection. Dissociated luteal cells were placed in culture for 7 days, either with or without LH (10 ng/ml), and lipoproteins were added on Days 5-7. LH stimulation of progesterone production was apparent in cultures obtained at 0 and 12 (p less than 0.05) but not 1 and 4 h post-PGF2 alpha. Addition of either LDL or HDL increased progesterone synthesis in all cultures, regardless of time following in vivo administration of PGF2 alpha. It is concluded that PGF2 alpha can inhibit bovine luteal cell utilization of either LDL or HDL in vitro. However, luteal cell utilization of lipoproteins in vitro is not adversely affected by in vivo exposure to PGF2 alpha, if collected within 12 h post-PGF2 alpha.     

In vitro effects of cycloheximide and luteinizing hormone on the estradiol-to-progesterone shift in follicular steroidogenesis

The objectives of this study were to establish a completely in vitro system that would simulate the in vivo effects of cycloheximide (cyclo) on preovulatory serum levels of estradiol (E2) (prolonged) and progesterone (P4) (reduced). Graafian follicles were removed from proestrous hamsters at 0900 h and incubated for a basal hour (Hour 1) with various doses of cyclo before the medium was replaced; in Hour 2, 100 ng luteinizing hormone (LH) was added with cyclo added every hour for 5 or 6 h. The endpoints were steroid levels/follicle/h per ml medium of P4, 17 alpha-hydroxyprogesterone (170HP), androstenedione (A), and E2. The goal was best accomplished with hourly addition of 400 ng cyclo, which reduced follicular protein synthesis by 76%. Cyclo suppressed P4 and 170HP and prolonged the accumulation of A and E2, in Hour 5 and Hour 6, correlated with sustained thecal C-17,20-lyase/17 alpha-hydroxylase as determined by enzyme assays. Cyclo therefore prevented the early demise of the enzyme complex after LH stimulation and hence prolonged the ability of the theca to provide androgens for conversion to E2 by the granulosa cells. Our earlier work established that one of the major effects of LH is to recruit the granulosa compartment as a source of C-21 steroids, and cyclo interferes with the availability of cholesterol to mitochondrial side-chain cleavage (Greenwald and Limback, 1984). Thus, cyclo affects follicular steroidogenesis through different mechanisms in theca and granulosa.     

Studies on the mechanism of action of prostaglandin F2 alpha induced luteolysis in rats

The effects of prostaglandin F2 alpha (PGF2 alpha) administration on the utilization of low density lipoprotein (LDL) and progesterone secretion were examined in dispersed luteal cells from rat ovaries. Immature rats were rendered pseudopregnant with administration of pregnant mare serum gonadotropin and human chorionic gonadotropin. Animals were sacrificed at different times after PGF2 alpha (5 mg/kg) or vehicle administration on day-5 of pseudopregnancy. Administration of PGF2 alpha in vivo decreased human chorionic gonadotropin (hCG) binding to luteal cell membranes in vitro but enhanced binding of LDL. Utilization of labelled cholesterol for steroid synthesis from reconstituted LDL [(3H)-CL-LDL] by dispersed luteal cells was enhanced following PGF2 alpha administration. This suggests that the LDL pathway is not suppressed during prostaglandin induced luteolysis. Progesterone and total progestin secretion in response to N6-2'-0-Dibutyryladenosine 3'5'-cyclic monophosphate (cAMP) was decreased at 2, 4 and 24 hours following PGF2 alpha administration demonstrating a post-cAMP defect in steroidogenesis. Addition of the hydroxylated sterols, 20 or 25-OH cholesterol as substrate stimulated progesterone secretion in vehicle treated rats in a dose dependent fashion with 20-OH cholesterol being more potent. Progesterone secretion in response to stimulation with luteinizing hormone (LH) and cAMP from vehicle treated rats was less than that observed with 20 or 25-OH cholesterol, indicating that endogenous substrate may be a limiting factor in steroid synthesis. The maximal capacity of luteal tissue to produce progestins following PGF2 alpha administration was determined with 20-OH cholesterol as the substrate. The results suggest that the post-cAMP defect at 4 hours following PGF2 alpha administration may be due to failure of the cells to mobilize endogenous cholesterol. However at 24 hours following PGF2 alpha administration the decreased ability of luteal cells to convert cholesterol to pregnenolone may contribute to decreased progesterone synthesis.     

Concentrations of steroids and expression of messenger RNA for steroidogenic enzymes and gonadotropin receptors in bovine ovarian follicles of first and second waves and changes in second wave follicles after pulsatile LH infusion

The objectives were to compare expression of mRNA for cytochrome P450 cholesterol side-chain cleavage (P450scc), cytochrome P450 17alpha-hydroxylase (P450c17), cytochrome P450 aromatase (P450arom), 3beta-hydroxysteroid dehydrogenase Delta(4), Delta(5) isomerase (3beta-HSD), FSH receptor (FSHr) and LH receptor (LHr) in bovine ovarian follicles of the first and second waves of the bovine oestrous cycle and to determine if LH infusion changes growth, steroidogenesis and gene expression in second wave follicles. Transrectal ultrasonography was used to examine follicular size changes during the oestrous cycle in non-lactating Holstein cows (n=31). Saline or purified bovine LH was infused intravenously into cows at emergence of follicular waves for 2 or 4 days using a computer-controlled syringe pump (n=5-6 per treatment). Treatments were: wave 1, saline (W1S); wave 2, saline (W2S) or LH (25 microg/h; W2LH). During infusion, blood samples were collected at 12min intervals for 8h via i.v. catheters for measurement of serum LH concentrations. Ovaries were removed from cows on days 2 or 4 after emergence of follicular waves. Follicles were frozen and stored at -80 degrees C. Follicular fluid (FF, 50 microl) was collected for determination of progesterone (P4), oestradiol-17beta (E2) and androstenedione (A4) concentrations. Frozen sections (14 microm) were used for in situ hybridization to measure expression of mRNA (% pixel intensity) for P450scc, P450c17, P450arom, 3beta-HSD, FSHr, and LHr. LH infusion resulted in a serum LH pattern (high frequency) similar to the early luteal phase. There were no significant differences in size of follicles among the three treatment groups. Follicular fluid concentrations of E2 and A4 in W2S were lower than those of W1S on day 2 of a follicular wave. LH infusion into cows during the midluteal phase increased follicular fluid E2 and A4 concentrations in second wave follicles on day 2 of a follicular wave (W2LH) compared to those of W2S. The increase in follicular fluid E2 on day 2 in wave 2 follicles after LH infusion occurred possibly through an increase in mRNA expression of P450c17 and 3beta-HSD. In conclusion, follicular fluid concentrations of E2 and A4 were lower in W2S than in W1S and E2 and A4 concentrations were restored by infusion of LH in W2LH with an increase in mRNA expression of P450c17 and 3beta-HSD.     

Attenuation of hen granulosa cell steroidogenesis by a phorbol ester and 1-oleoyl-2-acetylglycerol

A series of studies was conducted to evaluate the effects of phorbol esters and a diacylglycerol analog on basal and hormone-stimulated steroidogenesis in granulosa cells from the largest preovulatory follicle of the domestic hen. Agents that previously have been shown to activate protein kinase C, such as the tumor-promoting phorbol ester, phorbol 12-myristate 13-acetate (PMA), and the synthetic diacylglycerol analog, 1-oleoyl-2-acetylglycerol (OAG), suppressed luteinizing hormone (LH)-induced progesterone (PMA at levels of 10 and 100 ng/tube; OAG at levels of 10 and 25 micrograms/tube), and androgen (10 and 100 ng PMA; 25 micrograms OAG) production, but had no effect on basal levels of either steroid. Furthermore, PMA decreased the ability of vasoactive intestinal peptide to induce steroidogenesis, suggesting that protein kinase C activation may generally modulate the activity of hormones that act via the adenylyl cyclase/cyclic 3',5'-adenosine monophosphate (cAMP) second messenger system. In further support of this proposal was the finding that PMA and OAG decreased the production of cAMP in response to LH, and attenuated the steroidogenic response in granulosa cells exposed to 10 mM 8-bromo-cAMP. By contrast, the induction of calcium mobilization using a calcium ionophore (A23187; 0.5-2.0 microM) stimulated progesterone and androgen production without increasing intracellular levels of cAMP, and this stimulatory effect on steroidogenesis was not inhibited by the presence of 100 ng PMA/tube. From these data, we suggest that the activation of protein kinase C in granulosa cells of the hen may provide a physiological mechanism by which receptor-mediated steroidogenesis, involving the adenylyl cyclase second messenger system, is modulated.     

Dose-related effects of luteinizing hormone on the pattern of steroidogenesis and cyclic adenosine monophosphate release in superfused preovulatory rat follicles

The secretion of steroids and the release of cAMP in response to repeated luteinizing hormone (LH) stimulation were examined during superfusion of isolated preovulatory rat follicles. A high dose of ovine LH (1 microgram/ml for 20 min) caused a prolonged increase in the secretion of progesterone (P) and 20 alpha-dihydroprogesterone (20 alpha-OHP) and a transient increase in the secretion of testosterone (T) and estradiol-17 beta (E2), and was accompanied by a peak of cAMP release. A single pulse of LH at a low dose level (10 mg/ml for 20 min) gave a limited increase in T secretion, but no clear change in P, 20 alpha-OHP and E2 secretion or cAMP release. When the follicles were challenged with a second pulse of LH (at 1 microgram/ml), the response varied according to the dose of LH delivered in the preceding pulse. Following exposure to the high dose of LH, the follicles were partially refractory to the second LH challenge in terms of cAMP and P and the secretion of T and E2 remained low. The low dose of LH, however, had a conditioning effect on the follicles since the response to the second LH challenge was amplified in terms of P, 20 alpha-OHP and cAMP. In this case a secondary increase in T and E2 secretion was found. The differential response to varying doses of LH are likely to reflect the physiological control of steroidogenesis during final follicular maturation.     

The influence of beta-endorphin on testicular endocrine function in adult rats.

The role of beta-endorphin in testicular steroidogenesis is poorly understood. To address this issue, we treated adult hypophysectomized rats intratesticularly with either saline-50% polyvinylpyrrolidone (SAL-PVP) or human beta-endorphin (0.5 microgram/testis; a total of 1 microgram/rat/day) in SAL-PVP for 3 days. Testicular injections were made under ether anesthesia. On Day 3, rats also received injections (s.c.) of either SAL-PVP or 5 micrograms beta-endorphin in SAL-PVP to minimize the dilution of ether in the testis. One hour later, rats were treated (i.p.) with either saline or ovine LH (25 micrograms/rat). One hour after saline or LH injection, blood was obtained via heart puncture for determination of plasma progesterone (P), androstenedione (A-dione), and testosterone (T) levels. The effects of beta-endorphin (50 ng, equivalent to 13.9 pM; or 250 ng, equivalent to 69.6 pM) on P and androgen secretions in vitro were also examined. Intratesticular injections of beta-endorphin significantly (p less than 0.025) decreased the T response to LH treatment, but failed to affect plasma P and A-dione levels. Response of P to LH treatment was increased (p less than 0.005) in medium containing testicular fragments exposed to 250 ng (69.6 pM) beta-endorphin. However, beta-endorphin attenuated LH effects on A-dione and T production in vitro. These studies demonstrate that beta-endorphin inhibits T secretion, possibly because of its effect on the synthesis of T precursors. Thus, testicular beta-endorphin modulates the endocrine function of the testis in adult rats.     

Time dependent and cell-specific action of polychlorinated biphenyls (PCB 153 and PCB 126) on steroid secretion by porcine theca and granulosa cells in mono- and co-culture.

To characterize PCB action on follicular cell steroidogenesis two PCB congeners were selected as model substances. PCB 126 because of its dioxin-like configuration and high toxicity and PCB 153 because it is one of the most commonly detected PCB congeners in breast milk. The direct effect of PCBs was investigated using a culture system of porcine theca and granulosa cells collected from porcine preovulatory follicles. Granulosa and theca cells were cultured in M199 medium supplemented with 1, 10 or 100 pg/ml of PCB 126 or 1, 10 and 100 ng/ml of PCB 153. The media were changed after 48, 96 and 144 h and frozen until further estradiol (E2) analysis. Additionally, progesterone (P4) was measured in the granulosa cells culture medium and testosterone (T) in theca cells culture medium. Decrease of testosterone concentration in the theca cells culture medium was found after 96 and 144 hours in culture by both investigated PCB congeners. A decrease in E2 concentration was found after exposure to PCB 153. These findings suggest different actions of two congeners on the steroid synthesis in theca cells. The lack of an increase in E2 secretion after the exposure to PCB 126 could be due to depletion of androgen precursor. In granulosa cell culture PCB153 decreased E2 secretion and increased P4 secretion suggesting luteinization and disruption of aromatization process. PCB 126 in a doses from 1 to 10 pg had no effect on granulosa cells steroidogenesis. However, the highest dose (100 pg) increased concentration of both E2 and P4. This observation suggest that PCB 126 in a pharmacological doses may affect cell membrane permeability, thereby increasing steroid outflow into the medium. These results suggest time dependent and cell-specific differences in PCB 153 and 126 action on follicular cells steroidogenesis. Further studies are required to elucidate the mechanism of PCBs action on ovarian steroidogenesis.     

Rat Leydig cells use apolipoprotein E depleted high density lipoprotein to regulate testosterone production

Rat HDL are known to increase testosterone production by cultured Leydig cells either following gonadotropin stimulation or cholesteryl ester depletion. However, rat HDL contain apolipoprotein E and have a high affinity for the members of the low density receptor family such as LDL receptor, LDL receptor related protein and VLDL receptor. In contrast with the adrenal cells, the contribution of apo A-I and apo E pathways in HDL cholesterol uptake has not been yet evidenced in rat Leydig cells. Recent data provided evidence that hCG stimulates scavenger receptor BI expression in testes. In order to investigate if testosterone production can be stimulated by apo E depleted HDL, we compared the level of testosterone stimulation by HDL with or without apo E first, in presence of saturating dose of hCG (1 IU/ml) and second, after depletion of cholesterol synthesis by pravastatin, an inhibitor of HMG-CoA reductase. In presence of hCG, HDL with or without apo E increased testosterone production respectively by 37 and 25%. Pravastatin at 100 g/ml inhibited the cholesterol synthesis and the testosterone production by 25% and decreased the cholesteryl content by 25%. The addition of HDL with or without apo E (50 g protein HDL/ml) completely overcame the depletion of cellular cholesteryl esters and the inhibition of testosterone production induced by pravastatin. In the presence of heparin, apo E depleted HDL overcame the testosterone production induced by pravastatin, indicating that uptake of HDL without apo E via a secretion of apo E by the cells themselves was not involved. Therefore, in absence of apo E, it is suggested that rat Leydig cells used HDL to regulate steroidogenesis via an apolipoprotein A-I pathway.     

Cultivation of rat granulosa cells in a serum-free chemically defined medium--a useful model to study lipoprotein metabolism

We have developed a chemically defined, serum-free medium for the culture of rat granulosa cells. This medium contains Dulbecco's modified Eagle's medium/Ham's nutrient F12 (DME:F12) (1:1) plus insulin (2 micrograms/ml), hydrocortisone (100 ng/ml), transferrin (5 micrograms/ml) and fibronectin (2 micrograms/cm2). Granulosa cells grown in this medium have an absolute requirement for added cholesterol-rich lipoproteins for steroidogenesis. When cells are cultured in basal medium, progestin production is low; when cells are cultured in the presence of follicle-stimulating hormone (FSH) or dibutyryl cAMP [Bu)2 cAMP), progestin secretion is increased 10-100-fold. Both heterologous and homologous lipoproteins synergistically increased the effects of (Bu)2 cAMP or FSH: e.g., addition to the medium of human (h)-HDL3 produced a significant increase in both basal (approx. 15-fold) and (Bu)2 cAMP-stimulated (approx. 1000-2000-fold) progestin production. LDL were less effective than HDL at equivalent concentrations of lipoprotein cholesterol. FSH invoked changes similar to that of (Bu)2 cAMP, although the magnitude of the FSH-induced change was less dramatic than that seen with (Bu)2 cAMP. The effect of h-HDL3 and h-LDL on both basal and hormone-stimulated progestin production was concentration- and time-dependent. The maximum effect of h-HDL3 was achieved at a protein concentration of 500 micrograms/ml, with an ED50 of approx. 90 micrograms/ml. In contrast, h-LDL was most effective at a concentration of 30-40 micrograms protein/ml. Likewise, rat (r-)HDL and r-LDL supported steroidogenesis in a concentration-dependent manner. Maximal responses to all additions were observed after 72 h of treatment. Granulosa cells secreted 20 alpha-hydroxypregn-4-ene-3-one as the predominant steroid in response to (Bu)2 cAMP. However, with the addition of h-HDL3, the major secreted product was progesterone. In conclusion, rat granulosa cells maintained in the described serum-free medium are exquisitely sensitive to supplied cholesterol-rich lipoproteins. When cultured in the presence of both lipoproteins and stimulatory agents, they produce from 1000-2000-times the progestins made by comparable cells maintained in medium alone. This responsiveness of the cells to both lipoprotein and hormone stimulation makes them uniquely suitable for studies involving the uptake and metabolism of lipoproteins during steroidogenesis.     

Steroidogenic response of rat and pig luteal cells to estradiol-17 beta and catecholestrogens in vitro.

The corpora lutea of several species contain estrogen receptors, but the role of estrogens in luteal function is unclear in most species. In this study, we investigated the direct effect of estradiol-17 beta (E2) and catecholestrogens (2-OHE2 or 4-OHE2) on rat and pig luteal steroidogenesis using in vitro cultures of small (SLC) and large (LLC) luteal cells prepared by elutriation. SLC and LLC were cultured at 37 degrees C for 36 h in serum-free media and treated with E2, 2-OHE2, or 4-OHE2; LH; forskolin (FORS); dibutyryl cAMP (dbcAMP); or combinations thereof. In the rat, E2 (2.5-10 micrograms/ml) inhibited progesterone (P4) production by both cell types dose-dependently. P4 production by rat SLC increased with increasing dose of 4-OHE2 up to the 2.5-microgram dose, then decreased to near control level at the 10-microgram dose. In LLC, P4 production in the presence of 4-OHE2 decreased initially (up to 2.5 micrograms/ml 4-OHE2), then increased at the 10-microgram dose. LH, FORS, and dbcAMP stimulated P4 production by SLC and LLC. For SLC, the stimulatory effects of LH and 4-OHE2 (2.5 micrograms) were comparable but lower than those of FORS and dbcAMP. For LLC, the effects of 4-OHE2 (10 micrograms), LH, and FORS were comparable but lower than those of dbcAMP. In time-course experiments, E2 inhibition of P4 production was observed at 36 and 72 h but not 6 h of culture for SLC and at all time points for LLC.(ABSTRACT TRUNCATED AT 250 WORDS)     

Dominant bovine ovarian follicular cysts express increased levels of messenger RNAs for luteinizing hormone receptor and 3 beta-hydroxysteroid dehydrogenase delta(4),delta(5) isomerase compared to normal dominant follicles

The objective was to compare ovarian steroids and expression of mRNAs encoding cytochrome P450 side-chain cleavage, cytochrome P450 17 alpha-hydroxylase, cytochrome P450 aromatase, 3 beta-hydroxysteroid dehydrogenase Delta(4),Delta(5) isomerase, LH, and FSH receptors and estrogen receptor-beta in ovaries of cows with dominant and nondominant ovarian follicular cysts and in normal dominant follicles. Estradiol-17 beta, progesterone, and androstenedione concentrations were determined in follicular fluid using specific RIAs. Dominant cysts were larger than young cysts or dominant follicles, whereas nondominant cysts were intermediate. Estradiol-17 beta (ng/ml) and total steroids (ng/follicle) were higher in dominant cysts than in dominant follicles. Expression of LH receptor and 3 beta-hydroxysteroid dehydrogenase mRNAs was higher in granulosa cells of dominant cysts than in dominant follicles. Nondominant cysts had higher follicular concentrations of progesterone, lower estradiol-17 beta concentrations, and lower expression of steroidogenic enzyme, gonadotropin receptor, and estrogen receptor-beta mRNAs than other groups. In summary, increased expression of LH receptor and 3 beta-hydroxysteroid dehydrogenase mRNAs in granulosa and increased follicular estradiol-17 beta concentrations were associated with dominant cysts compared to dominant follicles. Study of cysts at known developmental stages is useful in identifying alterations in follicular steroidogenesis.     

Effect of lipoproteins and luteotrophins on progesterone accumulation by luteal cells from the pregnant pig

The roles of prolactin (Prl) and LH in the maintenance of luteal function in pregnant pigs were investigated. Luteal cells from pigs between days 70 to 95 of pregnancy were dissociated and incubated for 4 h. In the absence of exogenous cholesterol, LH exhibited a dose-dependent stimulatory effect on progesterone secretion. Prl had a mild stimulatory effect on progesterone accumulation and at lower doses Prl potentiated the response to LH. Low density lipoprotein (LDL) but not high density lipoprotein (HDL) had a mild stimulatory effect on progesterone secretion. When exogenous cholesterol was provided as the substrate in the form of LDL or HDL, Prl had a striking stimulatory effect on progesterone secretion. When 25-hydroxycholesterol which bypasses the lipoprotein receptor was provided as the substrate, Prl failed to stimulate progesterone accumulation. The stimulatory effect of LH was potentiated when LDL, HDL, or 25-hydroxycholesterol were present. The results of this study suggest that LH increases the uptake of exogenous cholesterol in the form of lipoproteins and enhances the utilization of internalized cholesterol for progesterone synthesis. Prl appears to stimulate progesterone synthesis by enhancing the uptake of lipoproteins.     

Episodic luteinizing-hormone release in the ovariectomized female guinea pig: rapid inhibition by estrogen

Negative feedback of estrogen was investigated in ovariectomized female guinea pigs. Two weeks after ovariectomy, indwelling catheters were inserted into the jugular vein, and 3 days later, blood samples were taken every 10 min to determine the pattern of luteinizing hormone (LH) secretion. LH secretion in these guinea pigs was episodic, with a mean pulse period of 32 min. The mean pulse amplitude was 2.1 ng/ml, with mean plasma LH levels of 1.8 ng/ml. Twenty-five micrograms 17 beta-estradiol (E2), given i.v., caused a pronounced inhibition of pulsatile LH release. Twenty-five microliters of 100% ethanol (vehicle) had no effect on plasma LH values. In a second set of experiments, ovariectomized female guinea pigs were given two injections of luteinizing hormone-releasing hormone (LHRH) (1 microgram/kg BW, i.v.) separated by 30 min. Sharp rises in serum LH values were detected after each injection. A third injection of LHRH was administered after an injection of either 25 micrograms E2 or 25 microliters vehicle. In the presence of E2, the LH response was significantly (p less than 0.005) diminished, whereas the vehicle did not change the LH response to LHRH. These rapid effects of E2 on LH secretion and the pituitary responsiveness to LHRH infusion indicate that in the ovariectomized guinea pig E2 can directly block gonadotropin secretion. These findings are consistent with the hypothesis that negative feedback actions of E2 are directly on the membrane of the gonadotrope.