Changes in cAMP-dependent protein kinase (PKA) and progesterone secretion in luteinizing human granulosa cells

Luteinization of follicular granulosa cells leads to an increase in progesterone secretion that is regulated by luteinizing hormone (LH). LH acts mainly by elevating intracellular cyclic 3',5'-adenosine monophosphate (cAMP) and activating cAMP-dependent protein kinase (PKA). In this study, we have examined the role of PKA in relation to progesterone output by luteinizing human granulosa cells. Human granulosa cells were obtained by percoll gradient centrifugation of follicular aspirates of patients undergoing oocyte retrieval for assisted conception. Cells were cultured in serum-supplemented medium for up to 3 days in the presence and/or absence of human (h)LH and other cAMP-elevating agents. Spent medium was assayed for cAMP and progesterone content by specific RIA. Cell lysates were collected and assessed for PKA regulatory (R)IIalpha/catalytic (C)alpha expression by Western blotting. Although basal progesterone secretion increased progressively throughout culture, cAMP levels remained unchanged. Under basal conditions, PKA RIIalpha/Calpha expression appeared to increase throughout the 3-day culture period. In the presence of hLH and other cAMP-elevating agents, progesterone secretion increased in a dose-dependent manner coincident with an increase in cAMP. However, despite the increase in both progesterone secretion and cAMP accumulation, there was a dose-dependent decrease in both PKA RIIalpha and Calpha expression. Thus, data presented in this study show that increases in progesterone secretion in luteinizing human granulosa cells can be dissociated from increases in PKA expression. This notion implies that progesterone secretion may be regulated by PKA-dependent as well as PKA-independent mechanisms.     

Progesterone regulation of human granulosa/luteal cell viability by an RU486-independent mechanism

CONTEXT: Progesterone (P4) inhibits human granulosa/luteal cell apoptosis by an unknown mechanism. OBJECTIVE: Our objective was to assess the role of the nuclear P4 receptor (PGR) and PGR membrane component 1 (PGRMC1) in mediating P4's antiapoptotic action in human granulosa/luteal cells. DESIGN, SETTING, AND PATIENTS: In vitro laboratory studies were designed in which human granulosa/luteal cells were harvested from in vitro fertilization patients from 2004-2006. MAIN OUTCOME MEASURE: Apoptosis was assessed by terminal deoxynucleotidyl transferase-mediated dUTP-biotin nick end-labeling assays and DNA staining. Protein expression was observed by Western blot and immunocytochemistry. RESULTS: PGR was detected in 20% of the human granulosa/luteal cells, and 25 and 50 microM RU486 induced at least 70% of the cells to undergo apoptosis. Five micromolar RU486 neither induced apoptosis nor attenuated the antiapoptotic action of 1 microM P4. PGRMC1 and its binding partner, plasminogen activator inhibitor RNA-binding protein-1 (PAIRBP1), were detected in human granulosa/luteal cells. Antibodies to either PGRMC1 or PAIRBP1 completely attenuated P4's action. CONCLUSIONS: PGR does not exclusively mediate P4's action because 1) 5 microM RU486 should have been able to override the antiapoptotic action of 1 microM P4 because RU486 binds to the PGR at a greater affinity than P4; 2) 25 and 50 microM RU486 induce three to four times more cells to undergo apoptosis than express PGR; 3) P4 must be continuously present to prevent apoptosis, which implies a rapid, possibly membrane-initiated mechanism of action; and 4) expression and blocking antibody studies suggest that PGRMC1 and PAIRBP1 account in part for P4's action in human granulosa/luteal cells.     

Aggregation of luteinizing hormone receptors in granulosa cells: a possible mechanism of desensitization to the hormone.

The temporal relationship between redistribution of receptors to lutropin (luteinizing hormone)/human chorionic gonadotropin in cultured rat ovarian granulosa cells and the cellular response to hormonal challenge were studied. Visualization of receptor-bound human chorionic gonadotropin by indirect immunofluorescence, with hormone-specific antibodies after fixation with 2% formaldehyde, revealed the existence of small clusters around the entire cell circumference 5--20 min after exposure to the hormone at 37 degrees C. Such small receptor aggregates were also evident if hormone incubation was at 4 degrees C or if cells were fixed with 2% formaldehyde before incubation. Larger clusters were evident after prolonged incubation with the hormone (2--4 hr) at 37 degrees C. The later change coincided with diminished cyclic AMP accumulation in respose to challenge with fresh hormone. When the fixation step was omitted and antibodies to human chorionic gonadotropin were applied after hormonal binding, acceleration of both receptor clustering and the desensitization process was observed. This maneuver also induced capping of the hormone receptors. In contrast, monovalent Fab' fragments of the antibodies were without effect. Internalization of the bound hormone in lysosomes, and subsequent degradation, was evident 8 hr after hormonal application and was not accelerated by the antibodies. It is suggested that clustering of the luteinizing hormone receptors may play a role in cellular responsiveness to the hormone. Massive aggregation of the receptors may desensitize the cell by interferring with coupling to adenylate cyclase.     

Progesterone secretion by highly differentiated human granulosa cells isolated from preovulatory Graafian follicles induced by exogenous gonadotropins and human chorionic gonadotropin

Human granulosa-luteal cells were harvested from preovulatory Graafian follicles at the time of oocyte retrieval for in vitro fertilization after induction of follicle maturation by sequential injections of menopausal gonadotropins and hCG. Such highly differentiated granulosa cells produced large quantities of progesterone basally (6.8 pg/cell X 2 days) in monolayer culture. Human LH significantly increased progesterone biosynthesis after 6, 12, 48, 96, or 144 h in culture, with a maximal increase of 8- to 20-fold occurring at 96 h. The stimulatory effect of LH could be observed under serum-free conditions and was maximal in the presence of 4% serum. Human granulosa-luteal cells also exhibited significant stimulatory responses to hCG, prostaglandin E2, or the cAMP effectors 8-bromo cAMP, choleratoxin, or forskolin in serum-free incubations. Concentrations of 17 beta-estradiol that are attained physiologically in ovarian follicles in vivo markedly suppressed basal and LH (or cAMP)-stimulated progesterone production in vitro (maximal suppression, greater than 90%). The nonaromatizable androgen 5 alpha-dihydrotestosterone also inhibited progesterone production, but by no more than 45-50% even at supraphysiological concentrations. Estradiol's blockade of progesterone synthesis was associated with a corresponding increase in pregnenolone accumulation. The present studies indicate that human granulosa-luteal cells isolated from preovulatory follicles induced with exogenous gonadotropins and hCG secrete large quantities of progesterone in vitro. Such cells retain stimulatory responses to human LH, hCG, prostaglandin E2, and classical cAMP effectors in serum-free incubations. Moreover, physiological concentrations of 17 beta-estradiol suppress progesterone production, probably by inhibiting cellular conversion of pregnenolone to progesterone. Thus, the present in vitro system permits an investigation of hormone action in well differentiated, human granulosa-luteal cells isolated from preovulatory Graafian follicles that have a defined endocrine history of prior gonadotropin exposure in vivo.     

Prolactin-mediated progesterone secretion by cultured rat granulosa cells: regulation by purified human glycoprotein hormones and their subunits

The effects of purified alpha- and beta-subunits of human glycoprotein hormones on initial luteinization and subsequent prolactin-mediated progesterone responses of cultured rat granulosa cells were studied. Granulosa cells, obtained from immature female rats 50 h after PMSG treatment, were incubated for 24 h in control medium lacking added hormones or in medium containing hCG or the alpha- or beta-subunit of human (h) FSH, LH, CG, or TSH at 0.1, 0.5, and 1.0 microgram/ml. Cultures were maintained subsequently for 6 days in medium containing 1.0 microgram/ml bovine PRL (bPRL), with medium changes every 48 h. Indices of luteotropic stimulation in response to bPRL were provided by 1) elevated progesterone concentrations determined by RIA of spent media samples, and 2) cytoplasmic lipid accumulation assessed by osmium tetroxide staining following fixation of monolayers after 7 days of culture. Progesterone concentrations in media from cultures incubated in 0.5 or 1.0 microgram/ml hCG were 6-fold higher than in cultures incubated in control medium, while those in media from cultures incubated in 0.5 or 1.0 microgram/ml hFSH alpha, hLH alpha, hCG alpha, hTSH alpha, hLH beta, or hCG beta (but not in hFSH beta or hTSH beta) were from 2- to 4-fold higher than those in control cultures. This enhancement was not evident when subunits were added to the incubation media at the lowest concentration. Progesterone secretion corresponded directly with the degree of cytoplasmic osmiophilia. These results suggest that the alpha-subunit of each of the glycoprotein hormones as well as the beta-subunit of hLH and hCG have the ability to promote progesterone secretion during initial luteinization and to regulate subsequent PRL-mediated steroidogenesis by rat granulosa cells in vitro. Furthermore, these effects are greater than can be accounted for by potential contamination of subunit preparations with undissociated hormones, as demonstrated by dose-response curves.     

Homologous regulation of hormone receptors: luteinizing hormone increases its own receptors in cultured rat granulosa cells

LH receptors in granulosa cells are essential for ovulation and luteinization of ovarian follicles. We have studied the possible role of LH to regulate its own receptors in vitro. Granulosa cells obtained from immature hypophysectomized estrogen-treated rats were primed with FSH for 2 days to induce LH receptors. The cells were then challenged with or without increasing doses of LH or hCG for an additional 2 days, and the concentration of LH receptors was measured by [125I]iodo-hCG binding. FSH-induced LH receptors in granulosa cells decreased to negligible levels in cultures without gonadotropins, while LH receptor numbers were further increased by LH or hCG in a biphasic manner. Maximal stimulation of LH receptor content was obtained with gonadotropin doses of 6, 10, and 2.5 ng/ml for rat LH, ovine LH, and hCG, respectively. In contrast, higher doses of the gonadotropins were less effective. LH stimulation of [125I]iodo-hCG-binding sites was associated with increases in the number of LH receptors, without changes in the Kd value (control, 1.22 +/- 0.22 X 10(-10) M; LH-treated, 2.55 +/- 0.55 X 10(-10) M). Also, the changes in LH receptor numbers were correlated with the responsiveness of granulosa cells to LH stimulation of cAMP production. LH and hCG did not affect overall granulosa cell protein content. However, treatment with cycloheximide, a protein synthesis inhibitor, decreased LH-induced receptors by 46%, suggesting the involvement of new protein synthesis. Thus, these studies have demonstrated that LH, like FSH, is capable of stimulating granulosa cell differentiation by inducing its own receptors. This serves as an interesting model for studies on the positive autoregulation of hormone receptors and explains the important role of LH during advanced stages of follicular maturation.     

Induction of heparanase in bovine granulosa cells by luteinizing hormone: possible role during the ovulatory process

Follicular development, follicular rupture, and corpus luteum (CL) formation are accompanied by extensive tissue remodeling. We examined whether heparanase (HPSE), which cleaves heparan sulfate glycosaminoglycans, is induced during these processes. Prostaglandin F2alpha injection, which initiated luteolysis and the development of a preovulatory follicle, moderately increased HPSE mRNA in bovine granulosa cells (GCs). GnRH, used to induce gonadotropin surge, markedly augmented HPSE mRNA levels 12 h after its injection. The temporal pattern of HPSE gene expression in follicular-luteal transition was further examined in follicles collected before, and 4, 10, 20, 25, and 60 h after GnRH injection. HPSE mRNA increased transiently 10-20 h after GnRH injection to levels 10-fold higher than in untreated heifers. HPSE protein levels were similarly elevated 20 h after GnRH injection in GCs, but not in the theca layer. Cyclooxygenase-2 (PTGS2) mRNA peaked before ovulation when HPSE levels returned to baseline levels. HPSE mRNA abundance also remained low in the CLs. The antiprogesterone, RU-486, elevated HPSE levels in GC culture, suggesting that progesterone secreted by CLs may inhibit HPSE. HPSE immunostaining was more abundant in GCs than thecae. In cultured GCs, LH induced a transient increase in HPSE mRNA 3-6 h after its addition, but not at 24 h. However, PTGS2 mRNA was clearly induced at this time. These findings suggest that: 1) HPSE may play a role in ovulation but much less so during CL development, and 2) GC-derived HSPE may be a novel member of the LH-induced extracellular matrix-degrading enzyme family and may contribute to follicular rupture.     

Stimulatory effect of luteinizing hormone upon relaxin secretion by cultured porcine preovulatory granulosa cells

Relaxin, a peptide hormone capable of causing connective tissue alterations, is produced by the corpus luteum and traditionally considered a hormone of pregnancy. We have cultured granulosa cells from preovulatory porcine follicles and have found that these non-pregnancy associated cells secrete relaxin, and that luteinizing hormone, which stimulates ovulation, enhances relaxin secretion by cells from large preovulatory follicles. These results suggest that relaxin secreted prior to ovulation may have a local ovarian effect, perhaps facilitating ovulation.     

Progesterone secretion by granulosa cells from rats with four- or five-day estrous cycles: the development of responses to follicle-stimulating hormone, luteinizing hormone, and testosterone

Changes in granulosa cell sensitivity and responsiveness to gonadotropins during the rat estrous cycle were studied by measuring progesterone (P) secretion in vitro in response to treatment with increasing doses of LH or FSH (0, 0.1, 1, 10, 100 ng/ml). The effect of testosterone [(T); 0.5 microM] on response to gonadotropins was also examined. Granulosa cells were isolated from the largest ovarian follicles of rats with 4- and 5-day estrous cycles at 0800 h, 1400 h, and 2000 h on proestrus and on the preceding day of diestrus at 1200 h and 2000 h. In rats with 5-day cycles, granulosa cells were also obtained at 1200 h on the first day of diestrus. Fifty percent maximal P production and 50% effective dose (ED50-dose of gonadotropin which elicited 50% maximal P production) were calculated from dose-response curves for LH and FSH and were used as measures of responsivity and sensitivity to gonadotropins, respectively. Basal P secretion and 50% maximal P secretion increased progressively as cells were isolated at later stages of follicular growth in both 4- and 5-day cycles. In cells from 5-day rats, however, basal and gonadotropin-stimulated P secretion were higher on the second day of diestrus than in cells from 4-day rats. By proestrus responsiveness was equal. Granulosa cell sensitivity to FSH was constant during 4- and 5-day cycles, as indicated by a lack of change in the ED50. Granulosa cell sensitivity to LH was lower than sensitivity to FSH on diestrus of both 4- and 5-day cycles. However, by the morning of proestrus sensitivity to LH increased and was similar to that for FSH. T increased basal P production only slightly, but synergized with both LH and FSH to stimulate 2-fold increases in 50% maximal P production by granulosa cells isolated at all times except 2000 h on proestrus, after the endogenous LH surge. T had no effect on the sensitivity (ED50) of granulosa cells to LH or FSH. In summary, granulosa cell responsiveness to LH and FSH increased in parallel during the final stages of follicular growth, but increased sensitivity was noted only for LH. The development of granulosa cell capacity to secrete P appears to be more advanced in 5-day rats than in 4-day rats relative to the next estrus. Because T synergized with LH and FSH to increase P secretion without altering sensitivity to gonadotropins, it probably acts at a site distal to gonadotropin receptors.     

Titrating luteinizing hormone surge requirements for ovulatory changes in primate follicles. II. Progesterone receptor expression in luteinizing granulosa cells

The events in granulosa cells that are initiated by the midcycle LH surge during luteinization of the primate follicle are poorly defined. This study was designed 1) to determine whether an ovulatory dose of hCG can induce progesterone receptors (PR) in macaque granulosa cells, and if so, 2) to begin titrating gonadotropin requirements for PR expression and progesterone production by luteinizing granulosa cells. Rhesus monkeys were treated with human FSH and LH for up to 9 days to stimulate the growth of multiple follicles. The next day, animals (n = 4-5/group) received: 1) no ovulatory stimulus; 2) 1000 IU hCG, im; 3) one injection of 100 micrograms GnRH, sc (GnRH-1); 4) three injections of GnRH (GnRH-3) at 3-h intervals (0800, 1100, and 1400 h); or 5) two injections of 50 micrograms GnRH agonist (GnRHa), sc, 8 h apart (0800 and 1700 h). Granulosa cells obtained by follicle aspiration 27 h after the hCG or initial GnRH/GnRHa injection or on days 8 or 10 from animals receiving no ovulatory stimulus were processed for indirect immunocytochemistry using a monoclonal antibody to human PR (JZB39). Specific staining for PR, determined by comparing cells incubated with PR antibody vs. a nonspecific antibody, was undetectable in granulosa cells from monkeys without an ovulatory stimulus. In contrast, the majority (64 +/- 5%) of cells from hCG-treated animals stained intensely for PR. In the GnRH/GnRHa groups, granulosa cells from only one animal (i.e. one GnRH-3 monkey) showed positive staining for PR. During 24-h culture in Ham's F-10 medium containing 10% monkey serum, basal progesterone production by cells from the hCG-treated group (2163 nmol/L.8 x 10(4) cells) was higher than that by cells from the no ovulatory stimulus/GnRH-1/GnRH-3/GnRHa groups (60, 111, 194, and 332 nmol/L, respectively). However, granulosa cells from the hCG-treated group were less responsive to hCG in vitro in terms of enhanced progesterone production (2 times control levels) than cells from the other four groups (up to 30 times control levels). This study provides direct evidence that an ovulatory dose of hCG induces PR expression in granulosa cells of luteinizing follicles during stimulated cycles in rhesus monkeys. However, repeated injections of GnRH/GnRHa that produced surge levels (greater than 100 ng/mL) of endogenous LH for up to 14 h failed to induce PR expression or progesterone production by granulosa cells. Thus, an extended LH surge more typical of that in the normal menstrual cycle (48-50 h) may be necessary for PR expression and luteinization of granulosa cells in primate follicles.     

Relationship between the production of prostaglandins and progesterone by luteinizing human granulosa cells.

Luteinizing granulosa cells synthesize high concentrations of progesterone, prostaglandin (PG) E(2) and PGF(2 alpha). The objective of this study was to explore the relationship between prostaglandin and progesterone output from human granulosa cells as they undergo functional luteinization in culture. Granulosa cells were partially purified from ovarian follicular aspirates and cultured at a density of 10(5) cells/ml in serum-supplemented DMEM:Ham's F(12) medium for 0, 1 or 2 days. Cells were then switched to serum-free medium for 24 h before measuring hormone concentrations in this spent medium by specific radioimmunoassays. Over the first 3 days in culture, PGF(2 alpha) and PGE(2) production declined progressively by up to 82+/-3% coincident with a 55+/-11% increase in progesterone output. In subsequent experiments, cells were treated for 24 h on the second day of culture with either 0.01 to 10 microM meclofenamic acid or with 10 microM and 100 microM aminoglutethimide. Meclofenamic acid inhibited synthesis of PGF(2 alpha) and PGE(2) by up to 70+/-9% and 64+/-7% respectively without affecting progesterone output. Likewise, 100 microM aminoglutethimide inhibited progesterone production by 62+/-6% without affecting concentrations of either PGF(2 alpha) or PGE(2). We have concluded that the progressive decline in prostaglandin production and the rise in progesterone output from luteinizing human granulosa cells occur independently of each other.     

Regulation of gonadotropin receptors by luteinizing hormone in granulosa cells.

In association with luteinization, LH induces a decrease in the content of receptors for FSH and LH and an increase in that for PRL. To elucidate if the mechanism by which LH regulates its own receptors involved occupancy of sites and/or loss of receptors the effects of a luteinizing dose of LH were examined in the preovulatory follicles of immature hypophysectomized rats primed with estradiol and FSH. The measurable LH receptor content declined by 82% 24 h after LH administration. Serum concentration of the hormone declined by 24 h to 1.4% of the concentration measured 2 h after LH administration. Administration of iodinated LH to demonstrate occupancy of sites in vivo, resulted in a decline in the amount of hormone bound in vivo, over a period of time. This decline in occupancy paralleled the decrease in the number of available sites as measured in vitro. Furthermore, a large dose of highly purified hFSH administered in lieu of LH induced luteinization and an associated loss of gonadotropin receptors. These results indicate that luteinizing doses of LH and FSH induce a loss in gonadotropin receptors by mechanisms other than occupancy.     

Effects of RU486 on progesterone secretion by human preovulatory granulosa cells in culture

The effects of RU486 on progesterone synthesis were studied in human preovulatory granulosa cells in culture. No effect was observed at 1 and 10 micrograms/mL, but at 100 micrograms/mL, RU486 inhibited the simulation of progesterone secretion induced by LH and cAMP. It is suggested that the main target of RU486 is the cytochrome P450scc function [catalyzing the formation of pregnenolone (D5P) from cholesterol], since no accumulation of D5P or hydroxy derivatives of progesterone was observed. As RU486 is an antiglucocorticosteroid and antiprogesterone agent, the effects of dexamethasone and progesterone were also investigated. Dexamethasone did not modify progesterone secretion, but progesterone inhibited its own synthesis in both the presence and absence of LH. Thus, under these experimental conditions RU486 displayed a progesterone-like effect. However, since the effect of RU486 was observed only at a concentration around 10(-4) M, the mechanism of action may not involve a receptor pathway and may not apply to most clinical circumstances.     

Lipopolysaccharide directly stimulates cortisol secretion by human adrenal cells by a cyclooxygenase-dependent mechanism

Activation of the hypothalamo-pituitary-adrenal axis by bacterial lipopolysaccharide (LPS; endotoxin) is well documented, although there has been uncertainty about whether LPS exerts a direct effect at the level of the adrenal. The present study found that LPS caused a dose-dependent stimulation of basal cortisol secretion by the human adrenocortical cell line, NCI-H295R, without affecting aldosterone. The expression of both Toll-like receptor 2 (TLR2) and TLR4 was demonstrated in these cells, and the specific ligands for TLR4 (purified LPS and lipid A) and TLR2 (Pam3Cys) were found to stimulate cortisol release, suggesting that these receptors may mediate the effects of LPS in adrenal cells, as has been shown in other cell types. LPS was also found to stimulate prostaglandin E2 release by these cells. The effects of LPS on cortisol were attenuated in the presence of both indomethacin and a specific COX-2 inhibitor, but not a COX-1 inhibitor, suggesting an obligatory role for COX-2 activation and prostaglandin synthesis in the adrenal response to LPS.     

Estradiol and luteinizing hormone regulation of insulin-like growth factor binding protein production by bovine granulosa and thecal cells

To determine the effects of estradiol and luteinizing hormone (LH) on insulin-like growth factor-binding protein (IGFBP) production by bovine granulosa and thecal cells, both cell types were collected and cultured in serum-free medium with various hormone treatments, arranged in three experiments. In thecal cells, insulin stimulated (p < 0.05) production of IGFBP-2 and IGFBP-5, but had no effect (p > 0.10) on IGFBP-3 and IGFBP-4 production; LH stimulated (p < 0.05) production of IGFBP-2 and IGFBP-3 but had no effect (p > 0.05) on IGFBP-4 and IGFBP-5. Estradiol had no effect (p > 0.10) on IGFBP-2, IGFBP-3, IGFBP-4, and IGFBP-5 production by thecal cells. Production of IGFBP-2/-5 by granulosa cells from small follicles was inhibited (p < 0.05) by insulin, but estradiol and LH did not influence (p > 0.10) insulin's inhibitory effect on basal IGFBP-2/-5 production. Insulin, LH, and estradiol each inhibited IGFBP-4 production by small-follicle granulosa cells, but their effects were not additive. IGFBP-3 was not produced by small-follicle granulosa cells. In large-follicle granulosa cells, insulin and LH inhibited (p < 0.05) production of IGFBP-2/-5 and IGFBP-3, whereas estradiol had no effect. Insulin alone had no effect (p > 0.10) on production of IGFBP-4, but estradiol and LH inhibited (p < 0.05) production by large-follicle granulosa cells, and their effects were not additive. These results suggest that production of IGFBP-2, IGFBP-3, IGFBP-4, and IGFBP-5 by granulosa and thecal cells is differentially affected by hormonal stimuli.     

The orphan nuclear receptors NURR1 and NGFI-B modulate aromatase gene expression in ovarian granulosa cells: a possible mechanism for repression of aromatase expression upon luteinizing hormone surge

Ovarian granulosa cells play pivotal roles in many aspects of ovary functions including folliculogenesis and steroidogenesis. In response to FSH and LH, the elevation of intracellular cAMP level in granulosa cells leads to activation of multiple ovarian genes. Here, we report findings from a genome-wide study of the cAMP-responsive gene expression profiles in a human granulosa-like tumor cell line, KGN. The study identified 140 genes that are either activated or repressed by 2-fold or greater after stimulation by the adenylyl cyclase activator forskolin. The induction patterns of some cAMP-responsive genes were further analyzed by quantitative real-time PCR. Consistent with previous observations, the LH-responsive genes, such as the nuclear receptor 4A subfamily (NURR1, NGFI-B, and NOR-1), were rapidly but transiently induced, whereas the FSH-responsive gene CYP19 encoding aromatase was induced in a delayed fashion. Interestingly, ectopic expression of NURR1 or NGFI-B severely attenuated the cAMP-responsive activation of the ovary-specific aromatase promoter. Reduction of the endogenous NURR1 or NGFI-B by small interfering RNA significantly elevated aromatase gene expression. The cis-elements responsible for NURR1/NGFI-B-mediated repression were mapped to the minimal aromatase promoter sequence that confers camp responsiveness. Furthermore, the DNA-binding domain of NURR1 was required for the repression. Taken together, these results strongly suggest a causal relationship between the rapid decline of aromatase mRNA and induction of nuclear receptor subfamily 4A expression, which concomitantly occur upon LH surge at the later stages of ovarian follicular development.     

Oxytocin stimulates progesterone production by bovine granulosa cells isolated before, but not after, the luteinizing hormone surge

Oxytocin and its mRNA have been detected in bovine granulosa cells, but the function of follicular oxytocin is not well understood. We have shown previously that oxytocin exerts a specific, dose-dependent, stimulatory effect on progesterone secretion by granulosa, but not theca cells isolated from bovine preovulatory follicles obtained 48 h after the initiation of luteolysis. The objective of the present study was to characterize the development of granulosa cell responsiveness to oxytocin during the follicular phase. Granulosa cells and theca interna were isolated form preovulatory follicles early in the follicular phase (24 h after the initiation of luteolysis) or after the luteinizing hormone (LH) surge and cultured in defined medium for 5 days with or without oxytocin and in the presence or absence of gonadotropins. Granulosa, but not theca cells obtained before the LH surge increased progesterone production 3.3-fold in response to oxytocin. However, late in the follicular phase, after the LH surge, granulosa cells did not respond to oxytocin (or to follicle-stimulating hormone (FSH) or LH). These findings suggest that the LH surge (1) stimulates granulosa cells to maximal progesterone secretion, so that they cannot be further stimulated, (2) abolishes the responsiveness of granulosa cells to oxytocin, or (3) stimulates granulosa cells to increase oxytocin production, so that exogenous oxytocin has no additional effect.     

Differential regulation of ANG2 and VEGF-A in human granulosa lutein cells by choriogonadotropin.

The growth and development of the corpus luteum after rupture of the follicle is a highly regulated process characterised by a rapid vascularization of the follicle surrounding granulosa cells. Vascularization is regulated by a large number of growth factors and cytokines whereas members of the angiopoietin family and VEGF-A are reported to play a principal role. The gonadotropic hormones luteinizing hormone and choriogonadotropin are reported to be essential for corpus luteum formation. In this study we investigated by RT PCR if the growth factors PGF, PDGF-A, PDGF-B, VEGF-A, VEGF-B, VEGF-C, VEGF-D, ANG1, ANG2, ANG3 and ANG4 are expressed in granulosa cells. We show the expression of VEGF-A, VEGF-B, PDGF-A, ANG1 and ANG2 in granulosa cells. Using RT-PCR and Real-Time PCR we demonstrate that angiopoietin 2 is downregulated in human granulosa cells in vitro after choriogonadotropin treatment whereas the expression of angiopoietin 1 is not significantly altered. The expression of VEGF on the RNA- and on the protein level was determined. It was shown that in granulosa cells VEGF is upregulated after choriogonadotropin treatment on the RNA level and that increasing concentrations of choriogonadotropin from 0 to 10 U/ml leads to an increasing amount of VEGF in the cell culture supernatants. The amount of VEGF in the supernatants reaches a plateau at 0.5 U/ml and is increased only slightly and not significantly after treatment of the cells with 10 U/ml choriogonadotropin compared to 0.5 U/ml. In total these findings suggests that in granulosa cells the mRNA of various growth factors is detectable by RT-PCR and that VEGF-A and ANG2 is regulated by the gonadotropic hormone choriogonadotropin. These findings may add impact on the hypothesis of choriogonadotropin as a novel angiogenic factor.