The effect of bovine activin and follicle-stimulating hormone (FSH) suppressing protein/follistatin on FSH-induced differentiation of rat granulosa cells in vitro

The time- and dose-dependent effects of bovine activin A and bovine follicle stimulating hormone (FSH) suppressing protein (FSP) or follistatin on basal and FSH-induced steroidogenesis and inhibin production were studied in granulosa cells from immature, diethylstilbestrol (DES)-treated rats. In the presence of rat FSH (20 ng/ml) which stimulates aromatase activity and the production of progesterone and inhibin, activin (0.3-100 ng/ml) augmented all three parameters, whereas FSP (0.3-100 ng/ml) enhanced progesterone production and attenuated the other two parameters. In the absence of FSH, the basal parameters were unaffected by treatment with either activin or FSP alone, except for a statistically significant increase in basal inhibin in the presence of activin alone (P less than 0.05, at doses of 30 and 100 ng/ml). Neither activin nor FSP influenced the timing of the maxima of FSH-induced activities over 5 days. These findings suggest that activin and FSP, both present in follicular fluid, may play an important role in the local regulation of granulosa cell differentiation.     

Interactions between activin and follicle-stimulating hormone-suppressing protein and their mechanisms of action on cultured rat granulosa cells

Direct roles of follicle-stimulating hormone (FSH)-suppressing protein (FSP) and activin in regulation of ovarian granulosa cell differentiation have been reported recently. The present study further investigated the effects of these peptides on steroidogenesis and inhibin production as well as cAMP generation in cultured granulosa cells from immature, diethylstilbestrol (DES)-treated rats. In the presence of FSH (20 ng/ml) and activin (30 ng/ml), which enhanced FSH-induced aromatase activity, progesterone production and inhibin production, FSP (1-100 ng/ml) reversed the stimulating activities of activin in a dose-dependent manner. In addition, activin reversed the inhibitory effects of FSP on FSH-induced aromatase activity and inhibin production. In the presence of FSH, activin enhanced FSH-stimulated extracellular cAMP accumulation, and FSP caused a reduction in extracellular cAMP. Activin but not FSP also stimulated basal cAMP level. In the presence of forskolin, a potent stimulant of adenyl cyclase activity which stimulated extracellular cAMP, aromatase activity, progesterone production and inhibin production, activin augmented the effect of forskolin on all four parameters, whereas FSP significantly enhanced progesterone production without changing the other three parameters. Our findings suggest that activin action on rat granulosa cells may be mediated via regulation of cAMP generation. The action of FSP and FSH and/or activin-dependent, consistent with either an action as an activin binding protein or by a direct action of FSP on the granulosa cells.     

Control of FSH receptor mRNA expression in rat granulosa cells by 3',5'-cyclic adenosine monophosphate, activin, and follistatin.

FSH is required to maintain FSH and LH/hCG receptors at elevated steady-state levels after receptor induction. Although this function of FSH is mediated by cAMP, how cAMP level is related to the maintenance of gonadotropin receptors is unknown. To investigate cAMP's effect on changes in the levels of FSH receptor mRNAs in rat granulosa cells, total RNA from cells was prepared and analyzed by Northern blots. Incubation with 8-Br-cAMP for 24 h produced a dose-related increase in FSH receptor mRNA in granulosa cells of DES-primed immature rats. On the other hand, 8-Br-cAMP, washed at 24 h, exerted inverse dose-related effects on FSH receptor mRNA levels at 96 h. The addition of 1 mM cAMP resulted in higher levels of FSH receptor mRNA than that induced by 0.2 mM cAMP at 24 h, while 0.2 mM cAMP is as effective as 1-2 mM cAMP for the induction of FSH receptor mRNA at 96 h. To further analyze cAMP's role in the production of activin in granulosa cells, we measured activin levels in the culture medium after the addition of 8-Br-cAMP. The levels of activin A were suppressed by the addition of 8-Br-cAMP in a dose-dependent manner. In addition, the procedure by which 8-Br-cAMP was removed after 24 h incubation showed that the level of activin in the medium increased after medium change. With regard to the actions of activin A on gonadotropin receptors, our laboratory has demonstrated that activin A increases the levels of FSH receptor mRNAs. Therefore, cAMP has a negative effect on FSH receptor expression by suppressing the activin level. Since follistatin production is up-regulated by cAMP in this system, we examined the effect of follistatin on FSH receptor mRNA level, which is induced by activin and FSH. Cotreatment with follistatin (0-100 ng/ml) and activin (50 ng/ml) in the presence of FSH (30 ng/ml) caused a significant reduction in FSH receptor mRNA levels induced by activin. Based on these observations, it is possible that cAMP has both stimulatory and inhibitory effects on the expression of gonadotropin receptors, and the overall influence of cAMP on their expression might be determined by the integration of such opposing effects.     

Growth hormone enhances follicle-stimulating hormone-induced differentiation of cultured rat granulosa cells

Suppression of serum GH levels in immature rats is associated with delayed onset of puberty and decreased ovarian steroidogenic responsiveness to FSH. To investigate possible direct effects of GH on the differentiation of ovarian cells, granulosa cells from hypophysectomized estrogen-treated rats were cultured with FSH in the presence or absence of GH for 3 days. FSH stimulated granulosa cell LH receptor formation and steroid production in a dose-dependent manner. Concomitant treatment with GH increased LH receptor content by enhancing the action of low doses of FSH without substantial increases in the maximal response. This increase was due to an elevation in the receptor number rather than changes in their affinity for hCG. At 3 ng/ml FSH, concomitant treatment with ovine or bovine GH increased LH/hCG binding in a dose-dependent manner, with 300 ng/ml GH increasing the FSH action by about 3-fold. LH receptors in the GH-treated cells were functional, as indicated by the enhanced cAMP production of these cells in response to LH treatment. The cellular protein content in the FSH-treated cultures was slightly increased by GH (18%), but cell number and viability were unaffected. The change in cell protein content could not account for the increases in the amount of LH receptors. In addition to its effects on LH/hCG receptor content, GH also augmented FSH-stimulated progesterone and 20 alpha-hydroxy-4-pregnen-3-one production in a dose-dependent manner, with 100 ng/ml GH causing significant increases in FSH-induced progesterone production. In contrast, GH treatment did not significantly affect FSH-stimulated estrogen production. The augmentating effects of GH on LH receptor formation and progestin biosynthesis were associated with an enhancement of FSH-stimulated cAMP production. In addition, GH increased forskolin- and 8-bromo-cAMP-induced LH receptor formation and progestin production. Thus, GH-augmented LH receptor induction and progestin biosynthesis may be due to both increased cAMP production and enhanced action of cAMP. The present data have demonstrated that GH augments gonadotropin-stimulated differentiation of ovarian granulosa cells, suggesting an important regulatory role of GH in follicular growth and pubertal development.     

In vitro heteroregulation of LH receptors by prolactin and FSH in rat granulosa cells

The purpose of the present study was to further characterize the regulation of LH/hCG receptors by FSH in granulosa cells and test the hypothesis that the LH/hCG receptor levels are heteroregulated by PRL. Granulosa cells from immature hypophysectomized, DES-treated rats were cultured for 2-4 days in defined medium containing androstenedione (10(-7) M) and/or FSH and PRL, after which [125I]iodo-hCG binding to the granulosa cells was measured. When granulosa cells were cultured for 2 days (days 0-2) with increasing concentrations of FSH (0.1-100 ng/ml), there was a dose related increase in [125I]iode-hCG binding from a control value of 1.05 +/- 0.2 fmoles/10(6) cells to a maximum of 20 +/- 1.8 fmoles/10(6) cells. The miminum, half-maximum (ED50) and maximum doses of FSH were 0.3, 0.5 and 3 ng/ml, respectively. At concentrations of FSH greater than 3 ng/ml there was a progressive decrease in [125I]-iodo-hCG binding to a low value of 6.1 +/- 1 fmoles/10(6) cells at 100 ng/ml of FSH. No changes in [125I]iodo-hCG binding were observed in response to PRL (1 microgram/ml) during the day 0-2 incubation. When granulosa cells were stimulated for 2 days with 20 ng/ml of FSH, washed, and then recultured for another 2 days (days 2-4) with FSH, the LH/hCG receptor content remained high (F leads to F = 17.4 +/- 2.8 fmoles/10(6) cells). In contrast, when FSH-primed cells were recultured for 2 days without FSH, the [125I]iodo-hCG binding decreased sharply to near control levels (F leads to C = 2.5 +/- 0.2 fmoles/10(6) cells). This marked loss of LH/hCG receptors was largely prevented when FSH primed cells were recultured with PRL (F leads to P = 10.3 +/- 1.5 fmoles/10(6) cells). This stimulatory effect of PRL on [125I]iodo-hCG binding was dose-dependent: minimum, ED50, and maximum doses of PRL were 0.2, 0.5 and 1 microgram/ml, respectively. Scatchard-plot analysis revealed that although the dissociation constant (Kd) of the LH/hCG receptors stimulated by FSH and PRL were of similar high affinity (approximately 8 x 10(-11) M), the maximum binding (Bmax) values in the PRL-treated cells were less. Addition of 10(-7) estradiol together with the PRL did not cause a further increase in Bmax values above that observed with PRL alone.     

The effect of follicle-stimulating hormone-suppressing protein or follistatin on luteinizing bovine granulosa cells in vitro and its antagonistic effect on the action of activin

The time- and dose-dependent effects of bovine FSH-suppressing protein (FSP)/follistatin and human recombinant activin A (hr-Act) on oxytocin (OT) and progesterone (P) production, markers of luteinization, were studied in mature and immature bovine granulosa cells (GC), using three forms of FSP (31, 35, and 39 kDa) and a FSP pool consisting of 35, 39, and 45 kDa forms. FSP alone had no detectable effect on OT and P production when added to cultures of fully differentiated bovine GC. On the other hand, all FSP forms (10-100 ng/ml) enhanced and prolonged OT and P production of immature GC induced by bovine LH (10 ng/ml). Overall, 35 kDa FSP was more effective than the other forms tested. Hr-Act alone had a dose-dependent inhibitory effect on OT and P production on LH-stimulated immature GC. All four forms of FSP (30 or 100 ng/ml) added to cultures treated with hr-Act, reversed the inhibitory effect of hr-Act, with a significant increase (25%) above control levels using the 35 and 39 kDa FSP forms. In conclusion, FSP enhanced and prolonged the luteinization process, as indicated by OT and P production induced in immature GC by bovine LH, and was able to antagonize the inhibitory effect of hr-Act in this system. These studies suggest a physiological role for activin and FSP, as modulators of folliculogenesis and luteinization in the ovary. We propose that activin and FSP act in an autocrine fashion on GC in the ovarian follicle to regulate folliculogenesis and luteinization.     

Developmental changes in luteinizing hormone/human chorionic gonadotropin steroidogenic responsiveness in marmoset granulosa cells: effects of follicle-stimulating hormone and androgens

Factors regulating LH/hCG responsiveness in primate granulosa cells were examined in the marmoset monkey (Callithrix jacchus). Granulosa cells were isolated and pooled from small antral (0.5-1.0 mm) and large preovulatory (greater than or equal to 2 mm) follicles from mid- to late follicular phase ovaries of cyclic marmosets. The cells from small and large follicles were cultured in serum-free medium for 48 h in the absence or presence of increasing concentrations of hCG (0.1-100 ng/ml) with or without 0.1 microM androgen [testosterone or 5 alpha-dihydrotestosterone (DHT]). Granulosa cells from small follicles were also cultured in the absence or presence of a constant concentration of human FSH (30 ng/ml) with or without androgen for 48 h before exposure to hCG for an additional 48 h. Steroidogenic responsiveness was assessed by measuring progesterone accumulation in culture medium and aromatase activity in washed monolayers. Granulosa cells from large follicles showed dose-dependent increases in both progesterone accumulation and aromatase activity in response to treatment with hCG. In contrast, granulosa cells from small follicles were unresponsive to hCG. However, pretreatment of granulosa cells from small follicles for 48 h with FSH stimulated hCG responsiveness. The effects of both testosterone and DHT on hCG-stimulated aromatase activity and progesterone accumulation by granulosa cells from large preovulatory follicles were inhibitory. Testosterone and DHT also suppressed basal (no hCG) progesterone accumulation in these cells, but had no effect on basal aromatase activity. The effects of androgens on FSH-induced hCG responsiveness in immature granulosa cells were variable. The results show a development-related increase in marmoset granulosa cell responsiveness to LH/hCG and provide evidence that FSH and androgens interact to regulate the onset and expression of this critical event during preovulatory follicular development in the primate ovary.     

Effect of activin A and inhibin A on expression of the inhibin/activin beta-B-subunit and gonadotropin receptors in granulosa cells of the hen

Activin A has been shown to be abundant in the theca layer of the large pre-ovulatory follicles of the hen whereas inhibin A is produced in the granulosa layer. The purpose of this study was to investigate the effects of activin A and inhibin A on granulosa cell expression of inhibin beta-B-subunit, FSH receptor (FSHR), and LH receptor (LHR). Granulosa cells were isolated from the F1, F3+F4, and small yellow follicles (SYF; 6-12 mm diameter) of laying hens and pooled according to size. The cells were dispersed and plated in the presence of 0, 10, or 50 ng/ml recombinant human activin A (n=5 replicate cultures). RNA was subsequently extracted from the cells and Northern blots performed. Cell proliferation was determined for all treatments. An identical set of experiments was performed in which the granulosa cells were treated with recombinant human inhibin A (n=4 replicate cultures). Treatment with activin A at 50 ng/ml significantly (p<0.05) increased expression of beta-B-subunit for granulosa cells from all follicles. This dose also significantly increased expression of FSHR in granulosa cells from all follicles (p<0.05) and increased expression of LHR in cells from F1 and F3+F4 follicles (p<0.01) with no significant effect on cells from the SYF. Overall, activin A treatment significantly (p<0.05) decreased cell proliferation at the 50 ng/ml dose. Inhibin A had no significant effect on expression of beta-B-subunit, FSHR or LHR at any dose. There was a moderate stimulatory effect of inhibin A on granulosa cell proliferation. These results suggest that activin A may have an important role in regulating granulosa cell responsiveness to gonadotropins while also modulating follicle development by attenuating cell proliferation.     

Modulation of prolactin receptors in cultured rat granulosa cells by FSH,LH and GnRH

The hormonal modulation of prolactin (PRL)-binding capacity of rat granulosa cells was studied. Granulosa cells obtained from immature, hypophysectomized, estrogen-treated rats were cultured for 2 days in a serum-free medium in the presence of various hormones. FSH treatment in vitro stimulated granulosa cell PRL-binding capacity by ~ 4–6-fold in a dose-dependent manner. Concomitant treatment with 10^?8 M GnRH inhibited the FSH-induced increase in PRL-binding capacity by 64%. In contrast, the inhibitory effect of GnRH was blocked by concomitant treatment with 10^?6 M of a GnRH antagonist, [D-pGlu¹, D-Phe², D-Trp^3,6]GnRH. PRL-binding capacity was also increased (~2-fold) by in vitro treatment with cholera toxin (10 μg/ml). In granulosa cells pre-treated with FSH in vitro for 2 days, hCG treatment for 2 additional days stimulated PRL-binding capacity in a dose-dependent manner (~ 2-fold). Likewise, treatment with LH (100 ng/ml) also stimulated PRL-binding capacity by ~ 2-fold. These in vitro studies demonstrated that gonadotropins (FSH, LH and hCG) directly enhanced PRL binding by granulosa cells, whereas GnRH inhibited FSH action.     

Follicle-stimulating hormone increases c-fos mRNA levels in rat granulosa cells via a protein kinase C-dependent mechanism

Recent evidence has been presented that follicle-stimulating hormone (FSH) stimulates the induction of granulosa cell c-fos protooncogene mRNA in vivo (Pennybacker and Herman (1989) J. Cell Biol. 109, 151A; Delidow et al. (1990) Endocrinology 126, 2302–2306), yet the mechanisms by which FSH induces c-fos mRNA expression have not been delineated. To elucidate the mechanisms of FSH-dependent c-fos mRNA expression, we measured the time and dose dependence of c-fos mRNA levels using Northern blot analysis in intact ovaries and cultured granulosa cells in response to FSH. In intact ovaries, FSH-induced c-fos mRNA expression was time dependent with maximal expression at 90 min post FSH injection, while in cultures of granulosa cells obtained from estrogen-primed immature female rats, c-fos mRNA levels were highest after 30 min exposure to FSH and at a concentration of 100 ng/ml. Neither 8-bromo adenosine 3′,5′-cyclic monophosphate (8-br-cAMP), at doses ranging from 0.1 to 10 mM, nor 100 μM forskolin (in the presence or absence of 200 μM isobutyl-methylxanthine) or luteinizing hormone (LH, 100 ng/ml) were able to mimic FSH-induced c-fos mRNA expression in granulosa cell cultures. However, tetradecanoyl-13-phorbol acetate (TPA, 200 nM) was able to induce c-fos mRNA expression. The protein kinase C (PKC) inhibitors H-7 (0.3–30 μM) and staurosporine (0.75 μg/ml) blocked FSH-induced c-fos mRNA expression in cultured granulosa cells while HA 1004, an inhibitor of cGMP- and cAMP-dependent protein kinases at 30 μM had no effect on TPA-induced c-fos expression, and only minimally inhibited FSH-induced c-fos expression. Both FSH (100 ng/ml) and forskolin (3 μM) increased progesterone production in cultured granulosa cells. These data support the hypothesis that FSH specifically induces c-fos mRNA expression by a PKC-dependent mechanism and that the cAMP arm of the FSH response pathway is operant in these cells.     

Steroid and FSH action on LH receptors and LH-sensitive testicular responsiveness during sexual maturation of the rat.

This study examines the effect of FSH, testosterone and estradiol on testicular LH receptors and in vitro testicular responsiveness to LH in immature rats under various conditions. FSH treatment of 15-day-old immature rats significantly increased the number of LH receptors but did not alter testicular responsiveness. FSH treatment of hypophysectomized immature rats increased the number of LH receptors and markedly increased testicular responsiveness. Treatment of hypophysectomized rats with testosterone proprionate for 4 days, followed by a 5-day treatment with FSH, enhanced the effect of FSH on the number of LH receptors but did not increase the effect of FSH on testicular responsiveness. In contrast, treatment with estradiol for 4 days before FSH treatment had no effect on the FSH-induced increase in LH receptors but completely inhibited the FSH-induced increase in testicular responsiveness. These observations suggest that during male sexual maturation (1) regulation of LH receptors is distinct from regulation of testicular responsiveness to LH, (2) estradiol may be a factor in the regulation of testicular responsiveness to LH, and (3) testosterone may enhance the FSH-induced increase of LH receptors.     

CI628 inhibits follicle-stimulating hormone (FSH)-induced increases in FSH receptors of the rat ovary: requirement of estradiol for FSH action

Although estradiol (E2) alone does not increase receptors for FSH in granulosa cells, E2 priming before administration of FSH increases numbers of FSH receptors significantly compared with FSH alone. We hypothesized that if E2 is required for FSH to increase its own receptor, blocking estrogen action should prevent FSH-induced increases in FSH receptors. Five groups of hypophysectomized rats were injected sc with: saline at 0 h; the antiestrogen CI628 (1 mg) at -6 h; human FSH (hFSH, 2 micrograms) at 0 h; CI628 at -6 h, then hFSH at 0 h; and CI628 plus E2 (2 mg) at -6 h, then FSH at 0 h. Animals were decapitated at 0, 6, 12, or 24 h, and granulosa membrane receptors for FSH, LH, and nuclear receptors for E2 were measured. LH receptor levels increased only after administration of E2 before hFSH. Treatment with hFSH for 6 h increased numbers of FSH receptors 3-fold (P less than 0.01) without any increase in numbers of E2 receptors. At 12 and 24 h, hFSH increased numbers of FSH and E2 receptors 6- and 7-fold (P less than 0.01) over controls. CI628 prevented the hFSH-induced increases in FSH receptors at 6, 12, and 24 h. Administration of E2 concomitant with CI628 before hFSH significantly reversed the inhibitory effects of CI628 on hFSH-induced increases in FSH receptors. There were no changes in affinity of FSH or E2 receptors from 0 to 24 h. To determine whether E2 was acting on the adenylate cyclase system, the ability of hFSH to increase the content of cAMP in granulosa cells in each treatment group was determined. After an iv injection of hFSH, cAMP levels were similar in CI628- and saline-treated rats but had increased 6-fold (P less than 0.01) in hFSH or CI628 plus hFSH-treated animals. Thus, blocking hFSH-induced increases in FSH and E2 receptor appeared to have no effect on FSH stimulation of cAMP. In conclusion E2 appears to be required for FSH action, perhaps by acting within granulosa cells distal to the cAMP-adenylate cyclase system.     

Bifunctional role of transforming growth factor-beta during granulosa cell development

Regulatory actions of transforming growth factor-beta (TGF beta) on granulosa cell function were analyzed in cells cultured from the ovaries of diethylstilbestrol-implanted rats. In the presence of a suboptimal concentration of FSH (5 ng/ml) that increased LH receptors by 100-fold during a 72-h culture, TGF beta augmented this response in a dose-dependent manner with a maximal effect at 16 pM. In contrast, the growth factor inhibited the LH receptor response to an optimal dose of FSH (50 ng) by up to 50% and was inactive in the absence of gonadotropin. TGF beta also enhanced the formation of cAMP by 5 ng FSH and partially inhibited the effects of higher FSH concentrations. However, the actions of TGF beta were more prominent on LH receptor induction than on cAMP production with either low or high amounts of FSH. In addition, TGF beta had little effect on cAMP production stimulated by cholera toxin or forskolin, but amplified the actions of these ligands as well as that of 8-bromo-cAMP on LH receptor expression. TGF beta also modulated the steroidogenic activity of the granulosa cells, with increased production of progesterone in response to 5-100 ng FSH. The bifunctional actions of TGF beta on FSH-induced LH receptor formation were observed throughout a 96-h culture period. However, the presence of the growth factor was not required for the first 24 h of culture, indicating that TGF beta alters the later events involved in LH receptor formation. TGF beta augmented the stimulatory actions of 5 ng FSH on LH receptors in the absence or presence of insulin, but its inhibitory effect on these receptors was only observed in cells treated with insulin. These results indicate that TGF beta modifies FSH action during granulosa cell development in a biphasic manner. TGF beta can exert stimulatory or inhibitory effects depending upon the concentration of FSH and the presence of insulin, and these are due to alterations in cAMP action as well as cAMP production. Autocrine and/or endocrine actions of TGF beta during granulosa cell differentiation may be involved in the processes of follicle selection and development.     

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.     

Synergism between FSH and activin in the regulation of proliferating cell nuclear antigen (PCNA) and cyclin D2 expression in rat granulosa cells

Follicular development is associated with both proliferation and differentiation of granulosa cells under the control of FSH. We show that regulation of genes involved in cellular proliferation by FSH can be functionally separated from the regulation of genes involved in granulosa cell differentiation by synergistic actions of activin and T. Incubation of undifferentiated rat granulosa cells with FSH, forskolin, activin-A, or T alone did not influence either the expression of the proliferation-associated genes cyclin D2 and proliferating cell nuclear antigen or the differentiation-associated genes P450 aromatase, LH receptor, P450 cholesterol side-chain cleavage enzyme, and 3 beta-hydroxysteroid dehydrogenase. However, when granulosa cells were stimulated with either FSH or forskolin in the presence of activin-A, significant increases (P < 0.05) were observed for cyclin D2 and proliferating cell nuclear antigen at both the mRNA and protein levels as well as mRNAs for P450 aromatase, LH receptor, P450 cholesterol side-chain cleavage enzyme and 3 beta-hydroxysteroid dehydrogenase. Although T synergized with FSH to increase the expression of mRNAs for P450 aromatase, LH receptor, P450 cholesterol side-chain cleavage enzyme, and 3 beta-hydroxysteroid dehydrogenase, it did not interact with FSH to increase the expression of mRNAs for cyclin D2 and proliferating cell nuclear antigen. The differences in the actions of activin and T could provide a cellular mechanism by which FSH-regulated granulosa cell proliferation could be functionally separated from FSH-regulated granulosa cell differentiation.     

Relative effects of activin and inhibin on steroid hormone synthesis in primate granulosa cells.

Ovarian granulosa cells produce inhibin and activin, structurally related proteins with potentials to directly modulate follicular steroidogenesis. The aim of the present study was to compare development-related effects of inhibin-A and activin-A on steroidogenesis in marmoset monkey (Callithrix jacchus) granulosa cells. Granulosa cells from "immature" (< 1.0 mm diameter) and "mature" (> 2 mm diameter) follicles were incubated in serum-free culture medium for 96 h with and without peptide (1-100 ng/mL), in the presence and absence of gonadotropins [human (h) FSH or hLH] (10 ng/mL). Spent medium was collected and stored frozen for progesterone assay. Aromatase activity was determined by incubating cells for a further 6 h in the presence of 1 mumol testosterone and assaying accumulation of oestradiol. Granulosa cells from immature follicles showed characteristically low basal rates of steroid synthesis that were unaffected by treatment alone with either inhibin or activin. Treatment with hFSH stimulated both progesterone production and aromatase activity. Cotreatment with activin and hFSH further enhanced aromatase activity by up to 4-fold. The progesterone response to activin plus hFSH was related to the effect of hFSH in the absence of activin: high-level responsiveness to hFSH was suppressed by activin while low-level responsiveness was enhanced. Inhibin had no significant effect on FSH-responsive progesterone production, but at high concentrations (> 10 ng/mL) it caused slight (up to 30%) reduction in FSH-induced aromatase activity. Granulosa cells from mature follicles showed relatively high basal rates of steroidogenesis, and treatment with inhibin did not influence either basal or gonadotropin responsive steroidogenesis. Treatment with activin had divergent effects on aromatase activity and progesterone synthesis in that it increased both basal and hLH-responsive aromatase activity (up to 11-fold), had no effect on basal progesterone production, and markedly suppressed (by more than 50%) the progesterone response to hLH. These data reveal development-dependent effects of inhibin and activin on granulosa cell steroidogenesis that are likely to have physiological relevance to ovarian function in vivo.