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.     

Effects of activin and follicle-stimulating hormone (FSH)-suppressing protein/follistatin on FSH receptors and differentiation of cultured rat granulosa cells.

The aim of this study was to investigate the actions of both activin and FSH-suppressing protein (FSP)/follistatin either alone or in combination on FSH receptor number and on the responsiveness of granulosa cells to FSH and LH. Granulosa cells were harvested from diethylstilbestrol-treated immature Sprague-Dawley rats and cultured 48 h in serum-free medium with or without treatment. Activin treatment alone (3-100 ng/ml) resulted in a 4-fold increase in FSH receptor number with no change in binding affinity. This effect of activin was inhibited 31% by FSP (100 ng/ml) treatment which alone had no effect on FSH receptor number. Treatment with activin (100 ng/ml) prevented FSH-induced down-regulation of FSH receptor number, whereas at lower concentrations (3-30 ng/ml) activin enhanced down-regulation of FSH receptor number by 20% (P less than 0.05). In contrast, FSP alone prevented FSH-induced down-regulation by increasing FSH receptor number up to 40-50%. Pretreatment of granulosa cells with activin, but not FSP, for 24 h increased the responsiveness of cells to FSH (20 ng/ml) and LH (40 ng/ml) shown by increases in aromatase activity, progesterone, and immunoreactive inhibin production over and above control in a manner which depended upon activin doses. We conclude that 1) activin enhancement of FSH action on rat granulosa cells may be mediated in part via regulation of FSH receptor number, and 2) the effects of FSP on granulosa cells are likely to be due to its activin binding properties.     

Modulation of differentiation of rat granulosa cells in vitro by interferon-gamma.

The effects of recombinant rat interferon-gamma (rRaIFN-gamma) and rat IFN (RaIFN, a mixture of IFN-gamma and -alpha) on basal and FSH-induced ovarian granulosa cell function were studied. Granulosa cells were harvested from diethylstilboestrol-treated immature rats and cultured (2 x 10(5) viable cells/well per 0.5 ml) in serum-free medium with or without treatment for 48 h. In the presence of FSH (20 ng/ml), rRaIFN-gamma (10-1000 U/ml) significantly inhibited FSH-stimulated aromatase activity (76.4 +/- 2.3% maximum inhibition compared with FSH treatment alone), inhibin (40.4 +/- 3.7%), progesterone (47.7 +/- 8.6%) and 20 alpha-hydroxypregn-4-en-3-one (20 alpha-OHP) (51.8 +/- 1.7%) production in a dose-dependent manner. Furthermore, rRaIFN-gamma inhibited FSH- and forskolin (FSK; 30 mumol/l)-induced extracellular cAMP accumulation (46.0 +/- 6.6% and 29.1 +/- 7.3% respectively). The inhibitory effect of rRaIFN-gamma on FSK-induced cAMP was accompanied by decreased FSK-induced aromatase activity, inhibin, progesterone and 20 alpha-OHP production. rRaIFN-gamma had no detectable effect on aromatase activity, progesterone production and 20 alpha-OHP production in the absence of FSH, but significantly stimulated basal inhibin production by 1.5-fold. rRaIFN-gamma alone also caused a small but significant increase in basal levels of cAMP. The time-course studies showed that FSH-induced aromatase activity and inhibin production were consistently suppressed by rRaIFN-gamma, FSH-induced progesterone and 20 alpha-OHP were inhibited at 1 and 2 days and then stimulated on days 3, 4 and 5 relative to FSH alone.(ABSTRACT TRUNCATED AT 250 WORDS)     

Follicle-stimulating hormone and somatomedin-C stimulate inhibin production by rat granulosa cells in vitro

The direct effect of somatomedin-C (Sm-C) and FSH on inhibin production by rat granulosa cells in vitro has been examined. FSH stimulated accumulation of inhibin in culture media in a dose-dependent manner with maximal stimulation (6-fold) being observed at a dose of 300 ng FSH/ml. Addition of Sm-C (30 ng/ml) either alone or in the presence of FSH (3-300 ng/ml) increased inhibin production (up to 5-fold). Sm-C alone was effective over the physiological dose range of 3-100 ng/ml. Concomitant addition of FSH (100 ng/ml) and Sm-C (3-100 ng/ml) resulted in a significant increase in inhibin production at all doses of Sm-C. The dose-dependent effects of FSH and Sm-C were also time dependent with a synergistic effect apparent after 48 h of culture. The Sm-C induced FSH inhibitory activity of granulosa cell culture media was confirmed as authentic inhibin by the demonstration of a dose-dependent neutralization of this activity by a monoclonal antibody raised against purified bovine inhibin. The data indicate a direct role for both FSH and Sm-C in ovarian inhibin production and provide additional evidence for an autocrine-paracrine role for Sm-C in granulosa cell differentiation.     

Dimeric inhibin A and B production are differentially regulated by hormones and local factors in rat granulosa cells.

In the present study, we have examined the role of hormones and growth factors in regulating dimeric inhibin production in immature rat granulosa cells. Purified granulosa cells from estrogen-primed immature rats were cultured under defined conditions. Inhibins A and B in the culture media were measured using a two-site enzyme-linked immunosorbent assay specific for each dimer. Under basal conditions, granulosa cells produced 14-fold more inhibin A than inhibin B (inhibin A, 2.0; inhibin B, 0.14 ng/ml, measured against human standards; average A/B apparent ratio, 14). Addition of increasing doses of FSH elicited dose-dependent increases in both inhibins, the effects being more pronounced on inhibin A than on inhibin B (9.4- and 4.1-fold increases, respectively; average A/B ratio, 34). Estradiol, when added alone, stimulated inhibin A production 3- to 6-fold, whereas minor changes were observed in inhibin B production. Insulin-like growth factor-I produced a similar stimulation of both inhibins (3-fold stimulation over control). This growth factor, however, induced a marked dissociation in the sensitivity of inhibins A and B to FSH stimulation, with maximal stimulation of inhibin B observed at comparatively lower concentrations of the gonadotropin. Transforming growth factor-beta (TGF-beta, 5 ng/ml) had a more marked stimulatory effect on inhibin B than on inhibin A production (7- to 14-fold vs. 2- to 5-fold for inhibin B and A, respectively). A more pronounced differential stimulation of inhibin B was also exerted by another member of the TGF-beta superfamily, activin A (A/B ratio, 0.66). This preferential stimulation of inhibin B by TGF-beta and activin A was amplified in the presence of FSH. Coculture of rat granulosa cells with freshly isolated bovine oocytes was also associated with a marked stimulation of inhibin B production (100-fold increase) and a comparatively lower stimulation of inhibin A (10-fold increase; A/B ratio, 1). The discrepancy between the proportion of inhibin dimers in serum (A/B ratio, 0.13) and those produced by untreated granulosa cells may suggest that intraovarian factors, such as TGF-beta, activin A, or oocyte-derived factor(s), are responsible for the shift of the ratio toward the predominance of inhibin B.     

Transforming growth factor beta enhances basal and FSH-stimulated inhibin production by rat granulosa cells in vitro

Transforming growth factor beta (TGF beta) caused a dose-dependent increase in both basal and follicle-stimulating hormone (FSH)-stimulated inhibin production by rat granulosa cells in culture. The TGF beta dose-response curve in the absence of FSH was approximately parallel to that in the presence of either a minimally effective dose (1 ng/ml) or a maximally effective dose (30 ng/ml) of FSH, suggesting an additive effect of these two agents on inhibin production. There was also a suggestion of an increased sensitivity of granulosa cell inhibin production to FSH when the cells were coincubated with TGF beta. The time course study showed that similar to FSH, the stimulatory effect of TGF beta on basal and FSH-stimulated inhibin production was evident on day 1 and was maximal by day 4. In addition, epidermal growth factor (EGF) reduced FSH-stimulated inhibin production with an ID50 value of 1.3 ng/ml. Coincubation of cells with EGF and 1 ng TGF beta/ml enhanced greatly the inhibitory action of EGF on FSH-induced inhibin production (ID50 less than 0.1 ng/ml). It is concluded that: (1) TGF beta directly stimulates inhibin production by rat granulosa cells and the combined effect with FSH was largely additive, (2) the inhibitory effect of EGF on FSH-induced inhibin production was enhanced by TGF beta, (3) individual members of the TGF beta/inhibin gene family regulate ovarian function, not only by direct action on follicle cells but also indirectly by influencing the production rate of other members of that family.     

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.     

Direct inhibition of rat granulosa cell inhibin production by epidermal growth factor in vitro

The effect of epidermal growth factor (EGF) on inhibin production by rat granulosa cells has been investigated using a recently developed inhibin radioimmunoassay (RIA). Granulosa cells from intact immature diethylstilbestrol (DES)-treated rats were exposed to EGF (1-100 ng/ml) in the presence or absence of FSH for varying periods in vitro. An inhibitory effect of EGF on basal inhibin secretion was evident at day 2 of culture and was sustained over the subsequent 2 days. This action on basal inhibin secretion was dose-dependent, and maximal inhibition to 50% of control was observed at a dose of 100 ng EGF/ml at day 4. EGF also inhibited basal progesterone secretion in a similar manner. EGF caused a dose-dependent inhibition of FSH-stimulated inhibin secretion, with an ID50 (0.5 ng/ml, 0.08 nM) about one-eighth that in the absence of FSH. In addition, EGF also inhibited the stimulation of inhibin production by 8-Br-cAMP and prostaglandin E2. To exclude the possibility that EGF was toxic to the granulosa cells, several biochemical parameters related to cell growth were measured. EGF treatment did not alter cell number but slightly increased [3H]thymidine incorporation into cellular DNA. The effect of EGF on [35S]methionine incorporation into cellular protein was biphasic, being stimulatory at doses less than 10 ng/ml but inhibitory at 100 ng/ml. The present data have demonstrated a direct inhibitory effect of EGF on basal and FSH-stimulated inhibin production by granulosa cells suggesting an important regulatory role of this growth factor in the differentiation of ovarian function.     

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.     

An inhibitory effect of transferrin on differentiation of rat granulosa cells in vitro

The effects of human transferrin (TRF) on granulosa cell function were examined using serum-free cultures of rat granulosa cells obtained from immature, diethylstilbestrol-treated rats. The results show that TRF had dose- and time-dependent inhibitory effects on FSH-induced inhibin and progesterone production with the half-maximal inhibitory dose of 6.1-6.3 micrograms/ml. The inhibitory effect of TRF on FSH-induced inhibin and progesterone production was not reversed by removing TRF and changing medium after 48 h of treatment. TRF also inhibited insulin- and insulin-like growth factor-I (IGF-I)-induced inhibin production in a dose-dependent manner. TRF did not inhibit forskolin- and 8-bromo-cAMP-induced progesterone production but did inhibit inhibin production induced by these agents. TRF had no effect on basal production of inhibin and progesterone. On the other hand, high concentrations of insulin and cortisol completely counteracted the inhibitory effect of TRF on FSH-induced progesterone production but only partially counteracted the inhibitory effect of TRF on FSH-induced inhibin production. Our data suggest that: 1) TRF may be an important negative modulator of the stimulatory actions of FSH or IGF-I and other factors acting on granulosa cells; 2) the inhibitory effects of TRF require the presence of FSH or other factors such as IGF-I or insulin, which facilitate granulosa cell differentiation; and 3) different mechanisms are involved in the modulating effects of TRF on inhibin and progesterone production.     

The effect of insulin on inhibin production in isolated seminiferous tubule segments from adult rats cultured in vitro

The effect of insulin and its interaction with intracellular messenger systems on in vitro inhibin production by adult rat isolated seminiferous tubules has been investigated using a recently developed inhibin radioimmunoassay (RIA). Seminiferous tubule segments (5 cm) from intact adult rats were exposed to insulin (0.05-5000 ng/ml) for 2 days of culture. Insulin caused a dose-dependent inhibition of basal inhibin secretion with reversal of this inhibition at very high doses (5000 ng/ml). The ability of follicle-stimulating hormone (FSH) to induce inhibin secretion was also inhibited by insulin (50 ng/ml). Insulin reduced the stimulation of inhibin production by dibutyryl cyclic AMP (dbcAMP) and this effect was prevented by the addition of theophylline (0.4 mM), while theophylline alone was unable to prevent the effect of insulin on basal inhibin secretion. Phorbol 12-myristate 13-acetate (PMA) mimicked the effect of insulin reducing basal and FSH-induced secretion of inhibin. No additive effects on basal inhibin secretion were observed with a combination of PMA and insulin. Ethylenediaminetetraacetic acid (EDTA, 2 mM) significantly reduced basal and FSH-induced inhibin production, while the combined effects of EDTA and insulin on basal and FSH-induced inhibin production were additive. These data demonstrate an inhibitory effect of insulin on inhibin production by isolated seminiferous tubules mediated via at least two mechanisms namely the inhibition of the cAMP-protein kinase A system and stimulation of protein kinase C activity.     

Interaction between activin and follicle-stimulating hormone-suppressing protein/follistatin in the regulation of basal inhibin production by cultured rat granulosa cells.

There is evidence that FSH-suppressing protein (FSP) antagonizes the action of activin on the differentiation of rat granulosa cells by binding activin in vitro. We tested the interaction of activin and FSP in this in vitro system by examining the effects of FSP on activin dose-related stimulation of immunoreactive inhibin release by rat granulosa cells. Granulosa cells (2 x 10(5) viable cells/well) from diethylstilbestrol-treated immature rats were cultured for 48 h in McCoy's 5a serum-free medium with additives and increasing doses of bovine FSP (0-30 nM) and human recombinant activin (0-20 nM). Inhibin was measured in the medium by RIA. Activin caused a dose-related increase in basal inhibin production, which was maximal between 4-10 nM activin (ED50, 0.6 nM). With the addition of FSP, an apparent increase in the ED50 of the activin dose-response curves was observed, but there were no changes in the maximum response. This pattern closely resembled that of chemical antagonism of an agonist by an agent that binds with relatively high affinity to form a biologically inactive complex. Based on this premise, apparent high affinity activin binding to FSP was determined by Scatchard analysis to have a Kd of 0.13 +/- 0.07 nM (mean +/- SD) and to occur in a 2:1 or greater FSP/activin molar ratio. These data support the proposition that the antagonistic effect of FSP on activin is due to the formation of an inactive complex.     

In vitro synthesis and release of inhibin in response to FSH stimulation by isolated segments of seminiferous tubules from normal adult male rats

The production of inhibin by isolated segments of seminiferous tubules from adult male rats cultured in vitro was investigated using a heterologous specific radioimmunoassay. Increasing lengths of tubules (5, 10, 20 and 40 cm) maintained in culture for 4 or 5 days produced increasing amounts of inhibin in vitro. A dose-dependent increase in inhibin production was observed after stimulation with ovine follicle-stimulating hormone (FSH)-s17 (0.1-1000 ng/ml). The tubule segments remain sensitive to FSH stimulation for up to 20 days of culture despite a progressive decline in basal inhibin production, resulting in an increase in the magnitude of the response to FSH stimulation between 0-5, 5-10 and 10-20 days of culture. In the presence of the protein synthesis inhibitor, cycloheximide (50 micrograms/ml), both basal and FSH-stimulated inhibin secretion are inhibited. Testosterone (10(-8)-10(-5) M) does not affect basal inhibin production, although inhibition of the FSH-induced production of inhibin occurred at only the highest dose of testosterone used (10(-5) M). These data demonstrate that the production of inhibin by segments of seminiferous tubules from adult male rats can be used to study the control of inhibin secretion.     

Regulation of inhibin production by rat granulosa cells

Inhibin production by cultured granulosa cells from immature diethylstilbestrol (DES)-primed rats was studied in relation to estradiol and progesterone production. The inhibin content in culture media was assayed with a specific radioimmunoassay (RIA) using an antibody to porcine 32 kDa inhibin that recognizes rat inhibin as well. Inhibin production was about 10 ng/ml/2 X 10(4) cells/72 h at the basal levels and was maximally stimulated with 25 ng/ml of follicle stimulating hormone (FSH) to 45 ng/ml which was 4.5 times the basal levels, with an ED50 value of 2.0 ng/ml. A cyclic AMP analog (dibutyryl cyclic AMP) or reagents that promote cAMP production were also effective in inhibin production, indicating that FSH stimulates inhibin production through a cAMP-dependent pathway. Luteinizing hormone (LH) was not effective in producing inhibin from freshly prepared granulosa cells, whereas granulosa cells pre-incubated with FSH for 48 h because responsive to LH regarding inhibin production. Testosterone sensitized the granulosa cells to the FSH stimulation, whereas hydrocortisone (4 ng/ml) decreased the sensitivity of granulosa cells by increasing the ED50 value for inhibin production by FSH about 10 times. A similar effect was observed regarding estradiol production, while progesterone production due to stimulation by FSH was enhanced by the hydrocortisone treatment. Insulin and platelet extract both stimulated inhibin production and enhanced the maximal response of inhibin production due to stimulation by FSH without altering, or even increasing the ED50 values. Epidermal growth factor (EGF), (D-Leu6)Des-Gly10-LHRH N-ethylamide (GnRH agonist) and 12-O-tetradecanoylphorbol-13-acetate (TPA), a potent protein kinase C activator, inhibited both inhibin production and estradiol or progesterone production. Consequently, the regulation of inhibin production was similar to that of estradiol production, but markedly different from that of progesterone. However, inhibin and estradiol production were modulated differently by various growth factors and hormones. These phenomena might account for possible discrete changes in the plasma levels of inhibin and estradiol in vivo.     

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.     

Inhibin and activin regulate [3H]thymidine uptake by rat thymocytes and 3T3 cells in vitro

[3H]Thymidine incorporation by adult rat thymocytes, in the presence of phytohaemagglutinin (PHA), was stimulated by bovine inhibin (ED50 0.7 nM), and inhibited by bovine activin (ID50 0.4 nM) and porcine transforming growth factor-beta (TGF-beta) (ID50 4 pM); inhibin opposed the actions of activin and TGF-beta. Bovine 35 kDa follicle stimulating hormone (FSH) suppressing protein (FSP) had no effect on either unstimulated or PHA-stimulated thymocytes. Inhibin also stimulated thymocytes in the presence of a submaximal dose of concanavalin A (ConA), and in the absence of either lectin. Thymocytes which had been maximally stimulated by ConA were inhibited by TGF-beta (ID50 0.02 nM), but not affected by inhibin and activin. Both activin and TGF-beta stimulated [3H]thymidine uptake by 3T3 fibroblasts, but inhibin and FSP had no effect, alone or on activin-stimulated 3T3 fibroblasts. The results indicate that inhibin and activin have opposing, cell type-specific effects on the proliferation of T-lymphocytes, while activin also stimulates fibroblast proliferation in vitro.     

Pachytene spermatocytes in co-culture inhibit rat Sertoli cell synthesis of inhibin beta B-subunit and inhibin B but not the inhibin alpha-subunit

This study investigates the effects of spermatogenic germ cells on inhibin alpha-subunit and beta B-subunit expression, and inhibin alpha-subunit and inhibin B production by rat Sertoli cells in vitro. Sertoli cells isolated from 19-day-old rats were cultured for 48 h at 32 degrees C, in the presence or absence of FSH (2.3-2350 mIU/ml), and in the presence of pachytene spermatocytes, round spermatids or cytoplasts of elongated spermatids purified from adult rat testis by elutriation and density gradient separation. Sertoli cell secretion of inhibin alpha-subunit and inhibin B, as measured by immunoassay, was dose-dependently stimulated by FSH (maximal stimulation 13- and 2-fold, respectively). Round spermatids or cytoplasts co-cultured with Sertoli cells had no effect on basal or FSH-induced secretion of inhibin alpha-subunit or inhibin B. When Sertoli cells were co-cultured with pachytene spermatocytes, inhibin alpha-subunit secretion was unaltered, while inhibin B secretion was suppressed in a cell concentration-dependent manner to reach a maximal suppression of 45% compared with Sertoli cells alone (P<0.01). A similar suppression in inhibin B was still observed (64% of Sertoli cells alone) when the pachytene spermatocytes were separated from Sertoli cells by a 0.45 microm pore membrane barrier in bicameral chambers. Pachytene spermatocytes also suppressed FSH-induced inhibin B levels in Sertoli cell co-cultures and this suppression was attributed to a decrease in basal inhibin B production rather than a change in FSH responsiveness. Quantitation of Sertoli cell inhibin alpha- and beta B-subunit mRNA by quantitative (real-time) PCR demonstrated that pachytene spermatocytes did not alter Sertoli cell alpha-subunit mRNA expression, but significantly (P<0.01) suppressed basal and FSH-induced beta B-subunit mRNA expression to a similar degree to that seen with inhibin B protein levels. It is concluded that pachytene spermatocytes in vitro suppress Sertoli cell inhibin B secretion via factor-mediated suppression of inhibin beta B-subunit expression. These findings support the hypothesis that specific germ cell types can influence inhibin B secretion by the testis independent of FSH regulation.     

Hormonal regulation of granulosa cell inhibin biosynthesis

The hormonal regulation of inhibin production by cultured granulosa cells from immature hypophysectomized, estrogen-treated rats was examined using a specific RIA which detects the N-terminal portion of the inhibin alpha-chain. The RIA measured bioactive inhibin of Mr about 32,000 in granulosa cell conditioned media fractionated by fast protein liquid chromatography. In the presence of 10(-7) M androstenedione, FSH stimulated inhibin production in a dose-dependent manner during a 2-day culture. Inclusion of a phosphodiesterase inhibitor decreased the EC50 for FSH from 2.6 to 0.8 ng/ml (n = 3). The stimulatory effect of FSH could be mimicked with forskolin (an adenyl cyclase activator) and with a cAMP analog, (Bu)2cAMP, consistent with FSH action mediated through a cAMP dependent pathway. Intracellular levels of inhibin were unmeasureable, suggesting that inhibin is not stored to any great extent by the granulosa cells. This finding was consistent with in vivo studies which showed that whereas FSH treatment for 2 days doubled serum inhibin levels when compared with basal levels, there was no increase in the concentration of extractable inhibin in ovarian tissue. Granulosa cells which had been exposed to 20 ng/ml FSH for 2 days to induce LH receptors produced inhibin in response to both LH and human CG during the subsequent 2-day culture, with the levels of inhibin equalling the amount inducible by FSH. In contrast, neither PRL nor terbutaline, a beta 2-adrenergic agonist, had any effect on inhibin production even though receptors for these hormones are also induced by FSH. GnRH was found to inhibit the FSH-stimulated production of inhibin (IC50, 10(-7) M), consistent with previous observations that GnRH can act at the ovarian level to inhibit granulosa cell differentiation. This inhibition by GnRH could be reversed by inclusion of a specific GnRH antagonist. On the other hand, another regulatory peptide, vasoactive intestinal peptide, slightly stimulated inhibin production. The effect of several growth factors was also tested. Insulin-like growth factor I raised not only FSH-stimulated inhibin levels, but basal levels as well. Insulin was also effective, but only at 100-fold higher concentration. Epidermal growth factor inhibited FSH-stimulated inhibin production (IC50 = 0.1 ng/ml), whereas fibroblast growth factor had no effect. Thus, granulosa cell inhibin secretion is regulated by FSH and LH but not by PRL, presumably via a cAMP-mediated pathway.(ABSTRACT TRUNCATED AT 400 WORDS)     

Effects of oxytocin on steroidogenesis by bovine theca and granulosa cells

Oxytocin (OT) is secreted during the final stages of bovine follicular development. To test OT's potential role as a regulator of follicular steroidogenesis, theca and granulosa cells were isolated from bovine preovulatory follicles 48 h after initiation of luteolysis with prostaglandin F2 alpha, and cultured with graded doses of OT (0, 0.5, 5, 50, and 500 mIU/ml). Granulosa cells were cultured with testosterone (0.5 microM) in either defined medium or medium containing 10% fetal bovine serum in the presence or absence of FSH (300 ng/ml); medium was collected and replaced daily for 5 days. In defined medium, oxytocin alone significantly increased progesterone production by granulosa cells (P less than 0.001) in a dose-dependent manner; over 5 days, doses of 0.5, 5, 50, and 500 mIU/ml OT caused 1.7-, 2.0-, 2.2-, and 2.6-fold increases. FSH enhanced progesterone 5-fold, but no dose of OT increased progesterone in the presence of FSH. OT also elevated progesterone in serum-containing medium (P less than 0.005), but the magnitude of its effects was lower (1.07-, 1.1-, 1.2-, and 1.4-fold increases with 0.5, 5, 50, and 500 mIU/ml OT). OT had little effect on estradiol secretion by granulosa cells cultured with or without FSH. To test the specificity of OT's effects on progesterone production by granulosa cells, granulosa cells were treated with graded doses of an OT antagonist (0, 1, 10, 100, and 1000 ng/ml) in the presence or absence of OT (5 and 50 mIU/ml). Progesterone production by granulosa cells in the presence of the antagonist alone was similar to production in control cultures. The stimulatory effects of 5 and 50 mIU OT were completely abolished in the presence of 100 or 1000 ng antagonist, respectively (P less than 0.01). Preparations of theca interna were cultured in defined medium with graded doses of OT (0, 0.5, 5, 50, and 500 mIU/ml) in the presence or absence of LH (300 ng/ml), with collection and replacement of medium at 3, 6, 12, 24, 48, and 72 h. LH alone increased both progesterone (12-fold) and androstenedione (4-fold) production over controls. However, no dose of OT significantly affected either progesterone or androstenedione production. These results show that OT stimulates progesterone production by granulosa cells, and thus, suggest that OT regulates steroidogenesis in bovine granulosa cells in vivo.