The effect of follicle-stimulating hormone (FSH) on the expression of FSH receptor in cultured rat granulosa cells

The acquisition of FSH receptors during folliculogenesis is believed to be a key event in the subsequent development of the follicle. The regulation by FSH of FSH receptor expression and function were further studied using cultured granulosa cells of diethylstilbestrol (DES)-primed immature rats. Incubation of rat granulosa cells with FSH led to a reduction in FSH receptor levels for a short time (6 h), followed by an increase in FSH receptor levels that reached maximum of around 150% of the initial level within 3 days after the addition of FSH. FSH stimulation caused a reduced cAMP response to subsequent FSH treatment and a time course experiment demonstrated that this response was detectable within 30 min of exposure to FSH and reached a plateau after 4 h to 24 h. The recovery of FSH responsiveness in cAMP production of granulosa cells was seen after 48 h of FSH-free interval. Treatment with forskolin (FSK) enhanced the effect of subsequent FSH on the production of intracellular cAMP. Treatment with PMA did not affect the response to subsequent FSH treatment. These data showed that the FSH is essential for the suppression of the FSH receptor function in the adenylyl cyclase pathway. Desensitization of cellular response to continuous agonist stimulation may occur because of changes in the numbers of FSH receptor, as well as changes in the functional properties of the effector system.     

Activin A and gonadotropin regulation of follicle-stimulating hormone and luteinizing hormone receptor messenger RNA in avian granulosa cells.

Activin A regulation of the expression of mRNA for the LH receptor, FSH receptor, and the inhibin alpha subunit as well as the effect of activin A on the secretion of progesterone were investigated in chicken granulosa cell cultures. Granulosa layers were isolated from the F(1) and F(3) + F(4) follicles from five hens, pooled according to size, dispersed, and cultured for 48 h. In experiment 1 (n = 3 replications), granulosa cells were cultured with or without highly purified ovine (o) FSH at 50 ng/ml and in the presence of 0, 10, or 50 ng/ml of recombinant chicken activin A. Experiment 2 (n = 4 replications) followed the same protocol as experiment 1, except that oFSH was replaced with oLH. Results from these experiments showed that addition of activin A to the granulosa cell cultures had no effect on the expression of mRNA for the inhibin alpha subunit or the FSH receptor, but it did affect the expression of mRNA for the LH receptor. Treatment of F(3) + F(4) granulosa cells with LH stimulated the expression of mRNA for the LH receptor; however, when LH was combined with either dose of activin A, this induction was prevented. The highest dose of activin A with or without LH resulted in decreased expression of the LH receptor compared to the untreated controls in the F(3) + F(4) cell cultures. Progesterone secretion by the granulosa cells from both follicle sizes was not altered by activin A. In experiment 3 (n = 3 replications), the effect of activin A on the growth of granulosa cells was examined with the following treatments: 0, 10, or 50 ng/ml of activin A; 50 ng/ml of either oLH or oFSH; and oLH or oFSH combined with 10 ng/ml of activin A. The highest dose of activin reduced the rate of granulosa cell proliferation in both follicle types. Growth of F(1) and F(3) + F(4) granulosa cells was stimulated by the addition of either gonadotropin, and the presence of 10 ng/ml of activin A with either gonadotropin did not alter this proliferation, except for the LH-treated F(3) + F(4) granulosa cells, in which the increase in proliferation was prevented. The results suggest that activin A could act as a local factor that regulates follicular maturation by preventing excessive or untimely LH receptor expression.     

Hormonal regulation of tissue-type plasminogen activator messenger ribonucleic acid levels in rat granulosa cells: mechanisms of induction by follicle-stimulating hormone and gonadotropin releasing hormone

FSH and GnRH both stimulate rat granulosa cells to produce tissue-type plasminogen activator (tPA). We have studied the molecular mechanisms involved in the action of these hormones by measuring tPA mRNA levels in primary cultures of rat granulosa cells. When granulosa cells were cultured in the presence of FSH or GnRH the level of tPA mRNA was increased 20- and 12-fold, respectively. The induction of tPA mRNA by FSH and GnRH was additive and the kinetics of induction differed. The effect of FSH could be mimicked by bromo-cAMP or forskolin, and was drastically enhanced by cotreatment with the phosphodiesterase inhibitor 1-methyl-3-isobutylxanthine. These findings are consistent with the notion that FSH mediates its effect through the protein kinase A pathway. GnRH is believed to augment phospholipid turnover in granulosa cells, leading to the activation of the protein kinase C pathway. Like GnRH, the protein kinase C activator phorbol myristate acetate also induced tPA mRNA in granulosa cells. In the presence of the protein synthesis inhibitor, cycloheximide, FSH-stimulated tPA message levels were enhanced by 30-fold, revealing superinduction of tPA mRNA levels by this pathway. In contrast the induction of tPA mRNA by GnRH was inhibited by cycloheximide indicating that the synthesis of an intermediate protein is required for the GnRH effect. Our data suggest that FSH and GnRH increase the tPA mRNA levels by two distinct pathways in cultured granulosa cells, providing a model system for studying the hormonal regulation of tPA gene expression.     

Cationic modulation of follicle-stimulating hormone binding to granulosa cell receptor

Magnesium (Mg2+) increases binding of follicle-stimulating hormone (FSH) to membrane-bound receptors and increases adenylyl cyclase activity. We examined the effects of divalent and monovalent cations on FSH binding to receptors in granulosa cells from immature porcine follicles. Divalent and monovalent cations increased binding of [125I]iodo-porcine FSH (125I-pFSH). The divalent cations Mg2+, calcium (Ca2+) and manganese, (Mn2+) increased specific binding a maximum of 4- to 5-fold at added concentrations of 10 mM. Mg2+ caused a half-maximal enhancement of binding at 0.6 mM, whereas Ca2+ and Mn2+ had half-maximal effects at 0.7 mM and 0.8 mM, respectively. The monovalent cation potassium (K+) increased binding a maximum of 1.5-fold at an added concentration of 50 mM, whereas the monovalent cation (Na+) did not increase binding at any concentration tested. The difference between K+ and Na+ suggested that either enhancement of binding was not a simple ionic effect or Na+ has a negative effect that suppresses its positive effect. Ethylenediamine tetraacetic acid, a chelator of Mg2+, prevented binding of 125I-pFSH only in the presence of Mg2+, whereas pregnant mare's serum gonadotropin, a competitor with FSH for the receptor, prevented binding in both the absence and the presence of Mg2+. Guanyl-5-ylimidodiphosphate (Gpp[NH]p) inhibited binding of 125I-pFSH in the absence or presence of Mg2+, but only at Gpp(NH)p concentrations greater than 1 mM. We used Mg2+ to determine if divalent cations enhanced FSH binding by increasing receptor affinity or by increasing the apparent number of binding sites.(ABSTRACT TRUNCATED AT 250 WORDS)     

Endocytosis of follicle-stimulating hormone by ovarian granulosa cells: analysis of hormone processing and receptor dynamics

Suspensions of freshly isolated rat granulosa cells were used to study endocytosis and processing of radioiodinated ovine follicle-stimulating hormone (I-oFSH) and to analyze the dynamics of its receptor. Ovine FSH was iodinated to a specific activity of 26 microCi/micrograms as determined by radioreceptor self-displacement assays with maximum specific binding to excess membrane receptors of 46%. Radiolabeled oFSH was judged biologically equivalent to the unlabeled hormone since I-oFSH shows saturation-binding kinetics and stimulates steroidogenesis in a similar dose-related manner to unlabeled oFSH. Experiments designed to study the extent and time course of degradation involved continuous exposure of isolated granulosa cells to I-oFSH. Saturation of membrane receptors was achieved within 1.5 h of incubation, and internalization of FSH occurred in a linear manner for up to 6 h. The rate of internalization was equivalent to 2,780 FSH molecules/cell/h. Degradation of FSH became apparent after 6 h of incubation and increased to 86% of total cellular-associated radioactivity at 22 h. FSH degradation was inhibited by 100 microM chloroquine or 0.45 mM leupeptin. The measurement of cell surface I-oFSH binding in the combined presence of 100 microM chloroquine and 0.5 mM cycloheximide was unchanged for up to 22 h of incubation. This and other receptor binding data suggest that there is no reutilization of FSH receptors. Scatchard analyses of 4 degrees C binding assays on intact cells indicated that a two-site model best fit the data with association constants of K11 = 1.44 (+/- .42) X 10(10) and K12 = 4.35 (+/- .91) X 10(8). Receptor binding and activation studies for progesterone production yielded ED50s of 270 pM and 7.7 pM, respectively, and also indicated that 20% receptor occupancy is sufficient to stimulate maximal progesterone production. We conclude that after the initial binding event, FSH is endocytosed very slowly and is subsequently shuttled to the lysosomal compartment for degradation. The retarded rate of endocytosis may relate to novel pathways of hormone processing.     

Estrogens augment the stimulation of ovarian aromatase activity by follicle-stimulating hormone in cultured rat granulosa cells

The effects of estrogens on ovarian aromatase activity were investigated in vitro using granulosa cells from immature hypophysectomized estrogen-primed rats. The cells were cultured for 3 days in an androgen-free medium in the presence of follicle-stimulating hormone (FSH), with or without the specified estrogen. After washing, the cells were reincubated for 5 h with 10(-7) M androstenedione, and the formation of estrogens was measured. Estrogen production by control and diethylstilbestrol-treated cells was negligible, while FSH stimulated aromatase activity. Furthermore, concomitant treatment with diethylstilbestrol led to dose-dependent increases in the FSH-induced aromatase activity with an ED50 value of 4 X 10(-9) M and an apparent Vmax value 12- to 16-fold higher than those induced by FSH alone. The direct stimulatory effect of estrogens was time-dependent and was not accounted for by increases in cell protein. Various native and synthetic estrogens also augmented the FSH induction of aromatases (native estrogens: estradiol-17 beta = estrone greater than estradiol-17 alpha greater than estriol; synthetic estrogens: hexestrol greater than moxestrol greater than ethinyl estradiol much greater than chlorotrianisene and mestranol). The effect of estradiol-17 beta was dose-dependent with an ED50 value of 9 X 10(-9) M, which is within the physiological levels of follicular estradiol-17 beta. Although treatment with androgens also enhanced the FSH-induced aromatases, treatment with a progestin (R5020) or a mineralocorticoid (aldosterone) was without effect. Thus, estrogens directly augment the stimulation of granulosa cell aromatase activity by FSH. Follicular estrogens may activate intraovarian autoregulatory positive feedback mechanisms to enhance their own production, resulting in selective follicle maturation and the preovulatory estrogen surge.     

Epidermal growth factor binding sites in porcine granulosa cells and their regulation by follicle-stimulating hormone.

Epidermal growth factor (EGF) modulates ovarian function, including folliculogenesis and steroidogenesis. We investigated the localization of EGF binding sites in the porcine ovary, and the effect of FSH on EGF binding to cultured granulosa cells. Autoradiographic study demonstrated that the binding sites for 125I-labeled mouse EGF in the porcine ovary were present in the granulosa and luteal cells, but not in the thecal cells. Porcine granulosa cells were collected by the needle aspiration method from small (1-2 mm) and medium-sized (3-5 mm) follicles. Scatchard analysis showed that a single class of the specific binding sites for EGF was present in the granulosa cells. The number of binding sites and the apparent dissociation constant were 5,540 binding sites/cell and 0.23 nM (medium-sized follicle), respectively. No significant difference was observed between small and medium-sized follicles. Granulosa cells were cultured for 48 h at 37 degrees C in medium alone or with increasing doses of ovine FSH (1-100 ng/ml). FSH treatment significantly increased EGF binding in a dose-dependent manner. In conclusion, it is suggested that the specific high affinity, low capacity binding sites for EGF are present in porcine granulosa cells, and that they are up-regulated by FSH.     

Hormonal regulation of cyclic AMP-dependent protein kinase in cultured ovarian granulosa cells. Effects of follicle-stimulating hormone and gonadotropin-releasing hormone

The hormonal regulation of cAMP-dependent protein kinase was examined in granulosa cells from diethylstilbestrol-implanted immature rats. Follicle-stimulating hormone (FSH) increased the number of available cAMP-binding sites in a dose- and time-dependent manner, with a maximum 4-6-fold increase at 50-100 ng/ml between 6 and 48 h of culture after a transient decrease in available sites during the first 6 h. The potent gonadotropin-releasing hormone (GnRH) agonist [D - Ala6]des - Gly10 - GnRH - N - ethylamide (GnRHa) reduced the FSH-induced increase in cAMP-binding sites by approximately 50% at 24 and 48 h of culture. Photoaffinity labeling with 8-azido-[32P] cAMP revealed the existence of one major cAMP-binding protein (Mr = 55,000 +/- 400) which appeared to be the regulatory (R) subunit of type II cAMP-dependent protein kinase. While FSH induced a 5-10-fold increase in the labeling of R II both in vivo and in vitro, GnRHa reduced the amount of R II induced by FSH in granulosa cells cultured for 48 h. The large increase in R II subunit was not accompanied by a corresponding increase in protein kinase activity, which was only enhanced by 50% after 48 h of culture with FSH. Fractionation of granulosa cell cytosol from FSH-treated ovaries on DEAE-cellulose showed a single peak of cAMP-dependent phosphokinase activity with the elution properties of a type II protein kinase. However, the peak of cAMP binding activity (eluted at 0.20 M KCl) was not coincident with the protein kinase activity. FSH transiently stimulated cAMP-dependent protein kinase activity during the first 10-30 min of culture. GnRHa impaired the FSH-induced early increase in protein kinase activity, causing a delay in activation until 60 min. These findings suggest that a large dose- and time-dependent increase in the content of cAMP-binding sites may be a major factor in cAMP-mediated differentiation of granulosa cells. The inhibitory effect of GnRHa on both FSH-induced protein kinase activation during the first minutes of culture and on FSH-induced R II synthesis during the subsequent 48 h of culture could be crucial events in the prevention of granulosa cell maturation by GnRH agonists.     

Changes in responsiveness of rat granulosa cells to prostaglandin E2 and follicle-stimulating hormone during culture

The changes in responsiveness of granulosa cells to either FSH or prostaglandin E2 (PGE2), during culture of the cells, have been examined. In freshly isolated cells, FSH and PGE2 stimulated both cyclic AMP and progesterone production in a dose-dependent manner. In these cells, FSH stimulated cyclic AMP production to a greater extent than did PGE2. After the cells had been cultured for 2 days, neither FSH nor PGE2 stimulated progesterone production to any detectable extent. In these cells the ability of FSH to stimulate cyclic AMP was decreased, and that of PGE2 was increased markedly, such that PGE2 was far more effective than FSH in stimulating cyclic AMP. After culture of the cells for a further 2 days (4 days total), the FSH stimulation of cyclic AMP returned to that seen in freshly isolated cells, whereas the stimulation by PGE2 remained elevated. The acute stimulation of progesterone production could be restored by chronic exposure of the cells to either FSH or PGE2. These results demonstrate that dramatic changes in responsiveness of granulosa cells take place during culture. The results also suggest that some stimulating factor must be present to maintain the steroidogenic capabilities of the cells. Without this, although the cells are able to produce cyclic AMP in response to FSH, they cannot produce progesterone.     

Alterations of 20 alpha-hydroxysteroid dehydrogenase activity in cultured rat granulosa cells by follicle-stimulating hormone and testosterone

The effect of follicle-stimulating hormone (FSH) and testosterone (T) on rat granulosa cell progestin metabolism was investigated by incubation of the cells for 24 h with FSH and/or T and subsequent reincubation with an appropriate rabiolabeled steroid for 3 h. Exposure to varying concentrations of FSH (8-1000 ng/ml) and T (4-500 nM) decreased overall 4-[14C] progesterone utilization and accumulation of 20 alpha-reduced metabolites of progesterone in a dose-related manner. The accumulation of 5 alpha-reduced metabolites was not markedly changed by FSH and T treatments. Treatments with FSH and/or T decreased utilization of all progestins studied: progesterone by 30-50%, 20 alpha-hydroxy-4-pregnen-3-one by 23-31%, 3 alpha-hydroxy-5 alpha-pregnan-20-one by 41-64%, and 5 alpha-pregnane-3 alpha,20 alpha-diol by 26-34%. The greatest effects were observed following FSH + T treatments. Decreased utilization of substrates was associated with the decrease of 20 alpha-hydroxy-steroid dehydrogenase activity; the conversion of progesterone to 20 alpha-hydroxy-4-pregnen-3-one was decreased by 44-62%, the conversion of 20 alpha-hydroxy-4-pregnen-3-one to progesterone was decreased by 41-61%, the conversion of 3 alpha-hydroxy-5 alpha-pregnan-20-one to 5 alpha-pregnane-3 alpha,20 alpha-diol was decreased by 42-69%, and the conversion of 5 alpha-pregnane-3 alpha,20 alpha-diol to 3 alpha-hydroxy-5 alpha-pregnan-20-one was decreased by 53-60%. The incubation of granulosa cells with cyanoketone (10(-6)M), an inhibitor of delta 5,3 beta-hydroxysteroid dehydrogenase, virtually eliminated de novo progesterone production but did not alter the inhibitory effect of FSH and T on radiolabeled progesterone utilization and accumulation of 20 alpha-reduced metabolites, indicating that the observed effects are not influenced by endogenous production of progesterone. It was concluded from these studies that both FSH and testosterone inhibit the 20 alpha-hydroxysteroid dehydrogenase activity and consequently decrease progesterone catabolism by granulosa cells.     

Influence of in vitro plating density on rat granulosa cell responsiveness to follicle-stimulating hormone

The effects of cell plating density on granulosa cell sensitivity to follicle-stimulating hormone (FSH) were investigated, using a serum-free culture of cells obtained from immature, estrogen-treated rats. The cells were incubated at densities of 0.25 to 5 X 10(5) cells/dish with increasing concentrations of FSH for 2 days, and medium estrogen and progestin accumulation were measured by radioimmunoassay. Per-cell estrogen and progestin production rose with increasing FSH concentration and cell density up to 2 X 10(5) cells/dish. At a higher density (5 X 10(5)/dish), per-cell estrogen production fell; progestin production remained constant, although the major progestin produced was no longer progesterone, but rather its metabolite, 20 alpha-hydroxy-progesterone. The effects of changing cell density could not be accounted for by medium steroids or cytotoxic substances. It is concluded that in vitro plating density can markedly affect granulosa cell sensitivity to FSH. In vivo, changing intrafollicular cell densities may thus affect the ability of the whole cell complement to respond to gonadotropin.     

Elevation of apparent membrane viscosity in ovarian granulosa cells by follicle-stimulating hormone

Continued exposure of cultured granulosa cells to follicle-stimulating hormone (FSH) induced: (i) a rise in apparent membrane microviscosity, as reflected by an increase in fluorescence polarization of the lipid-soluble probe, 1,6-diphenyl-1,3,5,-hexatriene; and (ii) a progressive decline in the cyclic AMP response to renewed challenge with the same hormone. Both changes were reduced or prevented by pretreatment of the cells with oleic or linoleic acid, agents which reduce membrane viscosity, but not by elaidic or palmitic acid which increase the rigidity of membrane lipids. Other agents that inhibited FSH-induced changes in membrane fluidity (gonadotropin-releasing hormone, actinomycin D and cycloheximide) also prevented desensitization to FSH. Cyclic AMP and cyclic GMP derivatives did not mimic the effects of FSH on apparent membrane viscosity or desensitization. Changes in membrane fluidity are unlikely to be the sole cause of desensitization since (i) pretreatment of the cells with fatty acids that increase lipid viscosity did not induce desensitization to FSH, and (ii) desensitization of granulosa cells to lutropin and prostaglandin E2 by exposure to the homologous hormone was not attended by increased membrane viscosity. The experiments described provide the first example of a hormonally induced increase in the target cell apparent membrane viscosity.     

Effect of cyanoketone on follicle-stimulating hormone (FSH) induction of receptors for FSH in granulosa cells of the rat

Follicle-stimulating hormone (FSH) enhances the conversion of testosterone or androstenedione into estradiol by stimulating the aromatase enzyme system. Estradiol also enhances FSH action. Thus, a synergistic action of FSH and estradiol may be required for maturation of ovarian follicles. We hypothesized that estradiol may be required for FSH action. Thus, blocking estrogen synthesis should prevent FSH-induced increases in FSH receptors. Hypophysectomized rats were divided into five groups and injected subcutaneously with: 1) saline, 2) cyanoketone (0.05 mg, blocks the conversion of pregnenolone to progesterone), 3) ovine FSH (oFSH, 200 micrograms), 4) cyanoketone then oFSH 24 h later, or 5) cyanoketone plus estradiol [or progesterone, testosterone, promegestrone (R5020), dihydrotestosterone (DHT), 2 mg], then FSH 24 h later. Animals were decapitated at 0, 12 or 24 h after an injection of oFSH, and membrane receptors for FSH and luteinizing hormone (LH), plus nuclear receptors for estradiol from granulosa cells, were measured. LH receptor levels were increased only after administration of FSH and estradiol. At 0 and 24 h, numbers of FSH or estradiol receptors were similar in saline- and cyanoketone-treated animals. FSH alone increased (P less than 0.01) FSH and estradiol receptors 3-fold and 4-fold, respectively, over controls by 12 and 24 h. Cyanoketone prevented these increases in FSH and estradiol receptors. Estradiol replacement fully reversed the effects of cyanoketone on FSH action. Replacement with progesterone and testosterone was able to only partially restore levels of FSH receptors; however, estradiol receptor numbers were also increased.(ABSTRACT TRUNCATED AT 250 WORDS)     

Regulation of angiotensin II receptors in cultured rat ovarian granulosa cells by follicle-stimulating hormone and angiotensin II

The regulation of ovarian granulosa cell angiotensin II (Ang-II) receptor formation and progesterone secretion by follicle-stimulating hormone (FSH) and Ang-II was studied in cultured cells prepared from hypophysectomized, diethylstilbestrol-treated immature rats. Ang-II receptors (estimated by the specific cell binding of the Ang-II receptor antagonist 125I-[Sar1,Ile8]Ang-II) were present on freshly prepared granulosa cells and increased by over 2-fold (to 2150 binding sites/cell; KD = 0.5 nM) when cultured in serum-free medium for 48 h. FSH prevented the normal increase in Ang-II receptor expression. Maximal FSH-dependent decrease in Ang-II receptors and increase in progesterone secretion occurred at 100 ng/ml FSH. The inhibitory effect of FSH on granulosa cell Ang-II receptor content was partially mimicked by the cAMP analogue 8-bromo-cAMP, since 8-bromo-cAMP suppressed (by 96%) Ang-II receptor content to a greater extent than FSH (by 60%). Granulosa cell Ang-II receptor content was not modified by progesterone or 17 beta-estradiol, but was decreased by testosterone (by 35%). Ang-II also produced a decrease in granulosa cell Ang-II receptor content, but did not modify progesterone secretion or aromatase activity. The effect of Ang-II on granulosa cell Ang-II receptor content was mimicked by the Ca2+ ionophore A23187, but not by the phorbol ester 12-O-tetradecanoylphorbol 13-acetate, suggesting that an elevation of cytosolic Ca2+ may be important for the homologous down-regulation of the Ang-II receptor. These data show homologous and heterologous down-regulation of granulosa cell Ang-II receptors. If these regulatory mechanisms exist in the FSH-sensitive healthy follicle, our findings suggest that in the process of maturation, healthy and dominant follicles may become decoupled from angiotensinergic influences.