Effects of hepatocyte growth factor on cyclic nucleotide-dependent signaling and steroidogenesis in rat ovarian granulosa cells in vitro

Hepatocyte growth factor (HGF) down-modulates FSH-dependent estradiol-17beta (E(2)) production in ovarian granulosa cells in vitro. The mechanisms of action underlying the antiestrogenic effects of HGF are vague, although evidence indicates that HGF may affect cAMP signal transduction in rat granulosa cells. The present study investigated the effects of HGF on FSH-induced steroidogenesis in the presence and absence of insulin-like growth factor I (IGF-I), as well as the actions of HGF within cyclic nucleotide-dependent signal transduction cascades in granulosa cells. Immature rat granulosa cells were incubated with FSH, IGF-I, and HGF. HGF impaired the production of FSH-stimulated and FSH + IGF-I-stimulated E(2) synthesis, as well as FSH + IGF-I-dependent estrone production. Progesterone synthesis was not altered by HGF. HGF suppressed FSH-dependent cAMP content at 24 h, but not at 36 h; cGMP content was stimulated by HGF with and without FSH at 24 h. In the presence of the cyclic nucleotide phosphodiesterase (PDE) inhibitor, 3-isobutyl-1-methylxanthine (IBMX), FSH-dependent cAMP accumulation was not affected by HGF. The suppressive effect of HGF on FSH-dependent E(2) production was alleviated by IBMX, whereas the HGF-dependent block in FSH + IGF-I-supported E(2) production was not prevented by IBMX. The effects of HGF on cyclic nucleotide PDE activities were manifested in a time-dependent and hormone-dependent manner. FSH-induced cAMP PDE was suppressed by HGF at 24 h but not at 36 h, whereas FSH-dependent cGMP PDE was impaired at 36 h, but not at 24 h. HGF prevented the IGF-I-dependent reduction in FSH-stimulated cAMP-PDE activity at 24 and 36 h, and lowered FSH + IGF-I-stimulated cGMP-PDE activity at 36 h, concomitant with an HGF-dependent increase in cGMP content at 24 h. These data indicate that HGF affects cAMP-directed and cGMP-directed signaling pathways at multiple sites in granulosa cells. These HGF-dependent effects may provide insight for mechanisms of action whereby HGF reduces E(2) secretion by granulosa cells.     

Ceruloplasmin,a copper-transport protein,can act as a growth promoter for some cell lines in serum-free medium

Summary Ceruloplasmin (Cp) is a copper-transport protein with ferric oxidase activity found in high concentrations in the plasma of all vertebrates. Five cell lines (TR-1, TR-M, TR-ST, TM₃, and TM₄) derived from the testis can be grown in hormone-supplemented serum-free medium. Cp stimulates the growth of four of these five cell lines in serum-free medium. The growth stimulation by Cp is not affected by the addition or deletion of free copper, nor does copper itself elicit any significant growth response. Cp can stimulate growth also in the absence of TF suggesting that it is not acting solely to promote Fe(III)-TF binding. A strong interaction is seen between Cp and high density lipoprotein (HDL), with the presence of either decreasing the growth-promoting activity of the other. It is suggested that these cell lines may provide an ideal system for studying the action of Cp at the cellular level. Presented in the symposium on Plant and Animal Physiology in Vitro at the 33rd Annual Meeting of the Tissue Culture Association, San Diego, California, June 6–10, 1982. This work was supported by NIH P50 Grant HO-13541. I am grateful to Ms. Florence Kaczorowski for her expert technical assistance. This symposium was supported in part by the following organizations: Bellco Glass, Inc., California Branch of the Tissue Culture Association, Collaborative Research, Hana Media, Hybridtech, K C Biological, Inc., and Millipore Corporation.     

Role of phosphodiesterase in cyclic AMP signaling in cultured rat granulosa cells

Inactivation of the cyclic nucleotide signal in granulosa cells depends on a complex array of cyclic nucleotide phosphodiesterases (PDE). In order to examine the role of PDE in cyclic AMP (cAMP) signaling in granulosa cells, the present study examined the expression of PDE4D proteins and regulation of cAMP-PDE activities in cultured rat granulosa cells. The results of immunoblot analyses showed that two predominant PDE4D subtypes of approximately 80 and 70 kDa appeared when immature rat granulosa cells were treated with FSH. However, these two new subtypes presumed to be PDE4D proteins were not influenced by treatments of DETA/NO, cGMP and PKB inhibitor, LY294002. Immature rat granulosa cells treated with medium alone displayed low cAMP-PDE activity throughout 48 h of culture while those treated with FSH (2 ng.mL-1) showed a marked increase in cAMP-PDE activity between 6 and 12 h of culture, followed by a decline. The findings from the present study indicate that the increased cAMP-PDE activity by FSH is mainly related to the changes of PDE4D protein levels. However, the inhibitory effects of NO on cAMP accumulation in rat granulosa cells are not via the increased cAMP-PDE activity.     

Hybridoma monoclonal antibodies in the analysis fo human cell surface antigens

Summary In the present paper, we will summarize studies we have performed on two distinct human lymphocyte cell surface antigens defined by monoclonal antibodies: Leu-1 and HLA-DR. Presented in the symposium on The Biology of Hybridomas at the 32nd Annual Meeting of the Tissue Culture Association, Washington, D.C., June 7–11, 1981. This work was supported by USPHS-NIH Grants CA-21223, AI-11313, and CA-09302. This symposium was supported in part by the following organizations: Bethesda Research Laboratories, Cetus Corporation, Hybritech Incorporated, MAB-Monoclonal Antibodies, Inc., National Capital Area Branch of the Tissue Culture Association, New England Nuclear Corporation, and Ortho Pharmaceutical Corporation.     

Identification of estrogen-inducible growth factors (estromedins) for rat and human mammary tumor cells in culture

Summary The role of polypeptide growth factors (estromedins) as mediators of estrogen-responsive mammary tumor growth is studied in this report. Three possible new mechanisms were investigated that include endocrine, autocrine, and paracrine related growth factors. The first hypothesis being tested is whether estrogens interact with target tissues and cause the biosynthesis and secretion of polypeptide growth factors, which then act as mitogens for normal and neoplastic mammary tissues. Data presented suggest that this mechanism involves estrogen interaction with uterus, kidney, and pituitary gland causing production of growth factors, which then enter the general circulation and promote growth of distant target tissues. This is an endocrine type mechanism. Another type of estromedin control (autocrine control) may be exerted in an autostimulatory way in which the target tissue produces the polypeptide factors for its own growth in response to estrogen stimulation. A variation of the autocrine mechanism may be a paracrine mechanism in which some cells of an estrogen-responsive normal or neoplastic tissue produce growth factors that act on adjacent or neighboring cells. From the data available, all three possible types of growth factors could be functioning synergistically to yield the final result of continuous estrogen responsive tumor growth in vivo. Presented in the symposium on Plant and Animal Physiology in Vitro at the 33rd Annual Meeting of the Tissue Culture Association, San Diego, California, June 6–10, 1982. This work was supported by American Cancer Society Grant BC-255; D. A. S. is the recipient of an American Cancer Society Faculty Research Award, FRA-212. D. D. is supported by a Rosalie B. Hite predoctoral fellowship from the Rosalie B. Hite Foundation, Houston, Texas. This symposium was supported in part by the following organizations: Bellco Glass, Inc., California Branch of the Tissue Culture Association, Collaborative Research, Hana Media, Hybridtech, K C Biological, Inc., and Millipore Corporation.     

Phosphodiesterase regulation is critical for the differentiation and pattern of gene expression in granulosa cells of the ovarian follicle

Feedback regulations are integral components of the cAMP signaling required for most cellular processes, including gene expression and cell differentiation. Here, we provide evidence that one of these feedback regulations involving the cyclic nucleotide phosphodiesterase PDE4D plays a critical role in cAMP signaling during the differentiation of granulosa cells of the ovarian follicle. Gonadotropins induce PDE4D mRNA and increase the cAMP hydrolyzing activity in granulosa cells, demonstrating that a feedback regulation of cAMP is operating in granulosa cells in vivo. Inactivation of the PDE4D by homologous recombination is associated with an altered pattern of cAMP accumulation induced by the gonadotropin LH/human chorionic gonadotropin (hCG), impaired female fertility, and a markedly decreased ovulation rate. In spite of a disruption of the cAMP response, LH/hCG induced P450 side chain cleavage expression and steroidogenesis in a manner similar to wild-type controls. Morphological examination of the ovary of PDE4D-/- mice indicated luteinization of antral follicles with entrapped oocytes. Consistent with the morphological finding of unruptured follicles, LH/hCG induction of genes involved in ovulation, including cyclooxygenase-2, progesterone receptor, and the downstream genes, is markedly decreased in the PDE4D-/- ovaries. These data demonstrate that PDE4D regulation plays a critical role in gonadotropin mechanism of action and suggest that the intensity and duration of the cAMP signal defines the pattern of gene expression during the differentiation of granulosa cells.     

Hormone interactions in the sertoli cells

Summary The effects of follicle-stimulating hormone (FSH) and testosterone in rat Sertoli cells were investigated in vitro by means of isolated cell populations. The Sertoli cells selectively bind FSH, and respond to FSH stimulation with increased accumulation of endogenous cyclic AMP and secretion of androgen-binding protein (ABP). FSH binding and cyclic AMP response in the Sertoli cells change dramatically during sexual maturation. Cyclic AMP response decreases despite an increase in FSH-binding receptors per cell. Evidence has been provided for the existence of cytoplasmic and nuclear androgen receptors and chromatin acceptor-sites that specifically bind the androgen-receptor complex in the Sertoli cells. A model has been proposed for the hormonal interactions in the seminiferous tubule and the possible role of Sertoli cells in mediating the hormonal effects on spermatogenesis. Presented in the formal symposium on Sexual Differentiation in Vitro and in Vivo at the 29th Annual Meeting of the Tissue Culture Association, Denver, Colorado, June 4–8, 1978. This work was supported by Grant P50 HD08338 from the NICHHD. Dr. barbara M. Sanborn is a recipient of Research Career Development Award 1-K04-HD00126 (NIH).     

In vitro studies of gonadal organogenesis in the presence and absence of H-Y antigen

Summary In a very strict sense, the primary (gonadal) sex of mammals is determined not so much by the presence or absence of the Y but the expression or nonexpression of the evolutionary extremely conserved plasma membrane H-Y antigen. The central somatic blastema of embryonic indifferent gonads contains one cell lineage characterized by the possession of S−F differentiation antigen that differentiates into testicular Sertoli cells in the presence of H-Y and into ovarian follicular (granulosa) cells in its absence. This cell lineage appears to play the most critical role in gonadal differentiation. Whether or not testicular Leydig cells and ovarian theca cells are similarly derived from the common cell lineage has not been determined. Nevertheless, if given H-Y antigen, presumptive theca-cell precursors of the fetal ovary acquire hCG (LH?)-receptors—the characteristic of fetal Leydig cells. Presented in the formal symposium on Sexual Differentiation in Vitro and in Vivo at the 29th Annual Meeting of the Tissue Culture Association, Denver, Colorado, June 4–8, 1978. This work was supported by Contract NO1-CB-33907, and Grants No. 1 RO1 AG00042 and No. 5 RO1 CA16952 from the National Institutes of Health.     

Laminin provides a better substrate than fibronectin for attachment,growth, and differentiation of 1003 embryonal carcinoma cells

Summary Culture of cells in hormonally defined media has allowed (a) the demonstration of physiological responses from cells usually unable to express them in vitro and (b) the study of the effects on growth and differentiation of diffusible factors and attachment factors. The embryonal carcinoma line 1003 forms multidifferentiated tumors in vivo but is unable to differentiate in vitro when grown in serum-containing medium. In a defined medium containing insulin, transferrin, selenium, and fibronectin as attachment factors, 1003 cells grow for several generations and differentiate into neurons and embryonic mesenchyme (Darmon et al., 1981, Dev. Biol. 85: 463–473). In the present work the effects of fibronectin and laminin were compared. In the presence of laminin the cells attached and spread better, grew faster, and could be plated at lower densities. Neurite extension was also better under these conditions and most importantly, it was found that laminin induced an important formation of muscular tissue when the cells had been seeded at low densities. Multinucleated myotubes could be stained with antibodies directed against embryonic muscular myosin. Coating the dishes with polylysine or adding FGF or serum-spreading factor to the medium allowed growth of low-density cultures with fibronectin instead of laminin but muscular differentiation was not detected under these conditions. Addition of fibronectin to laminin-containing medium did not inhibit muscular differentiation. Presented in the symposium on Plant and Animal Physiology in Vitro at the 33rd Annual Meeting of the Tissue Culture Association, San Diego, California, June 6–10, 1982. This research was supported in part by grants from the “Centre National de la Recherche Scientifique” (LA 269), the “Délégation Générale à la Recherche Scientifique et Technique,” the Fondation pour la Recherche Médicale Fran?aise,” the “Institut National de la Santé et de la Recherche Medicale,” the “Ligue Nationale Fran?aise centre le Cancer,” and the “Fondation André Meyer.” This symposium was supported in part by the following organizations: Bellco Glass, Inc., California Branch of the Tissue Culture Association, Collaborative Research, Hana Media, Hybridtech, K C Biological, Inc., and Millipore Corporation.     

Follicle-stimulating hormone enhances somatomedin C binding to cultured rat granulosa cells. Evidence for cAMP dependence

The ovarian granulosa cell has recently been shown to be the site of Somatomedin C (Sm-C) production, reception, and action. To further elucidate the relevance of Sm-C to granulosa cell physiology, we have undertaken to study the regulation of its receptor under in vitro conditions using a primary culture of rat granulosa cells. Granulosa cells cultured without treatment for 72 h displayed limited, albeit measurable, specific Sm-C binding. However, continuous treatment with increasing concentrations of follicle-stimulating hormone (FSH) for the duration of the 72-h incubation period resulted in dose-dependent increments in Sm-C binding (1.7-, 2.9-, 3.9-, and 3.6-fold increases over untreated controls for 50, 100, 180, and 330 ng/ml of FSH, respectively). This apparent up regulatory action of FSH proved time-dependent, with a minimal time requirement of 24-48 h. Granulosa cell Sm-C binding was similarly enhanced following elevation of the intracellular cAMP content by a series of cAMP-generating agonists, inhibition of cAMP-phosphodiesterase activity, or the provision of nondegradable cAMP analogs. Our findings further indicate that high dose forskolin, like FSH, is capable of augmenting Sm-C binding by itself, that a relatively inactive low dose of forskolin synergizes with FSH in this regard, but that combined treatment with maximal stimulatory doses of both agonists does not prove additive. Taken together, these observations indicate that FSH is capable of exerting a stimulatory effect on granulosa cell Sm-C binding and that cAMP, its purported intracellular second messenger, may play an intermediary role in this regard.     

Potential role of follicle-stimulating hormone (FSH) and transforming growth factor (TGFβ1) in the regulation of ovarian angiogenesis

Angiogenesis occurs during ovarian follicle development and luteinization. Pituitary secreted FSH was reported to stimulate the expression of endothelial mitogen VEGF in granulosa cells. And, intraovarian cytokine transforming growth factor (TGF)β1 is known to facilitate FSH‐induced differentiation of ovarian granulosa cells. This intrigues us to investigate the potential role of FSH and TGFβ1 regulation of granulosa cell function in relation to ovarian angiogenesis. Granulosa cells were isolated from gonadotropin‐primed immature rats and treated once with FSH and/or TGFβ1 for 48 h, and the angiogenic potential of conditioned media (granulosa cell culture conditioned media; GCCM) was determined using an in vitro assay with aortic ring embedded in collagen gel and immunoblotting. FSH and TGFβ1 increased the secreted angiogenic activity in granulosa cells (FSH + TGFβ1 > FSH ≈ TGFβ1 > control) that was partly attributed to the increased secretion of pro‐angiogenic factors VEGF and PDGF‐B. This is further supported by the evidence that pre‐treatment with inhibitor of VEGF receptor‐2 (Ki8751) or PDGF receptor (AG1296) throughout or only during the first 2‐day aortic ring culture period suppressed microvessel growth in GCCM‐treated groups, and also inhibited the FSH + TGFβ1‐GCCM‐stimulated release of matrix remodeling‐associated gelatinase activities. Interestingly, pre‐treatment of AG1296 at late stage suppressed GCCM‐induced microvessel growth and stability with demise of endothelial and mural cells. Together, we provide original findings that both FSH and TGFβ1 increased the secretion of VEGF and PDGF‐B, and that in turn up‐regulated the angiogenic activity in rat ovarian granulosa cells. This implicates that FSH and TGFβ1 play important roles in regulation of ovarian angiogenesis during follicle development. J. Cell. Physiol. 226: 1608–1619, 2011. © 2010 Wiley‐Liss, Inc.     

Ghrelin and obestatin can promote human ovarian granulosa cell functions and FSH effects

The aim of the present in-vitro experiments was to examine the direct influence of ghrelin and obestatin on viability, proliferation and progesterone release by human ovarian granulosa cells and their response to FSH administration. Human granulosa cells were cultured in presence of ghrelin or obestatin (both at 0, 1, 10 or 100 ng/ml) alone or in the presence of FSH (10 ng/ml). Cell viability, accumulation of proliferation markers PCNA and cyclin B1 and release of progesterone were analyzed by Trypan blue extrusion test, quantitative immunocytochemistry and ELISA. Ghrelin, obestatin and FSH up-regulated all the measured ovarian cell parameters. Moreover, both ghrelin and obestatin promoted all the stimulatory effects of FSH. The obtained results demonstrate the direct stimulatory action of ghrelin, obestatin and FSH on basic ovarian cell functions, as well as the ability of metabolic hormones to improve FSH action on human ovarian cells.     

Kisspeptin as autocrine/paracrine regulator of human ovarian cell functions: Possible interrelationships with FSH and its receptor

The present study aims to examine the role of kisspeptin (KP), FSH, and its receptor (FSHR), and their interrelationships in the control of basic human ovarian granulosa cells functions. We investigated: (1) the ability of granulosa cells to produce KP and FSHR, (2) the role of KP in the control of ovarian functions, and (3) the ability of KP to affect FSHR and to modify the FSH action on ovarian functions. The effects of KP alone (0, 10 and 100 ng/mL); or of KP (10 and 100 ng/mL) in combination with FSH (10 ng/mL) on cultured human granulosa cells were assessed. Viability, markers of proliferation (PCNA and cyclin B1) and apoptosis (bax and caspase 3), as well as accumulation of KP, FSHR, and steroid hormones, IGF-I, oxytocin (OT), and prostaglandin E2 (PGE2) release were analyzed by the Trypan blue exclusion test, quantitative immunocytochemistry, and ELISA. KP given at a low dose (10 ng/mL) stimulated viability, proliferation, inhibited apoptosis, promoted the release of progesterone (P4), estradiol (E2), IGF-I, OT, and PGE2, the accumulation of FSHR, but not testosterone (T) release. KP given at a high dose (100 ng/mL) had the opposite, inhibitory effect. FSH stimulated cell viability, proliferation and inhibited apoptosis, promoted P4, T, E2, IGF-I, and OT, but not PGE2 release. Furthermore, KP at a low dose promoted the stimulatory effect of FSH on viability, proliferation, P4, E2, and OT release, promoted its inhibitory action on apoptosis, but did not modify its action on T, IGF-I, and PGE2 output. KP at a high dose prevented and inverted FSH action. These results suggest an intra-ovarian production and a functional interrelationship between KP and FSH/FSHR in direct regulation of basic ovarian cell functions (viability, proliferation, apoptosis, and hormones release). The capability of KP to stimulate FSHR, the ability of FSH to promote ovarian functions, as well as the similarity of KP (10 ng/mL) and FSH action on granulosa cells’ viability, proliferation, apoptosis, steroid hormones, IGF-I, OT, and PGE2 release, suggest that FSH influence these cells could be mediated by KP. Moreover, the capability of KP (100 ng/mL) to decrease FSHR accumulation, basal and FSH-induced ovarian parameters, suggest that KP can suppress some ovarian granulosa cell functions via down-regulation of FSHR. These observations propose the existence of the FSH-KP axis up-regulating human ovarian cell functions.     

Ovarian expression of messenger RNA encoding the receptors for luteinizing hormone and follicle-stimulating hormone in a marsupial, the brushtail possum (Trichosurus vulpecula)

Both LH and FSH play a central role in controlling ovarian function in mammals. However, little is known about the type of ovarian cells that are responsive to LH and FSH in marsupials. We determined, using in situ hybridization, the localization of mRNA encoding the receptors (R) for LH and FSH in ovaries of brushtail possums. The mRNA encoding FSH-R was observed in granulosa cells of healthy follicles containing at least two complete layers of cells. The mRNA encoding LH-R was first observed in granulosa cells at the time of antrum formation. Cells of the theca interna expressed LH-R mRNA but not FSH-R mRNA. Neither FSH-R nor LH-R mRNA was detected in atretic follicles. Both FSH-R and LH-R mRNAs were observed in luteal tissue, but only LH-R mRNA was observed in interstitial cells. Granulosa cells from follicles of various sizes (0.5 to >2 mm in diameter) responded to LH and FSH treatment with an increase in cAMP synthesis. In contrast, luteal tissue did not respond to either FSH or LH treatment. In conclusion, expression of FSH-R in the brushtail possum ovary was similar to that observed in many eutherian mammals. However, active LH-R was expressed in granulosa cells much earlier in follicular development than has been previously observed. In addition, although mRNAs for both FSH-R and LH-R were observed, neither FSH nor LH treatment stimulated cAMP synthesis in luteal tissue.     

Tumor necrosis factor-alpha inhibits follicle-stimulating hormone-induced differentiation in cultured rat granulosa cells

We have investigated the effects of TNF-alpha on FSH-induced LH receptor expression, cAMP and progesterone production in cultured rat granulosa cells. TNF-alpha (0.5-100 ng/ml) inhibits the stimulating action of FSH on LH receptor formation in a dose-dependent manner with an IC50 of 1 ng/ml and an almost complete suppression of LH receptor induction for 50-100 ng/ml TNF-alpha. The inhibitory effect of TNF-alpha is not due to variations in cell number or viability but rather to a reduction of the LH receptor content per cell with no change in binding affinity (KD = 0.8 x 10(-10)M). TNF-alpha also inhibits the FSH-induced cAMP production but at a lower extent, with a maximum reduction of 60% for 100 ng/ml TNF-alpha. Moreover, TNF-alpha impairs the LH receptor formation induced by forskolin, cholera toxin or 8-Bromo-cAMP, indicating that the cytokine also acts at a step distal to FSH receptor and to cAMP formation. Finally, TNF-alpha decreases dramatically the progesterone synthesis that is stimulated by FSH, with a reduction to undetectable levels on and after 10 ng/ml TNF-alpha. These results suggest that TNF-alpha may drastically reduce the capacity of granulosa cells to differentiate upon FSH stimulation and to respond to LH during the physiological ovarian follicular maturation. Such anti-gonadotropic action of TNF-alpha on granulosa cell differentiation may be also relevant to the alteration of ovarian function during physiopathological processes like inflammatory or infection diseases.     

The role of junctional communication in animal tissues

Summary Permeable intercellular junctions are a common feature of most animal tissues. These junctions allow the free exchange of small ions and molecules between all the cells in coupled populations. Such limited syncytial interaction contributes to the integration of individual cells into organized tissues. Presented in the symposium on Molecular and Morphological Aspects of Cell-Cell Communication at the 31st Annual Meeting of the Tissue Culture Association, St. Louis, Missouri, June 1–5, 1980. This symposium was supported in part by Contract 263-MD-025754 from the National Cancer Institute and the Fogarty International Center.     

Mouse oocytes suppress cAMP-induced expression of LH receptor mRNA by granulosa cells in vitro

Mouse oocytes suppress follicle-stimulating hormone (FSH)–induced luteinizing hormone receptor (LHR) messenger ribonucleic acid (mRNA) expression in cultured granulosa cells. The objective of this study was to assess the mechanism by which oocytes suppress FSH-induced LHR expression. The effect of cumulus cell–denuded, germinal-vesicle-stage oocytes, isolated from antral follicles, on FSH-induced cyclic adenosine monophosphate (cAMP) production by cultured granulosa cells was determined by radioimmunoassays. In addition, the effect of oocytes on 8Br-cAMP–induced LHR mRNA steady-state expression by granulosa cells was assessed by RNase protection assays. Oocytes had no detectable effect on FSH-induced cAMP production. However, oocytes dramatically suppressed 8Br-cAMP–induced LHR mRNA steady-state expression by granulosa cells. It was concluded that the mechanism by which oocytes suppress FSH-induced steady-state expression of LHR mRNA is not by inactivating FSH, preventing functional interactions of FSH with its granulosa cell receptors, or by interfering with the signal-transduction mechanisms required for FSH-dependent cAMP production. In addition, since oocytes suppressed the 8Br-cAMP–induced increase in steady-state expression of mRNA for LHR, oocyte-derived factors probably suppress expression by acting downstream of FSH-induced elevation of granulosa cell cAMP. Mol. Reprod. Dev. 49:327–332, 1998. © 1998 Wiley-Liss, Inc.     

Inhibitory effects of interleukin-1 on follicle-stimulating hormone induction of aromatase activity, progesterone secretion, and functional luteinizing hormone receptors in cultures of porcine granulosa cells

Effects of interleukin-1 (IL-1) on FSH-induced differentiation of immature porcine granulosa cells in vitro were examined in short-term (48-h) cultures. IL-1 inhibited FSH induction of aromatase activity and of LH-stimulated cAMP accumulation by granulosa cells. Both these inhibitory actions of IL-1 were concentration-dependent. Significant inhibitory effects were observed with as low as 0.05-0.25 ng/ml of IL-1, with maximal effects at 25 ng/ml. IL-1 also significantly inhibited increases in [125I]iodo-LH binding and progesterone secretion induced by FSH, as well as reducing basal levels of aromatase activity and LH-stimulated cAMP accumulation. Studies on the mechanisms of IL-1 actions on FSH-induced differentiation of immature porcine granulosa cells revealed that IL-1 reduced cAMP accumulation by the cells in response to FSH in a time- and concentration-dependent manner. IL-1 also inhibited induction of aromatase activity and LH-stimulated cAMP accumulation induced by dibutyryl cAMP, suggesting that IL-1 also affects the steps distal to cAMP generation. In contrast, IL-1 had no effect on progesterone secretion induced by dibutyryl cAMP, suggesting that post-cAMP steps of progesterone secretion were unaffected by IL-1.     

Discordance in the effects of interleukin-1 on rat granulosa cell differentiation induced by follicle-stimulating hormone or activators of adenylate cyclase

Recombinant human interleukin-1 (IL-1) inhibits the follicle-stimulating hormone (FSH)-induced development of luteinizing hormone (LH) receptors and suppresses progesterone secretion in cultured rat granulosa cells. Since activation of adenylate cyclase by FSH is considered to be the primary second messenger system responsible for differentiation of granulosa cells, we examined whether IL-1 could alter the FSH, cholera toxin, or forskolin-induced accumulation of cyclic adenosine 3', 5'-monophosphate (cAMP) from these cells. In addition, we sought to determine if IL-1 could influence differentiation induced by the cAMP analog, 8-bromo cAMP. Cells collected from ovaries of immature, diethylstilbestrol-treated rats were stimulated to differentiate by addition of FSH, cholera toxin, forskolin, or 8-bromo cAMP to the cultures. IL-1 or interleukin-2 (IL-2) was added to some of the tubes, and the primary cultures were incubated for various periods of time. At the end of the culture, the tubes were centrifuged, the medium was saved for progesterone and cAMP radioimmunoassay, and the cells were assayed for specific 125I-human chorionic gonadotropin (hCG) binding to determine the number of LH receptors. In the presence of FSH, IL-1, at a dose as small as 5 ng/ml, but not IL-2, significantly inhibited LH receptor formation and suppressed progesterone secretion in a dose-related manner. IL-1 also significantly suppressed FSH-induced cAMP accumulation after 72 h of incubation but did not appear to do so in a dose-related fashion. In the presence of FSH, IL-1 did not significantly alter the protein content of granulosa cells at the end of culture. During stimulation of granulosa cells with cholera toxin, forskolin, or 8-bromo cAMP, IL-1 significantly reduced LH receptor formation compared to that observed in the absence of IL-1. However, in contrast to IL-1 in the presence of FSH, IL-1 significantly augmented the forskolin-induced secretion of progesterone and accumulation of cAMP after 72 h at subsaturating doses of forskolin. Thus, IL-1 appeared to inhibit forskolin-induced and cholera toxin-induced formation of LH receptors even when cAMP levels were elevated. Similar to forskolin, 8-bromo cAMP-stimulated progesterone secretion was significantly enhanced by IL-1, but LH receptor formation was inhibited. Over a 72-h time course at single doses of FSH or forskolin, IL-1 did not affect cAMP accumulation until 48 h of culture, at which time IL-1 significantly suppressed FSH-induced, but augmented forskolin-induced, accumulation of cAMP.(ABSTRACT TRUNCATED AT 400 WORDS)