Effects of cytokines on porcine granulosa cell steroidogenesis in vitro

Recent evidence indicates that factors produced by immune cells (cytokines) may play a role in ovarian function. To explore this possibility, we examined the effects of conditioned medium obtained from cultures of either unstimulated splenocytes (splenocyte-conditioned medium; SCM) or concanavalin A-stimulated splenocytes (CAS) on estrogen and progesterone production by porcine granulosa cells. Granulosa cells were obtained from small (less than 3 mm) or large (greater than 7 mm) follicles and treated with increasing doses of SCM or CAS in the presence or absence of pFSH (100 ng/ml) for 24 h at 37 degrees C. In granulosa cells obtained from small follicles it was found that both SCM and CAS evoked a dose-dependent increase in estrogen but not progesterone production. Estrogen production was no further enhanced by the presence of FSH. Additionally, SCM was able to augment FSH-stimulated progesterone production by these cells, whereas CAS had no effect. Identical treatment of granulosa cells obtained from large follicles demonstrated that both SCM and CAS caused dose-dependent increases in estrogen as well as progesterone production. In response to CAS, FSH augmented progesterone production but exerted a biphasic on estrogen production (inhibiting at lower doses while stimulating at higher doses). In contrast, SCM had no effect on FSH-stimulated estrogen production. Additional controls indicated that the above results could not be attributed to either concanavalin A or serum. Taken together, these findings suggest that cytokines can exert significant effects over granulosa cell steroidogenesis and further imply that these factors may play an important role in the differentiation and developmental regulation of granulosa cell function.     

Interactions between androgen and growth factors in granulosa cell subtypes of porcine antral follicles

Androgens acting via the androgen receptor (AR) have been implicated in regulation of folliculogenesis in many animal species. These effects are possibly mediated via enhancement of FSH and/or insulin-like growth factor (IGF)-I activity in granulosa cells, which contain high levels of AR protein. We examined the in vitro effect of dihydrotestosterone (DHT) on DNA synthesis and progesterone secretion by follicular cells in response to FSH and IGF-I, alone or in combination. Cells from separate pools of 1- to 3-mm and 3- to 5-mm antral follicles were aspirated from gilt ovaries and fractioned into mural granulosa cells (MGCs) and cumulus-oocyte complexes (COCs) for subsequent cell culture. Androgen alone or with any combination of mitogen had minimal effect on proliferative and no effect on steroidogenic responses of MGCs from 3- to 5-mm antral follicles. Conversely, in MGCs from 1- to 3-mm follicles, DHT significantly enhanced IFG-I-stimulated proliferation and had variable influence on progesterone secretion. The effects of DHT on proliferative responses of COCs were also dependent on follicle size: DHT significantly augmented either IGF-I-stimulated proliferation (1- to 3-mm follicles) or FSH-stimulated proliferation (3- to 5-mm follicles). However, the steroidogenic responses of all COCs were identical, whereby DHT significantly suppressed progesterone secretion, predominantly in the presence of FSH. Addition of an AR antagonist, hydroxyflutamide, generally reversed the proliferative responses invoked by DHT but not the steroidogenic responses. We conclude that androgen-receptor-mediated activity in granulosa cells of antral follicles is dependent on follicle size, is influenced by proximity of cells to the oocyte, and possibly involves both classic and nonclassic steroid mechanisms.     

Transforming growth factor beta regulates the inhibitory actions of epidermal growth factor during granulosa cell differentiation

The effects of transforming growth factor beta (TGF-beta) on epidermal growth factor (EGF) receptor content and EGF action were studied in cultured granulosa cells from immature diethylstilbestrol-implanted rats. During follicle-stimulating hormone (FSH)-induced differentiation in vitro, EGF receptors increased by 20-fold as measured by the binding of 125I-EGF to the intact cells. Addition of TGF-beta during the 48-h culture period amplified the stimulatory effects of FSH on EGF receptors up to 2-fold, with ED50 and maximal concentrations of 2.5 and 8 pM, respectively. Also TGF-beta alone in amounts from 1.6 to 16 pM increased EGF receptor content 4-fold. The stimulatory effects of TGF-beta were due to increased numbers of EGF receptors/cell, since the growth factor had no effect on the Kd (3-5 X 10(-11) M) of the high-affinity EGF binding site. TGF-beta action was observed within 20 h of granulosa cell culture and was maximal by 48 h of a 96-h culture. The stimulatory actions of TGF-beta in gonadotropin-induced cells were exerted through the cAMP effector system of the granulosa cell, since the growth factor also amplified the induction of EGF receptors by cholera toxin, forskolin, and 8-bromo-cAMP. The augmentation of EGF receptors by TGF-beta resulted in a parallel 2-fold increase in the inhibitory effects of EGF on FSH-induced cAMP production and luteinizing hormone receptor expression during granulosa cell development. TGF-beta did not increase granulosa cell numbers during culture although it elevated [3H]thymidine incorporation into DNA by 2-fold over that of FSH-treated cells. These results indicate that TGF-beta regulates the effects of both FSH and EGF during granulosa cell differentiation and provides evidence that ovarian function may be controlled by the combined actions of gonadotropins and multiple growth factors.     

Synergistic hematopoietic growth factors

A number of growth factors acting on hematopoietic stem cells have now been purified and characterized. These include erythropoietin, granulocyte-macrophage colony-stimulating activity (GM-CSA), granulocyte colony-stimulating activity and colony-stimulating factor-1 (CSF-1). Factors which act in concert with these defined factors and appear to act relatively early in the hematopoietic stem cell lineage are currently under study. Interleukin 3 appears to have both the characteristics of a differentiating hormone and the ability to generate proliferation of relatively early stem cells. Interleukin 3 acts in concert with at least CSF-1 and erythropoietin to enhance their effect on stem cell proliferation and differentiation. A new class of hematopoietic growth factor activities termed synergizing activities also exist. These activities appear to have no intrinsic capacity to stimulate hematopoietic colony formation by themselves but enhance the effects of other differentiating hormones such as GM-CSA and CSF-1. Activities which appear to represent synergizing activities have now been found to evolve from a human bladder carcinoma line, a cell line derived from murine marrow adherent cells and normal murine marrow and thymic cells. These activities may act on very primitive hematopoietic progenitors to allow them to express receptors to various differentiating hormones or alternatively they may act as commitment factors in a commitment-progression model of stem cell regulation.     

Hybrid cytokines as hematopoietic growth factors.

A large body of in vitro and in vivo data suggests that combinations of cytokines provide the most effective mechanism for stimulating multilineage acceleration of hematopoiesis. Creation of a granulocyte-macrophage colony-stimulating factor (GM-CSF)/interleukin 3 (IL-3) fusion protein has yielded a single therapeutic which has enhanced biological activity in comparison to the individual cytokines from which it is composed. In vivo studies with this fusion protein (PIXY321) suggest that it may provide a means to accelerate both neutrophil and platelet recovery in clinical settings in which hematopoiesis is suppressed. The biology of PIXY321 and the potential for other fusion proteins is discussed.     

Androgens augment the mitogenic effects of oocyte-secreted factors and growth differentiation factor 9 on porcine granulosa cells

In this study, we test the hypothesis that the growth-promoting action of androgens on granulosa cells requires paracrine signaling from the oocyte. Mural granulosa cells (MGCs) from small antral (1-3 mm) prepubertal pig follicles were cultured in the presence or absence of denuded oocytes (DO) from the same follicles to determine whether mitogenic and/or steroidogenic responses, to combinations of FSH, insulin-like growth factor 1 (IGF1), and dihydrotestosterone (DHT) were influenced by oocyte-secreted factors (OSFs). To further explore the identity of such factors we performed the same experiments, substituting growth differentiation factor 9 (GDF9), a known OSF, for the DO. OSFs and GDF9 both potently enhanced IGF1-stimulated proliferation, and inhibited FSH-stimulated progesterone secretion. Alone, DHT had little effect on DNA synthesis, but significantly enhanced the mitogenic effects of OSFs or GDF9 in the presence of IGF1. Denuded oocytes, GDF9, and DHT independently inhibited FSH-stimulated progesterone secretion, and androgen, together with DO or GDF9, caused the most potent steroidogenic inhibition. Focusing on mitogenic effects, we demonstrate that both natural androgen receptor (AR) agonists, testosterone and DHT, dose-dependently augmented the mitogenic activity of DO or GDF9. Antiandrogen (hydroxyflutamide) treatment, which is used to block androgen receptor activity, opposed the interaction between androgen and GDF9. In conclusion, androgens stimulate porcine MGC proliferation in vitro by potentiating the growth-promoting effects of oocytes or GDF9, via a mechanism that involves the AR. These signaling pathways are likely to be important regulators of folliculogenesis in vivo, and may contribute to the excess follicle growth that is observed in androgen-treated female animals.     

Anti-apoptotic activity of porcine cFLIP in ovarian granulosa cell lines

In mammalian ovaries, more than 99% of follicles undergo atresia during growth and development. Recently, we found that the expression of cellular FLICE-like inhibitory protein long form (cFLIP(L)) decreased during follicular atresia in granulosa cells of porcine ovaries. In humans and other species, both the short (cFLIP(S)) and long (cFLIP(L)) forms of cFLIP are considered to function as cell survival factors that inhibit death ligand receptor-mediated apoptosis. Since the anti-apoptotic activity of porcine cFLIP (pcFLIP) in granulosa cells had not been determined, we examined the effect of pcFLIP on survival using granulosa-derived cell lines. A human cervix adenocarcinoma cell line, HeLa, human ovarian granulosa tumor cell line, KGN, and porcine granulosa-derived cell line, JC-410, were used. By Western blotting, internal cFLIP(L) was detected in all cell lines, but only trace levels of cFLIP(S) were found in HeLa and KGN cells. To examine the anti-apoptotic activity, pcFLIP(S) or pcFLIP(L) was overexpressed in HeLa and KGN cells. Transfected cells in which pcFLIP(S) or pcFLIP(L) was overexpressed, survived the induction of Fas-mediated apoptosis, while almost all of the cells transfected with empty vector died. Then, we suppressed the expression of porcine cFLIP(S) and/or cFLIP(L) in JC-410 cells using small interfering RNA (siRNA). When both cFLIP(S) and cFLIP(L), or only cFLIP(L) was suppressed, cell viability declined significantly. From the results, we conclude that porcine cFLIP(S) and cFLIP(L) exhibit anti-apoptotic activity in granulosa-derived cells. It was strongly suggested that pcFLIP acts as a survival-promoting factor in granulosa cells and determines whether porcine ovarian follicles survive or undergo atresia.     

Modulation of porcine granulosa cell functions by interleukin-1

Increasing evidence suggests that functions of the immune system and gonads are closely related with each other. In cultures of granulosa and luteal cells, macrophages have been shown to modulate steroidogenic functions. In this paper we present the modulatory effects of interleukin-1, a cytokine produced predominantly by activated macrophages, on gonadotropin-induced differentiation, as well as growth of cultured porcine granulosa cells.     

Ferredoxin and cytochrome P-450scc concentrations in granulosa cells of porcine ovaries during follicular cell growth and luteinization

The concentrations of cytochrome P-450scc and ferredoxin, two of the three proteins which comprise the mitochondrial steroidogenic electron transport chain, were measured in granulosa and luteal cells from porcine ovaries by an immunoblot procedure. During the follicular phase of the ovarian cycle the concentration of cytochrome P-450scc increased 5-fold and ferredoxin increased 3-fold. When the large follicles developed into corpora lutea the cytochrome P-450scc concentration increased a further 7-fold while ferredoxin increased only 3-fold. These changes were coincident with an overall 4-fold increase in the concentration of ferredoxin reductase during follicular cell development and luteinization. Analysis of the data revealed that the concentration of ferredoxin, which shuttles electrons from ferredoxin reductase to cytochrome P-450scc, was always adequate to saturate both the reductase and cytochrome P-450scc. This came about from a co-ordinate increase in the concentration of cytochrome P-450scc and the concentration of ferredoxin minus ferredoxin reductase.     

Synergistic effect of insulin and follicle-stimulating hormone on biochemical and morphological differentiation of porcine granulosa cells in vitro

Insulin and follicle-stimulating hormone (FSH) have been shown to facilitate granulosa cell differentiation in vitro. To gain insight into this process, we evaluated the effects of these hormones, alone and in combination, upon the biochemical parameters of luteinizing hormone/human chorionic gonadotropin (LH/hCG) receptor induction and progesterone secretion concomitantly with morphometric analysis of granulosa cell ultrastructure and LH/hCG receptor distribution by quantitative autoradiography under light microscopy. Granulosa cells isolated from small antral follicles (controls) cultured in the absence of exogenous hormones exhibited few microvilli and gap junctions; the mitochondria, endoplasmic reticulum, and Golgi complex were all poorly developed. Progesterone secretion was negligible and the cells bound little [125I]iodo-hCG. Insulin treatment increased gap junction formation, and the extent of smooth and rough endoplasmic reticulum and Golgi complex development (all p less than 0.05) but did not affect mitochondrial ultrastructure or volume. Insulin treatment modestly but significantly increased [125I]iodo-hCG binding and progesterone secretion relative to controls (p less than 0.001). FSH treatment had a similar effect to insulin on cell ultrastructure and additionally enhanced development of the mitochondria and smooth endoplasmic reticulum as well as formation of the microvilli (p less than 0.05). FSH significantly increased [125I]iodo-hCG binding and progesterone secretion relative to insulin-treated samples (p less than 0.001). Combined treatment with insulin and FSH markedly increased gap junction and microvilli formation and enhanced the development of the smooth endoplasmic reticulum and the Golgi complex relative to treatment with either hormone alone (p less than 0.05). Additionally, the combined treatment produced larger mitochondria with tubular christae. Consistent with the morphological development, the combined treatment of insulin and FSH significantly increased progesterone secretion and [125I]iodo-hCG binding (p less than 0.001). Autoradiographic analysis showed that aggregated cells in general exhibited higher LH/hCG receptor density than nonaggregated cells, and a significantly higher overall receptor density compared to nonaggregated cells or to cells treated either with insulin or FSH alone. Our results indicate that insulin and FSH facilitate morphological differentiation of the granulosa cell in a synergistic manner, stimulating gap junctions and microvilli formation and enhancing development of the mitochondria, endoplasmic reticulum, and Golgi complex.(ABSTRACT TRUNCATED AT 400 WORDS)     

Synergistic action of growth hormone and insulin-like growth factor I (IGF-I) on proliferation and estradiol secretion in porcine granulosa and theca cells cultured alone or in coculture

The effect of growth hormone (GH) on insulin-like growth factor I (IGF-I) secretion and the effects of GH and IGF-I on [(3)H] thymidine incorporation and estradiol (E2) secretion by theca interna (Tc) and granulosa cells (Gc) cultured alone and in coculture were studied in cultured porcine follicular cells, prepared from small (SF), medium (MF) and large (LF) preovulatory follicles. We demonstrated that both Tc and Gc secrete IGF-I and that GH had no effect on IGF-I secretion by Tc but, increased IGF-I secretion by Gc isolated from SF and cultured alone or in coculture. IGF-I stimulated secretion of E2 by all cells, except in Tc derived from SF in which the effect was not statistically significant. The only stimulatory effect of concurrent treatment with GH on E2 secretion was noted in Tc derived from MF. IGF-I increased the [(3)H] thymidine incorporation in all Tc cells but GH did not augment this effect. In Gc, IGF-I stimulated [(3)H] thymidine incorporation in cells derived from SF and MF but not from LF. GH had no stimulatory effect except on Gc derived from LF and grown alone. The highest stimulatory effect was observed in SF. This was smaller in MF and no effect was noted in LF. In conclusion, our work shows that both Gc and Tc are sites of IGF-I production and for the first time shows the stimulatory role of IGF-I in proliferation of Tc cells derived from all types of follicles and augmentation of E2 secretion in Tc derived from MF and LF. The promotion of the mitogenic activity in Tc by IGF-I during all stages of follicular development suggests an important role for theca cells in follicular growth.     

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.     

Reproducibility of serum cytokines and growth factors

Background: In most studies, circulating biomarkers are usually assessed from a single sample, assuming that this single measurement represents the long-term biomarker status of the individual. Such an assumption is rarely tested although it may not be valid for all biomarkers. The objective of this study was to investigate the temporal reproducibility of a panel of cytokines and growth factors. Methods: Thirty-five postmenopausal women with two annual visits and 30 premenopausal women with three annual visits were randomly selected from the participants in an existing prospective cohort. A total of 23 serum cytokines, nine growth factors and C-reactive protein (CRP) were measured using the Luminex xMap? technology. In addition, for eight biomarkers, regular and high sensitivity (hs) assays were compared. Results: The biomarkers with adequate (>60%) detection rates and acceptable (?0.55) intra-class correlation coefficients (ICCs) were: hsIL-1β, IL-1RA, hsIL-2, hsIL-4, hsIL-5, hsIL-6, hsIL-10, IL-12p40, hsIL-12p70, hsTNF-α, TNF-R1, TNF-R2, CRP, HGF, NGF, and EGFR. The remaining biomarkers either had low temporal reproducibility or were undetectable in more than 40% of samples. Conclusions: The results suggest that 16 of the 41 biomarkers measured with Luminex technology showed sufficient sensitivity and temporal reproducibility in sera.     

Effect of intraovarian factors on porcine follicular cells: cumulus expansion, granulosa and cumulus cell progesterone production

The role of granulosa cell conditioned media (CM) containing luteinization stimulator (LS), and the role of EGF in the cumulus expansion of oocyte-cumulus complexes (OCC) isolated from large antral follicles was investigated. The CM were prepared by incubation of granulosa cells isolated from large antral follicles. After 24h incubation, more than 61 or 64% of OCC expanded to the +3 and +4 stage in the presence of CM (50%) or EGF (10ng/ml), respectively. The stimulatory effect of LS and EGF on the cumulus expansion was accompanied by the enhanced hyaluronic acid synthesis. Complete suppression of cumulus expansion stimulated by LS and EGF was observed in the presence of 10 micromol/l genistein (tyrosine kinase inhibitor), in the presence of 10mmol/l LiCl (the inhibitor of inositol 1,4,5-trisphosphate metabolism), and 100 micromol/l gallopamil, verapamil and norverapamil (calcium channel blockers). Stimulatory effect of EGF on the cumulus expansion of OCC isolated from large follicles was accompanied by the increased cumulus cell progesterone production. However, EGF did not affect the progesterone production by OCC isolated from small follicles. To determine whether EGF could modulate the granulosa cell steroidogenesis also, the effect of EGF on granulosa cells isolated from large (LGC) and small (SGC) follicles was compared. EGF (10ng/ml) failed to affect the progesterone synthesis during 72h culture of SGC but significantly enhanced the LGC progesterone production. Our results indicate that luteinization factor stimulates the cumulus expansion and hyaluronic acid synthesis by the OCC isolated from large antral follicles. The mechanism of LS- and EGF-induced cumulus expansion may involve tyrosine kinase activation and calcium mobilization. In addition, these results indicate the different response of porcine cumulus and granulosa cells originating from small and large follicles on the stimulatory effect of EGF.     

Molecular basis underlying functional pleiotropy of cytokines and growth factors.

Cytokines and growth factors play pivotal roles in cell growth, differentiation, and cell survival. Ligand binding to the receptors induces dimerization or oligomerization of the receptors, resulting in the activation of a variety of signal transduction pathways. The interplay among these multiple signals is critically involved in the biological activities of cytokines and growth factors. In this minireview, I discuss two models. One is the "receptor conversion model": The complex of cytokine and its soluble form of receptor acts like a cytokine with novel target specificity. The other is the "orchestrating model": Cytokines can simultaneously generate contradictory signals in the same target cells and the balance of each contradictory signal may determine the final output of cytokine signals to express unified biological activity. These mechanisms are part of the molecular basis underlying functional pleiotropy of cytokines and growth factors.