Fibroblast and epidermal growth factors are mitogenic agents for cultured granulosa cells of rodent, porcine, and human origin.

The mitogenic effects of epidermal growth factor (EGF) and fibroblast growth factor (FGF) on cultured granulosa cells of different species have been analyzed. EGF and FGF are potent mitogenic agents for rabbit, porcine, and human granulosa cell cultures. While guinea pig granulosa cell cultures respond to FGF, they were hardly effected by EGF. Rat granulosa cell cultures did not respond markedly to either EGF or FGF. Our results, therefore, demonstrate that the mitogenic effects of EGF and FGF are not restricted to granulosa cells of bovine origin and, with the exception of rat granulosa cells, cultured granulosa cells responded either to FGF alone or to both EGF and FGF with a marked increase in their rates of proliferation.     

Effects of fibroblast and epidermal growth factors on ovarian cell proliferation in vitro. I. Characterization of the response of granulosa cells to FGF and EGF.

Despite numerous studies on the effects of gonadotropins on ovarian cells in tissue culture, the factors controlling the proliferation of granulosa cells in vitro remain unknown. We have examined the effect of fibroblast growth factor (FGF) and epidermal growth factor (EGF) on granulosa cell proliferation in vitro in an attempt to clarify their possible roles in the control of ovarian development. FGF and EGF both stimulate DNA synthesis in resting populations of granulosa cells. The half-maximal response forthis effect with FGF was observed at 4 X 10(-11)M and with EGF at 1.5 X 10(-13)M. Autoradiography demonstrated that the whole cell population initiated DNA synthesis in the presence of either EGF or FGF, thus precluding an additive effect of the two mitogens. When cells were maintained at low density (100 cells/cm2) in the presence of low serum (1%) they divided with a doubling time of 48-72 h, but addition of either EGF or FGF accelerated their proliferation. The doubling time observed in the presence of FGF was 16 h versus 20 h with EGF and the final cell density reached in the presence of EGF or FGF was 20 times that of cells maintained in the presence of 1% calf serum alone. In the presence of 10% serum, granulosa cells had a doubling time of 24 h and the final density reached was similar to that observed in 1% serum with EGF and FGF. Addition of EGF or FGF to 10% serum resulted in a final density 3 to 4-fold higher than that observed with 10% serum alone. The ultrastructure of the granulosa cells grown in the presence of EGF or FGF was similar to that of cells maintained in the absence of added mitogens. The only marked difference was that cells grown in the presence of FGF or EGF had a high lipid granule content while cells grown in their absence had a low lipid granule content. The effect of various concentrations of FGF and EGF on the proliferation of granulosa cells has been analyzed. The minimal effective dose of EGF was 3 X 10(-14)M and saturation was observed at 3 X 10(-11)M, with a half-maximal response at 6 X 10(-13)M. With FGF the minimal dose stimulating proliferation was 1.5 X 10(-12)M and saturation was achieved at 1.5 X 10(-10)M, with a half-maximal response at 3 X 10(-11)M. Our results show that EGF and FGF are the most potent mitogens ever observed and are mitogenic for granulosa cells at 300 to 3000-fold lower concentrations than for other cell types which have been studied, such as fibroblasts or lens epithelial cells.     

Factors controlling proliferation and progesterone production by bovine granulosa cells in serum-free medium

Bovine granulosa cells seeded in the presence of serum on extracellular matrix-coated dishes proliferate actively when exposed to serum-free medium supplemented with insulin (2 microgram/ml), fibroblast growth factor (FGF, 100 ng/ml), and high density lipoprotein (HDL, 30 microgram protein/ml). The final density of the cultures is 80-120% that of cultures grown in the presence of medium supplemented with optimal concentration (10%) of calf serum. Insulin has the greatest effect on cell proliferation when added alone to serum-free medium, since it induced an increase in cell number that was 35-60% that observed with optimal serum concentration. Somatomedin C can replace insulin when added alone. FGF, epidermal growth factor, or HDL had no significant effect on cell proliferation by themselves. When these factors were added together with insulin, they acted synergistically in stimulating cell proliferation. When cultures were seeded in the total absence of serum, the addition of transferrin (10 microgram/ml) to serum-free medium was required in order for insulin and FGF to be mitogenic. Cultures maintained on extracellular matrix and exposed to serum-free medium alone have a lifespan in culture of 4 generations. Addition of insulin, FGF, and HDL increases the lifespan of the cultures to 12 generations. Bovine granulosa cells, which proliferate in a defined medium, respond to dibutyryl cAMP by releasing progesterone into the medium. Addition of FSH to the defined medium resulted in a 30% decrease in cell proliferation and in a 2.1-fold increase in the amount of progesterone released into the medium in response to dibutyryl cAMP. This release of progesterone reached a level similar to that observed with cultures grown in medium supplemented with optimal concentration of serum and exposed or not to FSH during their growth phase and at confluence. These results demonstrate that bovine granulosa cells can actively proliferate in a serum-free medium and maintain their differentiated function, as indicated by their ability to produce progesterone.     

Patterns of cellular peptide synthesis by cultured bovine granulosa cells

The electrophoretic distribution of the polypeptides synthesized by bovine granulosa cell cultures after metabolic labeling with [35S]methionine has been analyzed by double gel electrophoresis. The fluctuations of 35 polypeptides have been followed as a function of the size of the follicles from which cultures originated, as a function of the cultures' proliferative stage (sparce, actively growing vs. confluent, resting cultures), and finally as a function of whether cells were exposed to either epidermal or fibroblast growth factor. When the patterns of protein synthesis in sparce vs. confluent granulosa cell cultures derived from small-sized follicles were compared, only a few differences were observed. In confluent cultures, 6 new peptides appeared, while 1 peptide present in sparce cultures disappeared. Cultures maintained in the presence of fibroblast or epidermal growth factor synthesized 20 new peptides upon reaching confluence. Among these were the 6 new peptides present in confluent but not in sparse granulosa cell cultures maintained in the absence of growth factors. The changes in protein synthesis observed in cultures grown in the presence of growth factors may reflect their direct effect on the cellular metabolism. A comparison between the protein distribution in cells derived from small- vs. large-sized follicles showed that fewer proteins were ultimately produced at confluence in cells derived from large-size follicles than in cells derived from small-sized follicles. This could be related to the process of cellular differentiation taking place within granulosa cells. The patterns of [35S]methionine-labeled proteins secreted by the granulosa cells into the incubation medium were analyzed and found to be similar regardless of the size of the follicle from which the culture originated. Little similarity between the proteins present in the follicular fluid and the pattern of the labeled proteins secreted into the incubation medium by cultured granulosa cells was observed. Only three proteins were identified which comigrate with proteins present in the follicular fluid. One of these was identified as fibronectin. This raises the possibility that the fibronectin present in the follicular fluid originated from granulosa cells and is not derived from plasma.     

Immunohistochemical localization of epidermal growth factor-like activity in the hamster ovary with a polyclonal antibody.

A polyclonal antibody to murine epidermal growth factor (EGF) was generated in rabbits and characterized by RIA, Western blots, and dot blotting. The antibody detected as little as 0.01 ng of mouse EGF in dot blots at 1:100,000 dilution and 5 pg of EGF in RIA at 1:50,000 dilution; it did not cross-react with transforming growth factor-alpha, insulin-like growth factor, or fibroblast growth factor. Ovarian EGF content peaked (17 +/- 2 pg/nonluteal ovary) on Day 1 (estrus as determined by copious vaginal discharge) and declined by DAy 3 as measured by RIA of immunoaffinity-purified ovarian extract. Frozen sections of hamster ovaries were stained immunohistochemically for EGF using a Zymed kit. Intense red staining specific for EGF was localized only in granulosa cells of small (1-2 layers of granulosa cells) and medium (3-6 layers of granulosa cells) preantral follicles; moderate staining was observed in the granulosa and theca cells of small antral follicles. Staining intensity faded in granulosa and theca cells of large antral follicles, especially on Day 4 (proestrus) and disappeared in pyknotic granulosa cells of atretic follicles. Follicular EGF staining peaked on Days 1 and 2 and thereafter declined to low levels. On Day 2, oocytes of the primordial follicles showed distinct coloration. Sections of Day 2 ovary incubated with preneutralized antibody or normal rabbit IgG did not show any coloration. For intact hamsters, 10 micrograms of follicle-stimulating hormone (FSH), twice daily for Days 1 and 2, intensified EGF staining in granulosa cells compared with corresponding untreated Day 3 hamsters, whereas similar treatment with luteinizing hormone for 2 days expanded the interstitium with localized staining of interstitial cells only around follicles with 2 and 3 layers of granulosa cells and lacking theca. Hypophysectomy for 13 days resulted in almost complete absence of EGF-specific staining in the remaining nonatretic follicles; however, exogenous FSH (5 micrograms, twice daily) for 2 days dramatically increased staining intensity associated with newly developed follicles. Luteinizing hormone (0.4 micrograms, twice daily) for 2 days, however, induced significant development of only the interstitium with increased staining of small preantral follicles. These results provide strong evidence for the presence of EGF-like activity in hamster ovarian follicles and suggest that its expression is controlled by gonadotropins, especially FSH.     

Effects of fibroblast and epidermal growth factors on ovarian cell proliferation in vitro. II. Proliferative response of luteal cells to FGF but not EGF.

The effect of fibroblast growth factor (FGF) and epidermal growth factor (EGF) on luteal cell proliferation in vitro has been examined. Luteal cells maintained in the presence of low serum (1%) go through a doubling after 7 days. Addition of EGF induced one more doubling of the cells, after which the cells became resting. In contrast, FGF induced the cells to divide logarithmically with a cell cycle of 48 h. The effect of FGF was dependent on the serum and FGF concentrations. It has been obtained with serum concentrations ranging from 0.1% to 10% and with FGF concentrations ranging from 0.1 ng to 10 ng/ml. The half-maximal FGF response was observed at 1.5 x 10(-11)M. In contrast, EGF has no effect besides causing an initial cell doubline within the same range of serum or FGF concentrations. Since granulosa cells have been shown to be highly sensitive to EGF as well as FGF, it can be concluded that during the luteinization process that sensitivity of the cells to EGF is lost, while the sensitivity of FGF is retained. This demonstrates that although luteal cells and granulosa cells are interrelated cell types their sensitivity to growth factors such as EGF is quite different.     

Control of proliferation of human fetal adrenal cells in vitro

The influence of fibroblast growth factor (FGF) and epidermal growth factor (EGF) on the proliferation of cultured human fetal adrenal cells has been examined. Separated human definitive zone and fetal zone adrenal cells plated at low density in the presence of 10% serum and maintained on plastic culture dishes proliferated slowly. If the cultures were exposed to either FGF or EGF, the growth rate of the cells from each zone increased significantly. Half-maximal stimulation of cell proliferation for both zones occurred at a concentration of 3 X 10(-11) M for EGF and 8 X 10(-9) M for FGF. In addition, 125I-labeled EGF binding to both definitive and fetal zone cells demonstrated high affinity (Kd = 10(-9) M). To investigate the influence of an extracellular matrix (ECM) on cell proliferation, separated fetal adrenal cells maintained on plastic culture dishes were compared with cells maintained on a recently described ECM prepared from bovine corneal endothelial cells. Fetal adrenal cells maintained on the ECM had a significantly higher growth rate than cells maintained on plastic alone. These results demonstrate 1) the mitogenic role of EGF and FGF for human fetal adrenal cells, and 2) that the type of substrate upon which fetal adrenal cells are maintained has a profound influence on their proliferation.     

LHRH - modulator of progesterone and estradiol secretion by theca and granulosa cells on porcine follicle in mono- and co-culture

Progesterone (P4) and estradiol (E2) secretion by granulosa and theca cells cultured alone or in co-culture under the influence of LHRH was studied. Follicular cells were separated from the follicles of different size: small (1-3 mm), middle (4-6 mm) and large (7-10 mm). The cells were cultured in medium M199 containing 100 ng LH/ml for 30 h. LHRH in a dose of 10[-8] M was added to LH treated cultures after 24 h in culture. Then the cultures were incubated with this hormone during subsequent 6 h. LHRH significantly increased LH-stimulated E2 secretion by granulosa cells (GC) harvested from small and middle follicles, but not from large ones. LHRH had no effect on P4 secretion by granulosa cells alone from small and middle follicles, but it significantly decreased P4 secretion in cultures of granulosa cells harvested from large follicles. In cultures of theca layers (T) alone, decreased secretion of E2 was observed from small follicles only. LHRH had no effect on P4 secretion by theca cell from large follicles cultured alone. However, it markedly increased P4 secretion by T cells from middle follicles and decreased that by theca cells from small follicles. In co-culture of granulosa and theca cells resembling an in vivo follicle, the addition of LHRH to LH stimulated cells harvested from small and middle follicles caused an increase of E2 and decrease of P4 secretion. On the other hand, in co-cultures of cells from large preovulatory follicles, both E2 and P4 secretion was suppressed. It may be concluded that the diverse effects of LHRH (either inhibitory or stimulatory) depend on the degree of follicular maturation.     

Insulin-like growth factor-I stimulates oxytocin and progesterone production by bovine granulosa cells in culture

The effect of insulin-like growth factor-I (IGF-I), epidermal growth factor (EGF), fibroblast growth factor (FGF) and nerve growth factor (NGF) on production of oxytocin and progesterone by cultured bovine granulosa and luteal cells was studied. Secretion of oxytocin was stimulated, in a dose-dependent manner, by IGF-I at 48 and 120 h of culture to levels much higher than those after stimulation with LH, FSH, EGF, FGF or NGF. A similar effect of IGF-I was observed for progesterone but, in contrast to oxytocin, secretion of progesterone was not increased by EGF, NGF or FGF. During primary culture, for 4 h, of dispersed bovine luteal cells obtained from corpora lutea between days 4 and 10 of the oestrous cycle, all the growth factors tested failed to stimulate secretion of oxytocin or progesterone. The data suggest the relevance of growth factors (especially IGF-I) for ovarian physiology and their possible importance for differentiation of follicles and luteinization.     

Hormonal regulation of the growth and steroidogenic function of human granulosa cells.

The aim of this study was to assess development-related interactions between gonadotropins and insulin-like growth factor (IGF-I) on DNA synthesis and steroidogenesis in human granulosa cells. "Immature" granulosa cells were obtained from follicles during the late luteal phase or first half of the follicular phase; "mature" granulosa cells came from follicles during the second half of the follicular phase but before the midcycle LH surge; and granulosa-lutein cells were obtained as a by-product of in vitro fertilization. Granulosa cells were cultured for 96 h in serum-free medium 199 with and without LH or FSH, and in the presence and absence of IGF-I. The cell monolayers were then incubated with [3H]methyl thymidine to assess DNA synthesis. Spent culture medium was assayed for progesterone and estradiol content. Immature granulosa cells: Tritiated thymidine uptake in granulosa cell cultures from immature follicles were significantly increased by IGF-I. FSH was able to maintain or increase basal and IGF-I stimulated growth whereas LH had no effect. Basal progesterone production was low and not increased by either FSH or LH. However, treatment with FSH, but not LH, increased aromatase activity. Mature granulosa cells: IGF-I also stimulated thymidine uptake. However, whereas FSH either maintained or increased thymidine uptake by these cells, LH dose dependently suppressed thymidine uptake. This inhibitory action of LH was accentuated by the presence of IGF-I. Despite the inhibitory effect of LH on thymidine uptake, the gonadotropin markedly stimulated steroid production and the maximal steroidogenic response to LH was equivalent to 3-fold greater than that to FSH. Granulosa-lutein cells: Patterns of basal and IGF-I- and gonadotropin-stimulated steroid synthesis were similar to those observed for mature granulosa cells but steroid production rates were higher. Suppression of basal and IGF-I-stimulated thymidine uptake by LH was even more pronounced. These results suggest that the granulosa cell LH receptor, once expressed, negatively regulates cell growth and, simultaneously, positively regulates steroid synthesis. This development related event could be crucial to the mechanism whereby granulosa cells cease to divide and commence maximal rates of steroid synthesis in response to the LH surge.     

Production of insulin-like growth factor binding proteins (IGFBPs) by porcine granulosa cells: identification of IGFBP-2 and -3 and regulation by hormones and growth factors.

Using ligand blotting and immunoprecipitation we have characterized the insulin like growth factor binding proteins (IGFBPs) produced by cultured porcine granulosa cells. Ligand blot analysis of granulosa cell conditioned medium revealed 5 bands of IGF binding activity with apparent molecular sizes of 44, 40, 34, 29, and 22 kilodaltons (kDa). The 40-44 kDa bands of granulosa- conditioned medium were identified by immunoprecipitation with an antibody to porcine IGFBP-3, the acid-stable subunit of the 150 kDa GH-dependent serum IGFBP complex. The 34 kDa band was immunoprecipitated by an antibody to the rat IGFBP-2, the major IGFBP found in fetal rat serum and in BRL-3A cell cultures. To date we have been unable to immunoprecipitate the 29 and 22 kDa bands with any of the antibodies tested including a panel of monoclonal antibodies to human IGFBP-1, the amniotic fluid IGFBP. The pattern of secretion varied with size of the follicles from which granulosa cells were obtained and the culture conditions. With cells from small (2-4 mm) follicles, short term cultures secreted mainly IGFBP-3 and IGFBP-2, while IGFBP-2 and the 29 and 22 kDa bands were pronounced in longer term cultures. In short term culture, granulosa cells from medium sized (4-6 mm) porcine follicles produced IGFBPs in substantially greater amounts than did those from small (1-3 mm) follicles, but exhibited comparable band patterns. The production of IGFBPs was inhibited by cycloheximide. IGFBP production by granulosa cells in culture was regulated by hormones and growth factors. The most striking effects were the inhibition of IGFBP-3 secretion by transforming growth factor beta and FSH. In contrast, IGFBP-3 levels were enhanced by epidermal growth factor. The IGFBPs produced by cultured porcine granulosa cells are identical in size and immunoreactivity to those previously found in porcine follicular fluid. Thus, follicular cells may be the source of follicular fluid IGFBPs. The IGFBPs may be important modulators of the IGF autocrine/paracrine system in the ovary.     

The production of transforming growth factor-beta in the porcine ovary and its secretion in vitro

Porcine granulosa cells isolated from small (1-3 mm in diameter) follicles proliferate rapidly in culture in response to 10% fetal bovine serum (FBS) and epidermal growth factor (EGF) (10 ng/ml). Transforming growth factor-beta (TGF beta) inhibits FBS/EGF-stimulated proliferation in a dose-dependent manner. We have used this proliferation inhibitory property of TGF beta to assay qualitatively, the presence of this growth factor in conditioned medium from cultured follicle cells as well as in partially purified preparations from porcine ovarian compartments. In addition, the concentration of TGF beta in the theca cell conditioned medium was quantitatively estimated by generating a TGF beta-dose-response curve (inhibition of FBS/EGF-stimulated proliferation of granulosa cells in monolayer culture) using authentic human TGF beta-1. Ovarian thecal cells isolated from small and large size follicles in the pig ovary secrete TGF beta-like activity in vitro. Medium conditioned by thecal cells in primary monolayer culture contains a latent form of TGF beta which can be activated by heat or acid treatment. In contrast, and unlike rat granulosa cells, porcine granulosa cells in primary monolayer culture do not secrete detectable levels of TGF beta-like activity in the medium. Incubation of heat-activated thecal cell conditioned medium with a TGF beta-neutralizing antibody (which recognizes TGF beta-1 and 2) but not nonimmune serum attenuated the TGF beta-like activity in thecal cell conditioned medium suggesting that this activity is due to authentic TGF beta. Since many cell types secrete latent TGF beta in the medium when cultured in vitro, we next investigated whether thecal cell secretion of latent TGF beta was a function of cell culture or whether the ovarian thecal compartment actually contained detectable levels of TGF beta-like activity. To this end, we used an acid-ethanol extraction procedure to isolate thecal proteins from fresh-frozen tissue. The acid-ethanol extracted protein fraction was mixed with trace amounts of 125I-TGF beta for detection and chromatographed on Bio-Gel P-60 column under acidic conditions. Elution of TGF beta bioactivity from the Bio-Gel P-60 column as measured by inhibition of granulosa cell proliferation correlated with the elution of radioiodinated authentic TGF beta. Preincubation of TGF beta-like activity-containing fractions with TGF beta-neutralizing antibody attenuated the proliferation-inhibitory activity in these fractions. TGF beta activity was also observed in fractions extracted from porcine corpora lutea.(ABSTRACT TRUNCATED AT 400 WORDS)     

Expression and effect of fibroblast growth factor 9 in bovine theca cells

Fibroblast growth factor 9 (FGF9) protein affects granulosa cell (GC) function but is mostly localized to theca cell (TC) and stromal cell of rat ovaries. The objectives of this study were to determine the 1) effects of FGF9 on TC steroidogenesis, gene expression, and cell proliferation; 2) mechanism of action of FGF9 on TCs; and 3) hormonal control of FGF9 mRNA expression in TCs. Bovine ovaries were collected from a local slaughterhouse and TCs were collected from large (8-22?mm) follicles and treated with various hormones in serum-free medium for 24 or 48?h. FGF9 caused a dose-dependent inhibition (P<0.05) of LH- and LH+IGF1-induced androstenedione and progesterone production. Also, FGF9 inhibited (P<0.05) LH+IGF1-induced expression of LHCGR, CYP11A1, and CYP17A1 mRNA (via real-time RT-PCR) in TCs. FGF9 had no effect (P>0.10) on STAR mRNA abundance. Furthermore, FGF9 inhibited dibutyryl cAMP-induced progesterone and androstenedione production in LH+IGF1-treated TCs. By contrast, FGF9 increased (P<0.05) the number of bovine TCs. Abundance of FGF9 mRNA in GCs and TCs was several-fold greater (P<0.05) in small (1-5?mm) vs large follicles. Tumor necrosis factor α and WNT5A increased (P<0.05) abundance of FGF9 mRNA in TCs. In summary, expression of FGF9 mRNA in TCs is developmentally and hormonally regulated. FGF9 may act as an autocrine regulator of ovarian function in cattle by slowing TC differentiation via inhibiting LH+IGF1 action via decreasing gonadotropin receptors and the cAMP signaling cascade while stimulating proliferation of TCs.     

Control of bovine adrenal cortical cell proliferation by fibroblast growth factor. Lack of effect of epidermal growth factor.

Primary functional bovine adrenal cortical cell cultures have been developed to study the factors controlling adrenal cell growth. Cells were prepared by the collagenase technique and maintained in F-12 medium containing fetal calf serum and horse serum. Cells contained abundant lipid as demonstrated by staining with Oil Red O and showed strongly positive staining for delta5,3beta-hydroxysteroid dehydrogenase. ACTH inhibited DNA synthesis and stimulated steriodogenesis in these cells. Fibroblast growth factor (FGF) was shown to be a potent stimulator of the growth of normal bovine adrenal cortical cells maintained in tissue culture. The minimal effective dose of FGF was 1 ng/ml with maximal effects being observed at 100 ng/ml. The effect of FGF was dependent on the serum concentration. Inclusion of FGF in F-12 medium containing serum permitted cloning of functional bovine adrenal cortical cells from cultures seeded at low density (4 cells/cm2). ACTH inhibited the mitogenic effects of FGF. In addition to its mitogenic action, FGF is a migratory factor for bovine adrenal cortical cells. Though ACTH inhibited the mitogenic effects of FGF, it did not block the migratory activity. Epidermal growth factor did not affect the growth of either normal bovine adrenal or functional mouse adrenal tumor cells (Y-1) in tissue culture. FGF is the first direct mitogen identified for adrenal cortical cells; ACTH opposes this mitogenic action and functions directly as a differentiate function signal.     

Interleukin-2 affects steroidogenesis and numbers of bovine ovarian granulosa cells but not thecal cellsin vitro

The effect of recombinant bovine interleukin-2 (IL-2) on steroidogenesis and numbers of bovine ovarian granulosa and thecal cells has been studied. Granulosa cells have been examined from both small (surface diameter ≤5 mm) and large (≥8 mm) follicles, whereas thecal cells from only large follicles were utilized. Estradiol and progesterone production per cell by granulosa cells from large follicles was 2- to 3-times greater than those from small follicles. Increasing doses of IL-2 significantly attenuated FSH-induced estradiol production by cells from small follicles but not large follicles. In general, progesterone production per cell by granulosa cells was almost double that of thecal cells. Moreover, IL-2 significantly attenuated FSH-induced progesterone production by granulosa cells from small and large follicles but had no effect on LH-induced progesterone or and-rostenedione production by thecal cells. Co-treatment of TNFα with IL-2 enhanced the responsiveness of granulosa cells to IL-2. The effect of IL-2 on the numbers of granulosa and thecal cells were studied independently under serum-free conditions and media enriched with 10% fetal calf serum. In serum-free medium containing insulin, IL-2 dosage significantly increased numbers of granulosa cells from large follicles, whereas IL-2 had no effect on numbers of granulosa cells from small follicles or thecal cells from large follicles. When cells were grown in medium enriched with serum, increasing doses of IL-2 significantly inhibited numbers without affecting viability of granulosa cells from small follicles, but had no effect on numbers of thecal cells. Thus, it appears that granulosa cells are more sensitive to IL-2 than are thecal cells. Approved for publication by the Director, Oklahoma Agriculture Experiment Station. This research was supported in part under project H-2088.     

Follicular fluid stimulation of steroidogenesis in immature granulosa cells in vitro.

Granulosa cells from small (1-2 mm) immature porcine follicles were cultured in monolayer in culture media composed of equal parts of culture medium 199 and either (a) fluid from small follicles, (b) fluid from large (6-12 mm) follicles or (c) adult female porcine serum for 6 days, with or without 100 ng LH and/or 2 microgram FSH/ml. Both basal and gonadotrophin-stimulated progesterone secretion were greater in the presence of fluid from large follicles than in serum, for all 6 days. After 4 days of culture, fluid from small follicles enhanced gonadotrophin-stimulated progesterone secretion over that occurring in serum, but to a lesser extent than fluid from large follicles. These studies suggest the presence of a maturation stimulating molecule(s) in follicular fluid which increases in activity or concentration as the follicles enlarge. This factor may be essential for normal granulosa cell maturation in vivo.     

Role of the degradation process in the mitogenic effect of epidermal growth factor

The protease inhibitor leupeptin inhibits the degradation process of ¹²⁵I-labeled epidermal growth factor (¹²⁵I-EGF) by cultured bovine granulosa cells. At 80 μg/ml, leupeptin inhibited the appearance of degradation products of ¹²⁵I-EGF in the medium by 95% during 1 hr of incubation and by 90% during 24 hr of incubation when the cells were exposed to 5 ng of ¹²⁵I-EGF per ml. In contrast, cultures exposed to either saturating (10 ng/ml) or nonsaturating (0.1 ng/ml) concentrations of EGF in the presence of leupeptin (80 μg/ml) exhibited an increase in DNA synthesis that was 70-80% that of cultures exposed to EGF alone. Cultures responded to either EGF or fibroblast growth factor with a logarithmic increase in cell number and, over a period of 8 days, the number of cells increased 10- to 18-fold. Addition of leupeptin did not diminish the growth rate of the cultures. In the presence of leupeptin, ¹²⁵I-EGF accumulated within the granulosa cells and was in a form that was precipitable with antiserum against EGF and that comigrated on isoelectric focusing with native ¹²⁵I-EGF. That a full mitogenic response can be obtained despite a 90-95% inhibition of EGF degradation at either saturating or nonsaturating concentrations of the mitogen suggests that a proteolytic degradation of a given mitogen may not be involved in the induction of a proliferative response.     

Epidermal growth factor in small antral ovarian follicles of pregnant women

Levels of epidermal growth factor (EGF) and steroids were measured by radioimmunoassay in follicular fluid (FF) aspirated from 114 small antral follicles with diameters from 1 to 6 mm and in serum from 19 women undergoing Caesarean section at term. Concentrations of EGF in FF were inversely and significantly correlated to follicular size, being 4.7 +/- 0.4 (mean +/- S.E.M.) nmol/l in follicles of 1-2 mm in diameter and declining to 2.2 +/- 0.2 and 1.4 +/- 0.2 nmol/l in follicles of 3-4 mm and 5-6 mm in diameter respectively. The mean +/- S.E.M. concentration of EGF in serum (0.7 +/- 0.03 nmol/l) was significantly lower than that in FF. Levels of EGF, progesterone and oestradiol in FF were not significantly correlated to one another. In contrast to EGF, levels of progesterone and oestradiol in FF did not vary significantly with follicular diameter in these small follicles. On the basis of these results we suggest that EGF is synthesized in small human antral follicles, and that EGF stimulates granulosa cell proliferation and follicle growth up to 6 mm in diameter. Furthermore, the high intrafollicular levels of EGF may protect the small follicles against untimely effects of high levels of FSH, for instance during the mid-cycle surge of gonadotrophins. It is concluded that EGF plays an important role as an autocrine and/or paracrine regulator of development of small antral follicles in women.     

Rat thecal/interstitial cells produce a mitogenic activity that promotes the growth of granulosa cells

To test the hypothesis that the cells outside the basal lamina of the follicle secrete paracrine factors that influence the cells on the inside of the follicle, two ovarian cell populations were obtained from diethylstilbestrol-treated rats. Granulosa cells were obtained by extrusion from the follicles and an ovarian cell preparation, termed thecal/interstitial, was derived from the granulosa cell-depleted ovaries. Light microscopy showed that each cell population in culture had distinctive morphologies. Electrophoretic examination of the radiolabeled proteins secreted by the two ovarian cell preparations revealed that each secreted unique protein components into the culture medium. Rat thecal/interstitial cell-conditioned medium promoted [3H]thymidine incorporation into normal rat kidney cell line (NRK) DNA and into bovine granulosa cell DNA. The growth-promoting activity was stable to heating at 70 degrees C for 5 min whereas native fibroblast growth factor (FGF) lost its activity, showing that the factor was not characteristic of FGF. To further characterize the growth-promoting activity thecal/interstitial cell-conditioned medium was concentrated and the proteins separated by size exclusion high performance liquid chromatography. The growth-promoting activity eluted with an apparent molecular weight between 15,000 and 25,000. The finding that thecal/interstitial cells in culture secrete growth-promoting factors suggests that those cells that are in close proximity to the granulosa cells may secrete protein factors that diffuse into the follicular antrum and influence granulosa cell proliferation.     

Factors influencing follicle-stimulating hormone-responsive steroidogenesis in marmoset granulosa cells: effects of androgens and the stage of follicular maturity

Preovulatory changes in the steroidogenic function of primate granulosa cells were studied using the cyclic marmoset (Callithrix jacchus) as a model. Antral follicles (greater than or equal to 0.5 mm diameter) were dissected from mid-late follicular phase ovaries (7 days after prostaglandin-induced luteolysis) and classified by diameter as small (0.5-1.0 mm), medium (1.1-1.9 mm) or large (greater than or equal to 2.0 mm). Granulosa cells from follicles in each size category were isolated and pooled to assess steroid biosynthesis. The aromatase activity of freshly isolated granulosa cells from large follicles was 200 times greater than that of small follicles, confirming their relatively advanced preovulatory status. Granulosa cells were cultured for 48 h in the presence and absence of human (h) FSH (0.1 ng/ml), with and without 0.1 microM androgen (testosterone or 5 alpha-dihydrotestosterone), to assess basal and hormone-responsive steroidogenesis (progesterone accumulation in culture medium and aromatase activity in washed granulosa cell monolayers). Basal granulosa cell steroidogenesis increased with follicular size, and there was a development-related pattern of response to hFSH and androgen. hFSH responsiveness (maximum fold-stimulation induced by hFSH) declined with follicular size, being 2-6 times greater for granulosa cells from small vs. large follicles. On the other hand, hFSH sensitivity increased with follicular size; the dose of hFSH giving 50% of the maximum response (ED50) for cells from large follicles being 10-20 times less than that of cells from small follicles. For granulosa cells from small follicles, treatment with 0.1 microM androgen in the presence of hFSH led to dramatic (up to 16-fold) enhancement of steroidogenic responses to hFSH. In contrast, for granulosa cells from large follicles, the presence of androgen substantially inhibited aromatase activity stimulated by hFSH and had weak inhibitory effects on progesterone accumulation. These results show that granulosa cell steroidogenesis becomes increasingly sensitive to hFSH during preovulatory follicular development in marmosets. The marked ability of androgen to directly augment hFSH-responsive steroidogenesis in vitro is lost during preovulatory development, such that androgen acts in mature granulosa cells to suppress hFSH-stimulated aromatase activity. These observations are evidence of development-dependent changes in granulosa cell responses to FSH and androgens which may contribute to the control of preovulatory follicular development in primates.