Effects of prolactin on the morphology of cultured rat granulosa cells

Morphological changes were correlated with biochemical data induced by prolactin (PRL) in cultured rat granulosa cells from large preovulatory follicles. Biochemical results indicated that PRL exerted a significant dose-dependent inhibition in gonadotrophin-induced secretion of progesterone and 17 beta-oestradiol. PRL alone failed to affect basal steroidogenic secretion. In parallel morphological experiments, using phase-contrast microscopy, untreated and 100 ng/ml PRL-treated cells appeared as a monolayer of flattened, fibroblast-like cells. Upon exposure to 0.4 IU/ml human chorionic gonadotrophin (hCG), aggregates of rounded, epithelioid-shaped cells were formed. The addition of PRL to hCG in the same doses minimized the changes induced by hCG. Similarly, electron microscopy of untreated and PRL-treated cultures revealed flat cells devoid of microvilli, with evenly dispersed microfilaments. The addition of hCG caused rounding of the cells and was accompanied by the appearance of microvilli and by pronounced steroid-producing organelles. Bundles of microfilaments were noted at the cell periphery. PRL added to hCG caused a reduction of the hCG effects, and the cell morphology was intermediate to that seen in untreated and hCG-treated cultures. The finding that PRL can prevent or minimize morphological changes caused by hCG in rat cultured granulosa cells correlates with the biochemical changes induced by PRL, and supports the concept that PRL is a modulator of gonadotrophic action in the ovary.     

Follicular fluid modulation of functional LH receptor induction in pig granulosa cells

Follicular fluid was collected from small (1-2 mm), medium (3-5 mm) and large (6-12 mm) follicles of pigs, treated with charcoal to remove steroids, and tested for effects on the induction of functional LH/hCG receptors in cultures of granulosa cells from small antral pig follicles. Granulosa cells were cultured for 2, 4 or 6 days in Medium 199 + 10% pig serum. Granulosa cells cultured in the presence of purified human FSH (0.1 microgram/ml, LER 8/117), insulin (1 mU/ml), cortisol (0.01 microgram/ml) and thyroxine (10(-7) M) accumulated a 4- to 8-fold increase in LH/hCG receptors compared to control cultures. The amounts of cyclic AMP and progesterone secreted after exposure to ovine LH (1 microgram/ml: NIH-S19) were also increased 2-3-fold and 80-100-fold, respectively. Exposure to FSH alone resulted in lower amounts of LH/hCG receptors with a concomitant decrease in optimum LH responses. Addition of 12.5-50% follicular fluid obtained from small (1-2 mm) follicles led to a dose-dependent inhibition of the FSH plus insulin, cortisol and thyroxine induction of LH/hCG receptors after 4 days of culture. Fluid from medium follicles showed reduced ability to inhibit LH/hCG receptor induction, and fluid from large follicles exerted only a slight inhibition or no inhibition of receptor induction. Fluid from medium-sized and large follicles exerted a progressive dose-dependent stimulation of progesterone secretion by the granulosa cell cultures. The inhibitory activity was precipitated primarily with 70% ethanol and to a lesser degree by 36 and 90% ethanol. These studies demonstrate that induction of functional LH/hCG receptors in cultures of pig granulosa cells from immature follicles is enhanced by including insulin, cortisol and thyroxine, in addition to FSH, in the culture medium, and that follicular fluid modulates both receptor induction and progesterone secretion as a function of follicular maturation.     

Effect of FSH and HCG on progesterone secretion by cultured oocyte-cumulus complexes and granulosa cells from porcine antral follicles: Influence of follicular development

Oocyte-cumulus complexes and granulosa cells were harvested from small (1–2 mm), medium (3–5 mm), and large (6–12 mm) porcine antral follicles and cultured for 2 and 3 days. The effects of various doses of purified hCG and human FSH on progesterone secretion and monolayer formation were examined. After a 2-day culture period it was found that FSH was more effective in stimulation of progesterone secretion by cultured oocyte-cumulus complexes than in granulosa cells harvested from small follicles (P < 0.01), whereas hCG was more effective in stimulating progesterone secretion in granulosa cells than in oocytecumulus complexes harvested from large follicles. In contrast, after a 3-day culture period, granulosa cells secreted more progesterone compared to oocytecumulus complexes under control conditions or in the presence of hCG or FSH. After 3 days both FSH and hCG stimulated progesterone secretion by oocytecumulus complexes and granulosa cells; however, the hormone effect was greater upon granulosa cells than oocyte-cumulus complexes. After 3 days of culture in the case of both follicular cell types, there was a greater response to FSH in the case of cells harvested from small compared to large follicles. The reverse was true in the case of hCG responsiveness. Monolayer formation ability of oocyte-cumulus complexes was greater in the case of complexes harvested from small and medium than complexes harvested from large follicles. Addition of hCG to the cultures led to a dose-dependent decrease in monolayer formation by oocyte-cumulus complexes harvested from all sizes of follicles.     

Secretion of follicle-regulatory protein by porcine granulosa cells

Follicle-regulatory protein (FRP) affects ovarian steroidogenesis and thus follicular maturation. However, secretion of FRP by cells from different-sized follicles as well as the modulation of FRP production by gonadotropins and locally produced steroids are unknown. To evaluate which cell type secretes FRP, theca and granulosa cells were obtained from porcine follicles. In addition, the effects of follicle-stimulating hormone (FSH) and steroids on FRP secretion from granulosa cells of small (less than 3 mm), medium (3-6 mm), and large (greater than 8 mm) porcine follicles and theca cells of large follicles were determined. Granulosa cells were obtained from follicular aspirates, whereas theca cells were recovered after digestion of the stereomicroscopically removed thecal layer. Both were cultured in monolayer in serum-free medium. Granulosa cells were treated as follows: 1) control; 2) FSH (250 ng/ml); 3) progesterone (500 ng/ml, 3 micrograms/ml), or estradiol-17 beta (500 ng/ml, 4 micrograms/ml), or dihydrotestosterone (500 ng/ml, 1 microgram/ml); 4) FSH + progesterone, or estradiol-17 beta, or dihydrotestosterone. Theca cells received the same treatment except that human chorionic gonadotropin (hCG) (5m IU/ml) was used in place of FSH. At 48 or 96 h, media were removed and FRP was quantitated by an Enzyme-Linked Immunosorbent Assay (ELISA). FRP was identified in granulosal medium from follicles of all sizes, but was not present in thecal cultures. At 48 h, granulosa cells from small and medium-sized follicles produced more FRP (20.04 +/- 4.4, 35.42 +/- 4.1 immunoreactive units [IRU]) than cells from large (3.53 +/- 0.97 IRU) follicles.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of rate of change of luteinizing hormone concentration on in-vitro progesterone secretion within rat corpora lutea during differentiation.

Immature rats were injected with pregnant mares' serum gonadotrophin followed by human chorionic gonadotrophin (hCG). Ovaries were removed 0, 2, 5 or 8 days after hCG and either prepared for morphometric analysis or perifused with 0, 5 or 30 ng luteinizing hormone (LH)/min. In a second study, ovaries were removed on Day 2 or 8 and perifused with 0.1 mg 8-br-cyclic adenosine 5'-phosphate/ml (8-br-cAMP). On Day 0, the granulosa cells of the preovulatory follicles were small (53 +/- 0.5 microns2) with a cytoplasmic to nuclear (Cy:Nu) ratio less than or equal to 1.5. By Day 2, corpora lutea (CL) were present and composed of 95% small luteal cells (diameter less than 125 microns2, Cy:Nu greater than or equal to 3.0) and 5% large luteal cells (diameter greater than 125 microns2, Cy:Nu ratio greater than or equal to 3.0). The percentage of large luteal cells increased to 36 +/- 7% by Day 5, suggesting that they are derived from a select population of small luteal cells. Basal progesterone secretion increased from 38 +/- 5 on Day 0 to 1010 +/- 48 pg/mg/ml on Day 8. The rate of 5 ng LH/min stimulated progesterone secretion on Days 0, 2 and 8; 30 ng LH/min stimulated progesterone secretion on Days 0, 2 and 8, but not on Day 5; 8-br-cAMP stimulated progesterone secretion on both Days 2 and 8. These data demonstrate that once granulosa cells are induced to luteinize they lose their capacity to secrete progesterone in response to 5 ng LH/min and do not regain their responsiveness to LH rate until they completely differentiate. The loss of this LH responsiveness appears to be due to an inability to stimulate sufficient intracellular cAMP concentrations, since cAMP stimulates progesterone secretion on both Days 2 and 8.     

Stimulatory action of follicular fluid components on maturation of granulosa cells from small porcine follicles

Follicular fluid obtained from large (6-12 mm) porcine follicles (LFF) was investigated to determine its stimulatory activity on progesterone secretion and on follicle stimulating hormone (FSH) induction of 125I-human chorionic gonadotropin (hCG)-luteinizing hormone (LH) binding sites in porcine granulosa cells in a 4-day culture. Incubation of granulosa cells harvested from small porcine follicles (1-2 mm) with 50% LFF led to stimulation of LH/hCG binding sites and progesterone secretion. After partial purification of pooled LFF or proteins precipitated with 90% ethanol on Sephadex G-100 the greatest stimulatory activity was found in the second protein peak eluted from the column. Chromatography of part of the active fraction on DEAE Sephacel using a continuous gradient of NH4HCO3 yielded seven protein fractions. The second fraction, which eluted early, contained the majority of the stimulatory activity which was purified about 32-fold compared to native LFF. In contrast, addition of follicular fluid recovered from small porcine follicles inhibited FSH induction of LH/hCG binding sites and progesterone secretion. It can be concluded, that maturation of granulosa cells from small follicles may be enhanced by protein(s) present in LFF, but not in fluid recovered from less mature follicles.     

Interleukin-1 alpha increases thecal progesterone production of preovulatory follicles in cyclic hamsters

Adult cyclic hamsters were used to study the effects of interleukin-1 alpha (IL-1 alpha) on in vitro steroidogenesis in preovulatory follicles. IL-1 alpha increased progesterone secretion by preovulatory follicles during a 24-h incubation in RPMI-1640 medium containing hCG (100 mIU/ml) (progesterone levels: 17.5 +/- 2.2 vs. 10.6 +/- 1.9 ng/follicle/ml, p less than 0.05). IL-1 alpha alone had no effect on follicular steroidogenesis. The source of increased progesterone secretion was the thecae (9.8 +/- 1.0 vs. 5.8 +/- 0.4 ng/2 thecae/ml, p less than 0.01) and not the granulosa cells (6.6 +/- 0.2 vs. 6.8 +/- 0.5 ng/20,000 viable granulosa cells/ml). IL-1 alpha also stimulated production of testosterone in thecae of preovulatory follicles. The follicular progesterone increase was dependent on the time of incubation and dose of IL-1 alpha. IL-1 alpha at 5-50 U/ml maximally stimulated progesterone production in the preovulatory follicles, and no significant effect of IL-1 alpha was observed until the 12th hour of incubation. The effects of IL-1 alpha on in vitro steroidogenesis in preantral follicles, experimentally induced atretic preovulatory follicles, and newly formed corpora lutea were examined. IL-1 alpha in the presence of hCG also significantly increased progesterone secretion by atretic preovulatory follicles. In the incubation of preantral follicles or newly formed corpora lutea, however, IL-1 alpha did not alter steroidogenesis. These results indicate that IL-1 alpha stimulates progesterone secretion by preovulatory follicles and that the target tissue for this effect is the thecal layer.(ABSTRACT TRUNCATED AT 250 WORDS)     

Alterations in follicular estradiol and gonadotropin receptors during development of bovine antral follicles

It was hypothesized that growth divergence of dominant and subordinate follicles during Wave 1 and growth termination of the dominant follicle would be associated with changes in the number of gonadotropin receptors on granulosa cells and estradiol in follicular fluid. To test this hypothesis, follicular development of 16 Holstein heifers was monitored by ultrasound, and follicles were collected on Days 2,4,6 and 10 (Day 0 = ovulation). Dominant follicles were compared across days, whereas dominant and largest subordinate follicles were compared on Days 2 and 4 only. The numbers of LH and FSH receptors on the granulosa cells of dominant follicles did not differ significantly over Days 2, 4, 6 and 10. In contrast, concentrations of estradiol in follicular fluid decreased (P < 0.05) from Days 2 to 10 (373 +/- 150 to 42 +/- 12 ng/ml) and concentrations of progesterone in follicular fluid increased (P < 0.05) from Days 2 to 10 (12.2 +/- 2.3 to 24.4 +/- 4.8 ng/ml). Correspondingly, the ratio of estradiol:progesterone in the dominant follicles decreased (P < 0.05) from Days 2 to 10. Comparisons between dominant and subordinate follicles indicated greater (P < 0.05) estradiol concentrations in the dominant follicle on Day 2, but the number of gonadotropin receptors was not different until Day 4. Thus, differences in concentrations of follicular fluid estradiol, but not numbers of granulosa cell gonadotropin receptors, were associated with the early growth divergence of dominant and subordinate follicles (Day 2) and the eventual growth termination of the dominant follicle (Day 10). Late divergence (Day 4) was associated with higher gonadotropin receptor numbers and follicular estradiol concentrations in the dominant than in the subordinate follicles. These results indicate that an increase in estradiol productivity of the selected dominant follicle occurred before an increase in the number of gonadotropin receptors.     

Response of porcine theca and granulosa cells to GH during short-term in vitro culture

In Experiment 1, the influence of exogenous GH on steroid secretion by granulosa and theca interna cells recovered from small (1-3 mm), medium (4-6 mm) and large (8-12 mm) follicles was tested. In the second experiment, theca cells (Tc) and granulosa cells (Gc) obtained from large follicles were cultured separately or in two types, Tc/Gc co-culture, where both types of cells were mixed in one well or Gc and Tc were separated by cell culture membrane inserts. In the third experiment, the influence of GH on the morphology of Gc and Tc cells and activity of Delta(5),3beta-hydroxysteroid dehydrogenase (3beta-HSD) was studied. Cells were grown in the control medium (M199+5% of calf serum) or supplemented with 100 ng/ml GH. Testosterone (10(-7) M) was added as the aromatase substrate to granulosa cells cultures. The media were assayed after 48 h of culture for progesterone and oestradiol by RIA. GH added to the culture media had no effect on oestradiol and progesterone secretion by granulosa cells isolated from small and medium follicles while it stimulated both oestradiol and progesterone secretion by Gc isolated from large preovulatory follicles. A stimulatory effect on oestradiol secretion by Tc isolated from all size follicles was observed. GH did not stimulate progesterone secretion by Tc isolated from small follicles but stimulated progesterone secretion by Tc isolated from medium and large preovulatory follicles. Both co-culture systems exhibited synergistic effect on oestradiol secretion. The stimulatory effect on progesterone secretion under the influence of GH was observed in Gc cultured alone and Tc cultured alone. In contrast, the secretion of progesterone was attenuated in both co-culture systems and the addition of GH further augmented this attenuation. A statistically significant increase in oestradiol secretion was observed in all culture conditions. The addition of GH to the culture medium stimulated the activity of 3beta-HSD compared with the control culture from both types of cells. In conclusion, the present studies indicate that there are direct and follicular development stage dependent actions of GH on steroidogenesis of porcine follicular cells.     

The glycosaminoglycan chondroitin-4-sulfate alters progesterone secretion by porcine granulosa cells

Porcine granulosa cells from small (1-2 mm), medium (3-5 mm), and large (6-12 mm) antral follicles were cultured in monolayer for 2 to 3 days with 0 to 3 mg of chondroitin-4-sulfate (C-4-S)/ml in the presence or absence of 0.5 microgram follicle-stimulating hormone (NIH-FSH-S13)/ml. Testosterone (1.4 microgram/ml) was added to some cultures as substrate for estrogen synthesis. Progesterone and estrogen secreted into the media were measured by radioimmunoassay. Concentrations of C-4-S similar to concentrations of chondroitin sulfates (CS) reported for small antral or atretic follicles inhibited both basal and FSH-stimulated progesterone secretion. Progesterone secretion was not inhibited by C-4-S when pregnenolone was added to the media. Thus 3 beta-hydroxysteroid dehydrogenase activity was not inhibited by C-4-S. Estrogen secretion was also not inhibited by even the highest concentration of C-4-S tested. Testosterone did not influence C-4-S inhibition of progesterone secretion. Granulosa cells from medium-sized follicles were more sensitive to C-4-S than cells from small follicles. Granulosa cells from large follicles were completely resistant to C-4-S inhibition of progesterone secretion. These observations suggest that C-4-S may play a role in altering gonadotrophin-stimulated and basal progesterone secretion in follicles during differentiation of granulosa cells.     

Inhibin production by macaque granulosa cells from pre- and periovulatory follicles: regulation by gonadotropins and prostaglandin E2.

Although inhibin (IN) is secreted by granulosa cells (GC) of preovulatory follicles, the major source of immunoreactive IN circulating during the primate ovarian cycle is the corpus luteum. The aims of this study were (1) to investigate culture conditions for optimal IN production by luteinized GC (LGC) from rhesus monkeys and (2) to compare IN and progesterone (P) production by nonluteinized GC (NGC) and LGC in response to putative agonists. Animals were treated for up to 9 days with human menopausal gonadotropins to promote the development of multiple preovulatory follicles. GC were obtained from large follicles before (NGC) or 27 h after (LGC) an ovulatory injection of hCG. For Aim 1, cells were cultured in Hams F-10 medium +/- hCG (100 ng/ml) with or without the addition of insulin/transferrin/selenium, 10% fetal bovine serum, or 10% Serum-Plus (JRH Biosciences, Lenexa, KS). Medium was changed on Days 1, 2, 4, 6, and 8, and IN and P concentrations were determined by RIA. Basal (unstimulated) IN production by LGC was enhanced and maintained for 6-8 days in the presence of serum, but rapidly declined in the absence of serum. In contrast, basal P secretion declined regardless of exposure to serum. Human CG consistently increased (p less than 0.05) IN production only in the presence of serum but stimulated (p less than 0.05) P production under all conditions. For Aim 2, cells were cultured for 4 days in Ham's F-10 medium + 10% macaque serum +/- hCG (100 ng/ml), hFSH (100 ng/ml), prostaglandin E2(PGE2; 14 microns), or dibutyryl(db)-cAMP (5 mM).(ABSTRACT TRUNCATED AT 250 WORDS)     

Preovulatory biosynthesis and granulosa cell secretion of immunoreactive oxytocin by goat ovaries

Oestrous cycles of goats were synchronized hormonally. Immunoreactive oxytocin was undetectable (less than 0.1 ng/mg protein) in media from granulosa cells isolated before the LH surge for small (1-2 mm), medium (3-5 mm) and large (greater than 5 mm diameter) follicles when cultured for 24 h without or with added hormones. Granulosa cells from large and medium, but not small, follicles isolated 6-12 h after spontaneous preovulatory LH surges secreted high concentrations of oxytocin (4-12 ng/mg protein). Addition of PGE-2 (1 microgram/ml) caused a further significant (P less than 0.05) increase in oxytocin secretion by cultured granulosa cells, whereas PGF-2 alpha, FSH and LH were ineffective when added to culture media. Ovarian venous blood and granulosa cells were collected at 0, 6, 12 or 18 h after GnRH injection in hormonally synchronized goats. Peripheral serum LH values were increased significantly in all but 2 of 22 goats within 2 h of GnRH injection. At the earliest sampling time after GnRH (6 h), ovarian venous levels of oxytocin were increased significantly from basal levels of 0.4 pg/ml to 2.4 pg/ml. Oxytocin concentrations in follicular fluid increased from a basal value of 67 pg/ml to 155 pg/ml by 6 h and to 372 pg/ml by 18 h after GnRH injection. Oxytocin secretion by cultured granulosa cells was not increased significantly by 6 h (0.1 ng/mg protein) but rose to 1.4 and 3.5 ng/mg protein at 12 and 18 h, respectively. Approximately parallel increases occurred in progesterone in ovarian venous blood and granulosa cell culture media over the same time period. (ABSTRACT TRUNCATED AT 250 WORDS)     

Follicular fluid effects on progesterone secretion are not due to follicle-stimulating hormone or steroids

An antiserum raised against porcine follicle-stimulating hormone (FSH) was unable to eliminate the stimulatory action of fluid from large antral porcine follicles on progesterone secretion by granulosa cells from small antral porcine follicles. The same titers of the antiserum were completely effective at eliminating the effect of 2 micrograms of NIH-FSH-P12, whereas maximal stimulation of progesterone secretion was observed with 0.5 micrograms FSH/ml. The androgen and estrogen concentrations measured in charcoal-treated inhibitory follicular fluid from small porcine antral follicles and from stimulatory follicular fluid from large follicles were added separately and together to culture media supplemented with serum to determine if these low concentrations (5 X 10(-11) to 5 X 10(-10) M) of steroids could mimic the actions of follicular fluid on progesterone secretion. Neither the inhibitory nor the stimulatory actions of the follicular fluids could be mimicked by these low concentrations of steroids. Higher concentration of steroids (10(-8) to 10(-7) M range) did stimulate progesterone secretion as reported by others. Our data indicate that the actions of charcoal-treated follicular fluids on granulosa cell progesterone secretion cannot be explained by difference in FSH or steroid contents between the inhibitory and stimulatory fluids and serum.     

Granulosa cells from pig follicles of different sizes demonstrate maturational differences in their steroidogenic responses to FSH, calcium ionophore A23187, and phorbol diester

Cultures of granulosa cells from small (less than 3 mm), medium (3-6 mm), or large (8-10 mm) pig follicles were treated as follows: (1) basal controls, (2) cyclic adenosine 3',5'-monophosphate (cAMP) pathway agonists (pig FSH: 100 ng/ml; forskolin: 10 microM; dibutyryl cAMP; 1 mM), (3) calcium ionophore A23187 (0.005-1 micrograms), or (4) phorbol 12-myristate 13-acetate (TPA; 0.05-4 ng/ml). The combination of A23187 or TPA together with cAMP agonists was also examined in cultures of granulosa cells from follicles of different sizes. All substances were added at the time of culture, and oestradiol and progesterone were measured in the culture media after 48 h. All cAMP agonists were most potent in their stimulation of steroidogenesis (as a % of control) in cells from small follicles (P less than 0.05) with the exception of forskolin, which increased oestradiol in cells from large follicles to a greater extent than in cells of small follicles (P less than 0.05) (cells from medium follicles demonstrated less stimulation than those from small follicles except in progesterone production, for which FSH was equipotent). With the exception of forskolin, however, granulosa from large follicles showed little (oestradiol) or no stimulation (progesterone) with cAMP agonists. Under basal conditions, A23187 inhibited progesterone in all groups (P less than 0.05), and oestradiol production was reduced in granulosa cells from small follicles (P less than 0.05), unchanged in cells from medium follicles, and significantly stimulated in cells from large follicles. A23187 inhibited the enhanced production of both hormones after administration of cAMP agonists from cells of small and medium follicles (P less than 0.05), with inhibition significantly greater in cells of small follicles compared with medium. In cells from large follicles challenged with cAMP agonists, A23187 inhibited progesterone but stimulated oestradiol production; substitution of TPA (a protein kinase C stimulator) for A23187 gave identical results under basal or FSH-treated cultures of granulosa cells from small-, medium- or large-sized follicles. Our results suggest that TPA, A23187 and cAMP agonists modulate steroidogenesis differently in pig granulosa cells, depending on the stage of maturation of the follicle. Oestradiol production in granulosa cells from large preovulatory follicles may come under the stimulatory control of regulators of protein kinase C as in follicles near ovulation.     

Hormonal regulation of progesterone secretion by cultured mouse granulosa cells

Secretion of progesterone by granulosa cells from preovulatory follicles of mice was determined during 2 weeks of cell culture in the presence of androgens, estrogen and pituitary gonadotropins. Androstenedione (10(-7) M) and dihydrotestosterone (10(-7) M) stimulated (P less than 0.05) progesterone secretion during the first 11 days of culture. In contrast, 17 beta-estradiol (10(-11)-10(-7) M) did not alter (P greater than 0.10) progesterone secretion throughout the culture period. Luteinizing hormone (LH) and follicle-stimulating hormone (FSH) stimulated (P less than 0.01) the granulosa cells in a dose-dependent manner during the first few days of culture. This luteotropic effect was rapidly lost and at later times when FSH was not effective, LH suppressed (P less than 0.05) progesterone secretion. In the presence of prolactin (Prl) (1 microgram/ml), granulosa cells progressively secreted more progesterone during the first week of culture. After maximal stimulation on Days 7-9, progesterone secretion by Prl-treated cells began to decline, but the amount of steroid produced on Day 13 was still higher (P less than 0.05) than in control cultures. Androstenedione and Prl gave an additive effect on progesterone secretion during Days 3-5 of culture. Thereafter, the androgen, although stimulatory by itself, did not influence the luteotropic action of Prl. Unlike the early effect of androgens, 17 beta-estradiol acted synergistically with Prl to maintain maximal secretion of progesterone during the last 4 days of culture.(ABSTRACT TRUNCATED AT 250 WORDS)     

In vitro responses of luteinizing rat granulosa cells to human thyroid-stimulating hormone

The effect of human thyroid-stimulating hormone (hTSH) on progesterone (P4) secretion during initial luteinization and subsequent prolactin (Prl)-mediated steroidogenesis by cultured rat granulosa cells was studied. Granulosa cells, obtained from pregnant mare's serum gonadotropin (PMSG)-treated immature female rats, were preincubated for 1, 3, 6, 12, or 24 h in control medium lacking added hormones or in medium containing 1.0 microgram/ml human chorionic gonadotropin (hCG) or hTSH, and maintained subsequently for 6 days in medium containing 1.0 microgram/ml bovine (bPrl). Indices of luteotropic stimulation were provided by: 1) elevated P4 concentrations determined by radioimmunoassay of spent media samples; and 2) cytoplasmic lipid accumulation assessed by osmium tetroxide staining following fixation after 7 days of culture. Progesterone levels in media from cultures exposed to hCG for 24 h were twofold higher than control cultures, whereas those in media from cultures preincubated in hTSH for 24 h were fourfold higher than control levels. Cultures preincubated in 1.0 microgram/ml hCG for as little as 1 h and then maintained for 6 days in Prl secreted significantly more P4 than did control cultures also maintained with Prl for 6 days. Cultures preincubated in hTSH required a 24-h exposure before a significant increase in Prl-mediated P4 secretion was observed. Intensity of cytoplasmic osmiophilia correlated directly with P4 concentration. These results suggest that: 1) hTSH has the ability to promote P4 secretion during initial luteinization and to regulate subsequent Prl-mediated steroidogenesis by cultured rat granulosa cells; and 2) the mechanism by which hTSH stimulates Prl-mediated P4 secretion in this model system may differ from that of hCG.     

Morphological and biochemical characteristics during ovarian follicular development in the pig

Ovaries were recovered from groups of naturally cyclic pigs (N = 5) on each of Days 16, 18, 20 and 21 of the oestrous cycle. Follicular diameter, follicular fluid volume and concentrations of oestradiol, testosterone and progesterone, and granulosa cell number were determined in all follicles greater than or equal to 2 mm in diameter (n = 511). In alternate follicles either granulosa cell aromatase activity and theca testosterone content or 125I-labelled hCG binding to granulosa and theca were determined. The mean total number of follicles recovered per animal decreased as the follicular phase progressed and a strong positive relationship (P less than 0.001) existed between follicular diameter and volume on all days. The number of granulosa cells recovered per follicle was variable, and not related to oestrogenic activity of the follicles. Mean follicular fluid oestradiol, testosterone and 125I-labelled hCG binding all increased until Day 20 and decreased on Day 21, whereas mean theca testosterone content, 125I-labelled hCG binding to theca tissue and aromatase were all maximal on Day 21. On Days 20 and 21 a subset of 14-16 large follicles was readily distinguishable from the remaining smaller, less oestrogenically active population in each animal. Yet, consistently within these subsets there was a difference in follicular diameter of approximately 2.0 mm and also a considerable range of biochemical development even among follicles of equal size. These results indicate asynchrony at the time of recruitment and selection among follicles destined to ovulate and suggest that heterogeneity continues into the immediate preovulatory period.     

FSH and growth factors affect the growth and endocrine function in vitro of granulosa cells of bovine preantral follicles

The hypothesis was tested that bovine preantral follicles can be stimulated to grow in vitro by FSH and by the mitogens, epidermal growth factor (EGF) and basic fibroblast growth factor (bFGF), but not by transforming growth factor-beta (TGFbeta), which generally inhibits EGF and bFGF action. Preantral follicles, 60 to 179 mum in diameter, were isolated from fetal ovaries by treatment with collagenase and DNase and cultured for 6 d in serum-free medium, with or without FSH and growth factors. Basic FGF (50 ng/ml), and to a lesser extent FSH (100 ng/ml) and EGF (50 ng/ml), stimulated thymidine incorporation by granulosa cells in bovine preantral follicles compared to control cultures (8-, 4- and 2.5-fold the labeling index of the controls; P < 0.05). Alone TGFbeta (10 ng/ml) had no effect on (3)H-thymidine incorporation, but it completely inhibited the bFGF- but not the FSH-stimulated increase in the labeling index and mean follicular diameter of preantral follicles (P < 0.05). By the end of the culture period oocytes in most treatments had degenerated, and the few surviving oocytes were in preantral follicles cultured with FSH or bFGF. Progesterone accumulation was greater (P < 0.05) in the presence of FSH (100 ng/ml) or EGF (50 ng/ml) than with bFGF, TGFbeta or control medium. Basic FGF strongly inhibited the effect of FSH on progesterone secretion (P < 0.05). Only FSH stimulated the conversion of exogenous testosterone to estradiol and both bFGF and TGFbeta markedly inhibited FSH-stimulated estradiol accumulation. These results indicate that proliferation of granulosa cells of bovine preantral follicles can be stimulated by bFGF, FSH and EGF, whereas TGFbeta inhibits growth, and that they are steroidogenically active in culture. Basic FGF and TGFbeta antagonize FSH-stimulated steroid production by granulosa cells of cultured bovine preantral follicles.     

Follicle-stimulating hormone regulation of cytochrome P-450 side-chain cleavage messenger ribonucleic acid accumulation by porcine granulosa cells isolated from small and medium follicles

The experiments described here were conducted to examine regulation of cytochrome P-450 side-chain cleavage (SCC) mRNA accumulation in porcine granulosa cells isolated from small (1-4-mm) and medium (5-6-mm) follicles. Granulosa cells were cultured under the following conditions: 1) for 48 h or 96 h with 0, 50, or 200 ng/ml porcine FSH; 2) for 96 h with 200 ng/ml FSH and aminoglutethimide (100 microM); and 3) for 96 h with forskolin (100 microM). Total RNA was extracted and examined by Northern and dot-blot hybridization analysis, and culture media were assayed for progesterone concentration. Northern blot analysis revealed a single band approximately 2.1 kb in size. Accumulation of SCC mRNA by granulosa cells was both FSH dose- and culture time-dependent (p less than 0.05) with maximal increases approximately 4.5 times control levels. Aminoglutethimide reduced progesterone production by about 80% while having no effect on granulosa cell accumulation of SCC mRNA compared to cells stimulated with 200 ng/ml of FSH. Forskolin-treated cells produced significantly more progesterone than did cells treated with FSH, but accumulation of SCC mRNA was similar. In response to FSH, concentration of SCC mRNA did not vary with follicle size, but granulosa cells from small follicles produced significantly more progesterone than did those from medium follicles. These results demonstrate that concentration of SCC mRNA in cultured porcine granulosa cells is FSH dose-dependent, does not vary significantly in cells from small- and medium-sized follicles, and is correlated with progesterone production, but may not parallel progesterone secretion. This last observation indicates that control at sites other than SCC mRNA can affect progesterone production.     

Alteration of follicular steroid secretion and thecal morphology after in-vitro exposure of individual pig follicles to follicle regulatory protein

Medium-sized (4-6 mm) pig follicles were incubated for 10 h and then examined via light microscopy. Treatment with pig FSH resulted in significantly increased concentrations of oestradiol, testosterone, androstenedione and progesterone in the medium. Follicle regulatory protein (FRP) alone (1 micrograms/ml) decreased follicular secretion of oestradiol (56%) and progesterone (53%) but stimulated the secretion of testosterone (226%) and androstenedione (139%). In the presence of 1 ng FSH/ml, the inhibitory effect of FRP on oestradiol secretion was enhanced (74%), progesterone values were unaffected and secretion of testosterone and androstenedione were reduced by 66% and 53%, respectively. All effects of FRP were fully overcome by 1 micrograms FSH/ml. The incidence of atresia, as defined by granulosa cell pycnosis, was similar in all treatment groups (1-3 of 10 follicles per group). The remaining follicles had intact granulosa cells. However, follicles treated with FRP (1 micrograms/ml) + FSH (1 ng/ml) had pycnotic nuclei in the theca interna cells, in the presence of an intact stratum granulosum. External exposure of follicles to FRP may not reflect physiological conditions since, in vivo, thecal pycnosis is never observed before granulosa cell pycnosis. However, the present results indicate that FRP is potentially capable of altering both follicular morphology and steroidogenesis. We suggest that FSH and FRP interact to affect follicular development.