Estrogen regulation of thecal cell steroidogenesis and differentiation: thecal cell-granulosa cell interactions

Estrogen regulation of thecal cell steroidogenesis and differentiation was investigated with cells from ovarian antral follicles. Bovine theca interna cells were isolated and cultured in serum-free conditions to evaluate the effects of estradiol on thecal cell production of androstenedione, testosterone, and progesterone. Estradiol increased thecal cell androgen production throughout a 6-day culture period; however, the basal and stimulated levels of androgen production diminished after day 3 of culture. Androstenedione accumulation was approximately 10-fold greater than that of testosterone. In contrast to the stimulatory effects that estradiol had on androgen production, estradiol suppressed progesterone production throughout the 6-day culture period. Comparison of the effects of estradiol and hCG on thecal cells from small (less than 5 mm), medium (5-10 mm), and large (greater than 10 mm) antral follicles demonstrated that estradiol stimulated androgen production to a greater extent than hCG with cells from all of these stages of follicle development. Estradiol stimulation of androstenedione was greater in theca from small follicles than in theca from medium or large follicles. In contrast, suppressive effects of estradiol on progesterone were most apparent on thecal cells from medium and large follicles and less apparent on theca from small follicles. Estradiol stimulated androstenedione production in a dose-dependent fashion, with a minimum effective concentration of 10(-9) M and a maximum effective concentration of 10(-7)-10(-6) M. Concentrations greater than 10(-6) M estradiol resulted in a decline in the stimulatory response and may be important in the preovulatory follicle to suppress thecal cell androgen production and initiate the process of luteinization. Progesterone production was slightly stimulated by 10(-9) M estradiol, whereas higher concentrations (10(-7)-5 x 10(-6) M) resulted in a dose-dependent suppression of progesterone production. Interestingly, combined treatment of thecal cells with estradiol and hCG resulted in a greater than additive stimulation of androstenedione production, and estradiol decreased the ability of hCG to stimulate progesterone production. Observations demonstrate that estradiol can dramatically alter thecal cell production of steroids and support a hypothesis that steroid-mediated interactions between granulosa and thecal cells play an important role in regulating cellular function within follicles. The data provide evidence that a local feedback loop may exist in ovarian follicles, where androgens produced by thecal cells are used as a substrate for granulosa cell aromatization into estrogens, which, in turn, may feed back to stimulate thecal cell production of androgens.(ABSTRACT TRUNCATED AT 400 WORDS)     

Developmental changes in luteinizing hormone/human chorionic gonadotropin steroidogenic responsiveness in marmoset granulosa cells: effects of follicle-stimulating hormone and androgens

Factors regulating LH/hCG responsiveness in primate granulosa cells were examined in the marmoset monkey (Callithrix jacchus). Granulosa cells were isolated and pooled from small antral (0.5-1.0 mm) and large preovulatory (greater than or equal to 2 mm) follicles from mid- to late follicular phase ovaries of cyclic marmosets. The cells from small and large follicles were cultured in serum-free medium for 48 h in the absence or presence of increasing concentrations of hCG (0.1-100 ng/ml) with or without 0.1 microM androgen [testosterone or 5 alpha-dihydrotestosterone (DHT]). Granulosa cells from small follicles were also cultured in the absence or presence of a constant concentration of human FSH (30 ng/ml) with or without androgen for 48 h before exposure to hCG for an additional 48 h. Steroidogenic responsiveness was assessed by measuring progesterone accumulation in culture medium and aromatase activity in washed monolayers. Granulosa cells from large follicles showed dose-dependent increases in both progesterone accumulation and aromatase activity in response to treatment with hCG. In contrast, granulosa cells from small follicles were unresponsive to hCG. However, pretreatment of granulosa cells from small follicles for 48 h with FSH stimulated hCG responsiveness. The effects of both testosterone and DHT on hCG-stimulated aromatase activity and progesterone accumulation by granulosa cells from large preovulatory follicles were inhibitory. Testosterone and DHT also suppressed basal (no hCG) progesterone accumulation in these cells, but had no effect on basal aromatase activity. The effects of androgens on FSH-induced hCG responsiveness in immature granulosa cells were variable. The results show a development-related increase in marmoset granulosa cell responsiveness to LH/hCG and provide evidence that FSH and androgens interact to regulate the onset and expression of this critical event during preovulatory follicular development in the primate ovary.     

Transforming growth factor-alpha and -beta differentially regulate growth and steroidogenesis of bovine thecal cells during antral follicle development

The actions and interactions of transforming growth factor-alpha (TGF alpha) and TGF beta on growth and differentiation of bovine thecal cells were investigated. Bovine thecal interna cells were isolated from small (less than 5 mm), medium (5-10 mm), and large (greater than 10 mm) antral follicles and cultured in the presence or absence of TGF alpha and/or TGF beta. Both [3H]thymidine incorporation and changes in cell number (i.e. DNA levels) were evaluated to determine effects on thecal cell growth. Short term treatment of cells with TGF alpha (18-24 h) stimulated thymidine incorporation, and longer term treatments (4 days) increased cell number. TGF beta suppressed thymidine incorporation below that observed in untreated cultures, but had no effect on cell number. When combined with TGF alpha, TGF beta suppressed the ability of TGF alpha to stimulate thymidine incorporation and increase cell number. The response to these growth factors was similar for cells isolated from the different stages of antral follicle development. The effects of TGF alpha and TGF beta on thecal cell differentiation were evaluated by quantitating changes in androstenedione and progesterone accumulation in cultures treated with TGFs in the absence (basal) or presence of hCG, estradiol (E2), or a combination of hCG and E2. E2 and hCG were included in this study because previous research has demonstrated that these hormones alter thecal cell steroidogenesis. Treatment with TGF alpha resulted in a suppression of basal and hormonally stimulated accumulation of androstenedione during days 0-3 of culture, whereas TGF beta did not significantly alter androstenedione accumulation. TGF alpha also suppressed progesterone accumulation during days 0-3 of culture in the absence or presence of hormones. In contrast, TGF beta stimulated accumulation of progesterone in cultures that did not contain E2, which suppressed progesterone during this period. Therefore, during days 0-3 of culture, TGF alpha appears to have suppressive effects on androstenedione and progesterone production, whereas TGF beta can stimulate progesterone production in the absence of E2. During days 3-6 of culture, thecal cell differentiation changes, and the capacity to produce androstenedione dramatically declines, while the capacity to produce progesterone increases. During this period, either TGF alpha or TGF beta slightly increased basal progesterone accumulation and partially suppressed the ability of hCG to stimulate progesterone. The effects of TGFs on thecal cell steroidogenesis were similar with cells isolated from the different stages of antral follicle development. Results from these studies provide evidence that THF alpha and TGF beta can modulate thecal cell growth and differentiation (i.e. steroidogenesis).(ABSTRACT TRUNCATED AT 400 WORDS)     

Granulosa and thecal cells from human ovarian follicles under growth: steroid formation in vitro and responsiveness to human chorionic gonadotropin

In order to characterize the patterns of steroid production and gonadotropin responsiveness in growing human follicles, follicular thecal and granulosa cells were incubated for two hours in the presence or absence of human chorionic gonadotropin (hCG). After incubation, tissue cyclic AMP (cAMP) levels and medium content of progesterone (P), androstenedione (A) and estradiol-17 beta (E) were determined. A was the dominant steroid formed by the thecal cells, regardless if these were derived from small (diameter: 4-7.5 mm) or from large (diameter: 8-15 mm) follicles. Granulosa cells from small follicles formed minimal amounts of all steroids measured, while granulosa cells from large follicles produced considerable amounts of E in vitro. Thecal cells from both small and large follicles increased their production of cAMP in the presence of hCG. Steroid formation was significantly increased by hCG in thecal cells from large follicles only. Granulosa cells from large follicles responded to hCG in vitro with increased cAMP and steroid formation, while granulosa cells from small follicles appeared insensitive to hCG in vitro.     

Porcine granulosa and cumulus cell properties. LH/hCG receptors, ability to secrete progesterone and ability to respond to LH

In order to compare the properties of isolated cumulus and granulosa cells, granulosa cells and cumulus cells surrounding oocytes were harvested from small (1-2 mm), medium (3-5 mm) and large (6-12 mm) porcine antral follicles and the number of LH/hCG receptors was measured by the binding of [125I]hCG. The ability of the cells to secrete progesterone in culture was examined in the presence and absence of hCG and LH. In 3 separate experiments of 1-h incubations at 37 degrees C using cells harvested from medium-sized follicles, granulosa cells bound 10--15-fold more iodinated hCG than an equivalent number of cumulus cells. During a 2-day culture period, cumulus cells secreted less progesterone than granulosa cells from medium- and large-sized antral follicles (p less than 0.01). The potential of both cumulus and granulosa cells to secrete progesterone in culture increased as the follicle progressed from small to large size. Also, the ability of the oocyte to mature in culture increased with antral follicle size. Concurrently the ability of cumulus-oocyte complexes to form monolayers in culture decreased as the follicle matured. Cumulus and granulosa cells harvested from small- and medium-sized follicles responded similarly to LH and hCG with a stimulation in progesterone secretion after 2-6 days in culture.     

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.     

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.     

Short term androgen production by rat ovarian follicles and long term steroidogenesis by thecal explants in culture

To characterize the aromatizable and 5 alpha-reduced androgens produced by developing ovarian follicles, small antral (SA) and preovulatory (PO) follicles, theca and granulosa cells were incubated for 4 h with or without 8-bromo-cAMP and androstenedione. In addition, thecal explants were cultured for 10 days with or without ovine LH (oLH) to determine if the hormone-induced changes in androgen synthesis by developing follicles could be mimicked in vitro. Short term incubations of SA and PO follicles, theca and granulosa cells in medium alone resulted in limited accumulation of androgen [testosterone, 5 alpha-androstan-17 beta-ol-3-one (DHT), 5 alpha-androstan-3 alpha, 17 beta-diol (3 alpha diol), and androsterone], as determined by RIA. In the presence of 8-bromo-cAMP, PO follicles produced large quantities of testosterone (3 ng), DHT (1 ng), 3 alpha diol (15 ng), and androsterone (14 ng), while SA follicles accumulated much less androgen (0.69, 0.05, 1.23, and 1.3 ng, respectively). In the presence of androstenedione and 8-bromo-cAMP, both SA and PO follicles and theca produced large amounts of aromatizable and 5 alpha-reduced androgens. SA and PO granulosa cells required the presence of the substrate androstenedione to produce androgens, primarily testosterone and 3 alpha diol. Therefore, progesterone, androstenedione, and 5 alpha-reduced androgens were used to monitor LH action on thecal cell function in culture. Small antral theca cultured in basic culture medium alone (containing 10% fetal calf serum) displayed an increased ability to accumulate androstenedione by day 6, approximately 3 times that observed on day 2. However, a 5-fold further increase in androstenedione accumulation was observed by day 6 for SA theca cultured in the presence of oLH. Maintenance of progesterone accumulation by SA theca throughout the culture period also was dependent on the presence of LH. In contrast, androstenedione accumulation by PO theca required the presence of LH in the culture medium, while progesterone accumulation in these cultures did not. Little or no 5 alpha-reduced androgen accumulated in the media of SA and PO theca cultured in basic culture medium alone. However, SA and PO theca cultured with oLH accumulated approximately 1 ng androsterone by day 10. We conclude that 1) SA and PO follicles, theca and granulosa cells possess the enzymes required to produce large amounts of 3 alpha diol and androsterone; 2) low concentrations of oLH are required to stimulate SA thecal steroidogenesis and to maintain PO thecal androstenedione accumulation in culture.(ABSTRACT TRUNCATED AT 400 WORDS)     

Developmental and hormonal regulation of bovine granulosa cell function in the preovulatory follicle

Bovine granulosa cells were isolated from small antral, medium antral, and large Graffian follicles (i.e. small, medium, and large preovulatory follicles). Serum-free cultures of granulosa cells were established and found to be viable for 3-6 days of cell culture. Radiolabeled granulosa cell-secreted proteins were obtained and analyzed electrophoretically. No major changes were detected in the protein profiles of small, medium, and large follicle granulosa cells. FSH and insulin, however, had a dramatic effect on granulosa cell-secreted proteins and increased the apparent production of 200K, 65K, 25K, and 15K proteins. The effects of these hormones on the radiolabeled secreted proteins were similar for small, medium, and large follicle granulosa cells. Aromatase activity was high for the first day of serum-free granulosa cell culture and subsequently declined to low levels. Both FSH and insulin alone stimulated aromatase activity, while a combination of hormones resulted in an additive response similar to the stimulation observed with 10% calf serum. Although the level of aromatase activity increased slightly with the size of the follicle, the effects of hormones were independent of follicle size. Progesterone production was low on days 1 and 2 of serum-free granulosa cell culture and high on days 3 and 6 of cell culture. Interestingly, FSH and insulin suppressed progesterone production on day 1 of cell culture for small and medium follicle granulosa cells, but not for large follicle cells. In contrast, hormones stimulated progesterone production on days 3 and 6 of granulosa cell culture, and the level of progesterone production increased with the size of the follicle. The stimulatory effects of hormones on days 3 and 6 of the culture were similar for medium and large follicle granulosa cells, but were altered for small follicle cells. Results indicate that when aromatase activity is high and stimulated by hormones, progesterone levels are low and generally suppressed by the same regulatory agents. Conversely when progesterone levels are high and hormone responsive, aromatase activity is low. The inverse relationship between aromatase activity and progesterone production implies that bovine granulosa cells alter their differentiated state in culture from an estrogen-producing cell to a progesterone-producing cell. Combined observations indicate that the results obtained on day 1 of culture probably reflect the developmental and hormonal regulation of granulosa cell function in the preovulatory follicle, while data obtained at later times in culture reflect the ability of the cell to synthesize progesterone and develop a luteinization-like activity.(ABSTRACT TRUNCATED AT 400 WORDS)     

Gap junctional intercellular communication of bovine granulosa and thecal cells from antral follicles: effects of luteinizing hormone and follicle-stimulating hormone

Throughout each estrous cycle, the gonadotropins, luteinizing hormone (LH) and follicle-stimulating hormone (FSH), are involved in regulation of folliculogenesis. We have shown that LH or FSH affect cellular interactions mediated by gap junctions in bovine granulosa and thecal cells in vitro. To evaluate further the hypothesis that gonadotropins influence gap junctional intercellular communication (GJIC) and expression of gap junctional proteins known as connexins (Cx), throughout antral follicle development, granulosa and thecal cells from large (>10 mm; n=13), medium (5–10 mm; n=20), and small (<5 mm; n=27) follicles were cultured (n=4 cultures per size) with or without LH, FSH, or LH+FSH for 24 h. GJIC was evaluated (n=125–150 cells/treatment group) by using the fluorescent recovery after photobleaching technique and laser cytometry. Additionally, Cx43, Cx32, and Cx26 were detected in cultured cells by immunocytochemistry and Cx43 by Western immunoblot analysis. Finally, progesterone production by cultured cells was evaluated by radioimmunoassay. Across all follicles and treatments, GJIC was greater (p<0.01) for granulosa than thecal cells (4.9±0.05 vs 3.8±0.04%/min). For granulosa cells of large and medium follicles, LH and/or FSH did not affect GJIC. For granulosa cells of small follicles, FSH increased (p<0.05), but LH or LH+FSH had no effect on GJIC. For thecal cells of large follicles, LH increased (p<0.01) GJIC, whereas FSH or LH+FSH had no effects. For thecal cells of medium and small follicles, LH and/or FSH did not affect GJIC. These results demonstrate that FSH influenced GJIC of granulosa cells from small, but not from medium or large, follicles, and LH influenced GJIC of thecal cells from large, but not from medium or small, follicles. Cx43 was present as punctate staining between granulosa or thecal cells from all cultures, indicating assembled gap junctions. LH+FSH increased (p<0.05) expression of Cx43 only by thecal cells from large follicles. Cx32 was detected in the perinuclear cytoplasm of cultured granulosa or thecal cells, and in the cytoskeleton of a few cells per culture dish in all sizes of follicles. Cx26 was present in a regular pattern throughout the cytoplasm of granulosa or thecal cells in all sizes of follicles. For granulosa cells from large follicles, progesterone production was stimulated (p<0.05) with LH or FSH alone but was unaffected by LH+FSH. For granulosa cells from medium and small follicles, progesterone production was unaffected by LH and/or FSH. For thecal cells from all sizes of follicles, LH, FSH, and LH+FSH stimulated (p<0.05) production of progesterone. These data indicate that LH and FSH influence gap junction function and expression, which likely contributes to the development and maintenance of ovarian follicles.     

Independence of steroidogenic capacity and luteinizing hormone receptor induction in developing granulosa cells.

The relationship between FSH-induced acquisition of LH/hCG receptors and the steroidogenic capacity of granulosa cells from estrogen-primed hypophysectomized rat ovaries has been examined. Granulosa cells harvested from the immature preantral follicles of animals not treated with FSH (controls) displayed negligible specific human [125I]iodo-hCG binding and produced only minimal amounts of progesterone during 48 h of culture in vitro. Addition of highly purified hFSH or prostaglandin-E2 (PGE2) to the culture medium elicited substantial increases in progesterone production which were not accompanied by measurable increases in [125I]iodo-hCG binding. Treatment with oFSH in vivo for 24 h led to the initiation of antrum formation in many follicles and was accompanied by an 8-10-fold increase in hCG binding by freshly isolated granulosa cells. Basal, hFSH-, and PGE2-stimulated progesterone production during culture was also greater than controls. In contrast, cells from animals receiving oFSH in vivo for only 12 h showed no increase in hCG binding either before or after culture, yet basal and stimulated progesterone production in vitro was significantly greater than controls, indicating that the initiation of steroidogenesis was antecedent to LH/hCG receptor induction. Only those cells obtained after the 24-h in vivo treatment with oFSH produced elevated amounts of progesterone when incubated in the presence of hCG, thereby showing that the observed increases in [125I]iodo-hCG binding reflected the induction of functionally active LH/hCG receptors. Pharmacological stimulation of steroidogenesis by cell suspensions with N,O'-dibutyryl cAMP resulted in consistently high levels of progesterone production irrespective of previous treatment with FSH in vivo. This uniform expression of in vitro steroidogenic capacity occurred in the complete absence of measurable increases in LH/hCG receptors, suggesting that these two fundamental developmental processes are independent phenomena which may be under separate regulation in vivo.     

Progesterone secretion by highly differentiated human granulosa cells isolated from preovulatory Graafian follicles induced by exogenous gonadotropins and human chorionic gonadotropin

Human granulosa-luteal cells were harvested from preovulatory Graafian follicles at the time of oocyte retrieval for in vitro fertilization after induction of follicle maturation by sequential injections of menopausal gonadotropins and hCG. Such highly differentiated granulosa cells produced large quantities of progesterone basally (6.8 pg/cell X 2 days) in monolayer culture. Human LH significantly increased progesterone biosynthesis after 6, 12, 48, 96, or 144 h in culture, with a maximal increase of 8- to 20-fold occurring at 96 h. The stimulatory effect of LH could be observed under serum-free conditions and was maximal in the presence of 4% serum. Human granulosa-luteal cells also exhibited significant stimulatory responses to hCG, prostaglandin E2, or the cAMP effectors 8-bromo cAMP, choleratoxin, or forskolin in serum-free incubations. Concentrations of 17 beta-estradiol that are attained physiologically in ovarian follicles in vivo markedly suppressed basal and LH (or cAMP)-stimulated progesterone production in vitro (maximal suppression, greater than 90%). The nonaromatizable androgen 5 alpha-dihydrotestosterone also inhibited progesterone production, but by no more than 45-50% even at supraphysiological concentrations. Estradiol's blockade of progesterone synthesis was associated with a corresponding increase in pregnenolone accumulation. The present studies indicate that human granulosa-luteal cells isolated from preovulatory follicles induced with exogenous gonadotropins and hCG secrete large quantities of progesterone in vitro. Such cells retain stimulatory responses to human LH, hCG, prostaglandin E2, and classical cAMP effectors in serum-free incubations. Moreover, physiological concentrations of 17 beta-estradiol suppress progesterone production, probably by inhibiting cellular conversion of pregnenolone to progesterone. Thus, the present in vitro system permits an investigation of hormone action in well differentiated, human granulosa-luteal cells isolated from preovulatory Graafian follicles that have a defined endocrine history of prior gonadotropin exposure in vivo.     

Differentiation of rat ovarian thecal cells: evidence for functional luteinization

To determine if thecal cells of rat preovulatory (PO) follicles become functionally luteinized, theca from small antral (SA) and PO follicles were isolated before and 8 h after iv injection of an ovulatory dose (10 IU) of hCG. Thecal explants were cultured for 30 days in Dulbecco's Modified Eagle's Medium-Ham's F-12 medium containing 1% fetal calf serum (FCS) with or without 5 ng/ml ovine LH or 10 microM forskolin. Whereas theca from SA, hCG-treated SA, and PO follicles were dependent on LH or forskolin to maintain progesterone (greater than 10 ng/ml) and androstenedione (greater than 10 ng/ml) accumulation, luteinizing theca (hCG-treated PO) accumulated more than 10 ng/ml progesterone and more than 2 ng/ml androstenedione with or without LH or forskolin for 30 days. Granulosa cells were isolated from these same follicles and cultured under similar conditions, including 10 ng/ml testosterone and 25 ng/ml ovine FSH. Only granulosa cells isolated from luteinizing follicles (hCG-treated PO) maintained progesterone (greater than 20 ng/ml) and estradiol (10 ng/ml) accumulation with or without FSH or forskolin for 30 days. Basal concentrations of cAMP were 5 to 10-fold higher in thecal and granulosa cells from luteinizing follicles than in these tissues isolated from SA or PO follicles. We conclude that thecal cells as well as granulosa cells of rat PO follicles respond to the LH/hCG surge by becoming functionally luteinized, less dependent on LH, and capable of maintaining an increased accumulation of basal cAMP. Furthermore, the data suggest that one luteinizing thecal explant produces a similar amount of progesterone as one follicle equivalent of luteinizing granulosa cells. Thus, luteinized theca have the potential of contributing significantly to progesterone secretion by the mature rat corpus luteum.     

Estrogen and progesterone production by granulosa cell monolayers derived from in vitro fertilization procedures: lack of evidence for modulation by androgen

The role(s) of androgens in the steroidogenic regulation of human granulosa cell production of estrogen and progesterone during monolayer culture was studied. These cells were exposed in vivo to human menopausal gonadotropin and hCG gonadotropin with or without clomiphene citrate. Steroid production rates were compared between cells cultured in control medium and those cultured in medium containing a nonaromatizable androgen [dihydrotestosterone (DHT)] or an aromatizable androgen [androstenedione (A'D)]. Some cultures received A'D from 3-12 days; other cultures received DHT alone for 3, 6, or 9 days before the addition of A'D for 3 days. The effect on steroid production during the culture interval before the addition of A'D also was evaluated. Exposure to A'D increased estrogen production over 50-fold compared with that in control cells or those treated with DHT (P less than 0.001). DHT also failed to alter estrogen production when A'D was added to cultures. Furthermore, the delay in introducing A'D to the cultures for up to 9 days did not decrease subsequent estrogen production compared with that in cultures continually exposed to A'D or DHT plus A'D. Progesterone production was substantial for at least 12 days of culture and was unaffected by the presence of androgen. These results do not confirm previous studies using murine or porcine granulosa cells, which suggested that androgen receptor-dependent mechanisms were involved in increasing estrogen and/or progesterone production in vitro. Rather, they indicate that androgen may not be required to maintain aromatase capability per se in human granulosa-luteal cells previously exposed to ovulation-inducing quantities of gonadotropin.     

Follicular steroidogenesis and gonadotropin binding to ovine follicles during the estrous cycle

The interrelationships among [125I]hCG binding in thecal and granulosa cells, antral fluid steroid concentrations, follicular size, and ovarian steroid secretion were examined at three different stages of the estrous cycle. Group 1 ewes were ovariectomized during the luteal phase of the estrous cycle, and the other groups were ovariectomized before (group 2), or after (group 3) the peak of the preovulatory LH surge. Times of luteolysis and the LH surge were assessed by measurement of peripheral concentrations of progesterone and LH. Three patterns of [125I]hCG binding to follicles were noted: 1) binding to both thecal and granulosa cells (activated follicle), 2) binding to the thecal cell layer only, and 3) no observed binding. In general, there was one active follicle per ewe, or one per ovary, and the number of active follicles was not different from the number of corpora lutea in each of the three groups. The active follicles were significantly larger than the other two classes of follicles. Antral fluid estradiol concentrations were significantly greater in the active follicles and were higher in group 2 ewes than in the other two groups. In group 2, antral fluid testosterone concentrations were significantly higher in follicles with LH receptors in the thecal cell layer only. Ovarian secretion of testosterone and estradiol increased during the early follicular phase (group 2), with the major secretion coming from the ovary containing the active follicle. Ovarian progesterone secretion was high in ovaries containing active corpora lutea which prevented the assessment of ovarian follicular secretion of progesterone. The follicle with LH receptors in thecal and granulosa cells was responsible for the increased estradiol secretion observed during the preovulatory period and is presumed to be the ovulatory follicle.     

Induction of ovarian cysts in progesterone-synchronized immature rats: evidence that suppression of follicular aromatase activity is not a prerequisite for the induction of cystic follicles

Serum hormone profiles for women and animals with cystic ovaries have led to the hypothesis that elevated serum LH and androgens are involved in the induction of ovarian follicular cysts. To test the ability of LH-like activity to induce cysts, immature rats (bearing progesterone implants to suppress endogenous LH secretion) were assigned to treatment groups that received 0 (control), 0.1, 0.5, or 1.5 IU hCG twice daily for 9 days beginning on day 27 of life. Serum progesterone concentrations were maintained at approximately 156 ng/ml throughout the in vivo treatment period. By the morning of day 36 (day 10 of treatment) the largest follicles in ovaries from control animals were at the small antral stage of development. In contrast, the largest follicles in ovaries from rats receiving 0.1, 0.5, and 1.5 IU hCG were primarily at the large antral, precystic, and cystic stages of development, respectively. On all days tested, progesterone, androstenedione, and estradiol accumulation in medium alone was greater for follicles from rats receiving hCG than for follicles from control rats. Progesterone and androstenedione increased in response to cAMP in vitro in follicular incubations from both control and hCG-treated animals. Only estradiol production by follicles from rats treated with 0.1 or 0.5 IU hCG increased in response to cAMP in vitro. Follicles from all treatment groups produced significantly more estradiol in the presence of a saturating amount of aromatizable substrate than in medium alone. Indeed, on day 36, cystic follicles produced more than 8 ng estradiol when incubated in the presence of either androstenedione or testosterone. In addition, more androstenedione was accumulated in vitro when developing cysts were incubated with exogenous testosterone than when noncystic follicles were incubated under similar conditions. The results of these experiments demonstrate that chronic stimulation by LH-like activity is capable of inducing follicular cysts in a time- and dose-related manner in intact noncycling immature rats. The ability of these cysts to produce 1-2 ng estradiol in medium alone and even greater amounts of estradiol in the presence of exogenous androgen indicates that inhibition of the ability of FSH to induce and stimulate follicular aromatase activity is not a prerequisite for the induction of follicular cysts in these animals. Finally, the increasing ability to accumulate androstenedione in the presence of exogenous testosterone suggests that follicular 17 beta-hydroxysteroid oxidoreductase activity increases in response to chronic stimulation by low doses of LH-like activity during the development of follicular cysts.     

Multiple steroidogenic cell populations in the thecal layer of preovulatory follicles of the chicken ovary

The thecal layer of the preovulatory follicle of the chicken ovary produces primarily androgens and estrogens. However, the precise cellular sites of androgen and estrogen synthesis in the thecal layer have not been identified. Therefore, our aims were 1) to identify steroidogenic cells in the thecal layer of the preovulatory follicles by localizing specific steroidogenic enzymes in these cells by immunocytochemistry, and 2) to confirm that these cells which contained the specific steroidogenic enzymes secreted the expected steroid in a short term cell incubation. Follicles were collected 2 h after oviposition and prepared for immunocytochemistry and short term cell incubation. Immunocytochemistry for cholesterol side-chain cleavage cytochrome P450 (P450SCC), 17 alpha-hydroxylase cytochrome P450 (P450C17), and aromatase cytochrome P450 (P450AROM) was performed to localize pregnenolone-, androgen-, and estrogen-producing cells, respectively, on frozen sections and paraffin sections of the five largest preovulatory follicles. Interstitial cells showed immunoreactivity for both P450SCC and P450C17, whereas a specific cell population of the theca externa, hereafter termed aromatase cells, showed immunoreactivity for P450AROM. Furthermore, fibroblasts in the theca externa indicated immunoreactivity for P450C17. The immunoreactivity of P450C17 and P450AROM enzymes in specific cells in the theca externa appeared to decrease with follicular maturation. The third largest, fourth largest, and fifth largest follicles were selected for short term cell incubations because the immunoreactivity for P450 enzymes in the thecal layer of these follicles was high. Isolated theca interna cells, theca externa cells, and a combination of interna and externa cells were incubated with/without ovine LH (oLH) for 3 h. The medium was assayed for progesterone, testosterone, and 17 beta-estradiol by RIAs. Incubation of theca interna cells with oLH increased progesterone and testosterone production in a dose-dependent manner. However, we did not observe any production of progesterone and testosterone by theca externa cells. Theca externa cells produced 17 beta-estradiol, and its production was increased significantly when theca interna and externa cells were coincubated in the present of oLH. Based on these data, we propose a multiple cell theory for steroidogenesis in the thecal layer of preovulatory follicles of the chicken ovary which states that interstitial cells in the theca interna produce progestins and androgens, fibroblasts in the theca externa may function as an additional site for the conversion of progestins to androgens, and aromatase cells in the theca externa require androgens as substrate to produce estrogens.     

Differential action of decidual luteotropin on luteal and follicular production of testosterone and estradiol

Decidual tissue of the rat produces a hormone with physiological and biochemical characteristics similar to those of PRL. Because PRL affects both follicular and luteal production of testosterone and estradiol, it was of interest to determine whether decidual luteotropin affects basal and/or LH-stimulated ovarian secretion of steroids and whether it differentially affects follicular and luteal synthesis of testosterone and estradiol. The uteri of pseudopregnant adult rats were scratched on day 5 to induce decidual tissue formation. Pseudopregnant animals without decidua were used as controls. Rats were either hypophysectomized on day 8 or left intact. They were treated with 1.5 IU hCG/day or with vehicle between days 8-9. On day 9, blood was obtained from the ovarian vein, and both corpora lutea and large antral follicles were isolated and incubated in vitro. The presence of the decidua significantly suppressed both basal and hCG-stimulated ovarian secretion of estradiol, yet enhanced progesterone production. A similar inhibitory effect of decidual tissue on hCG stimulation of testosterone and estradiol was observed in the hypophysectomized rats. When the effect of decidua on follicles and corpora lutea was studied separately, it was found that follicles of rats with decidua produced significantly less testosterone and estradiol than follicles of rats without decidua. hCG administration to either intact or hypophysectomized rats markedly enhanced the follicular capacity to produce these two steroids. However, the degree of hCG stimulation of follicular steroidogenesis was significantly reduced by the presence of decidual tissue. In contrast, the decidua did not inhibit the in vitro steroidogenic capacity of corpora lutea. Luteal tissue of intact rats with or without decidua produced similar basal amounts of testosterone and estradiol and responded to a hCG challenge with comparable increases in the production of both steroids. After hypophysectomy, however, the responsiveness of corpora lutea to hCG stimulation differed in rats with or without decidual tissue. Whereas luteal cells of rats without decidual tissue gradually lost their responsiveness to hCG stimulation, luteal cells of rats with decidua remained highly responsive to hCG and produced high levels of testosterone and estradiol. In summary, the present investigation demonstrates that decidual luteotropin impairs ovarian secretion of estradiol and significantly inhibits the stimulatory effect of hCG on ovarian secretion of testosterone and estradiol.(ABSTRACT TRUNCATED AT 400 WORDS)     

Functional differentiation in steroidogenesis of two types of luteal cells isolated from mature human corpora lutea of menstrual cycle

Enriched small and large cell fractions were prepared from mature corpora lutea from 15 women in the midluteal phase by enzymatic dissociation, followed by Percoll gradient centrifugation. The steroidogenic function of each cell type was assessed by measuring the gonadal steroids released into the incubation medium. The large cell fraction was estimated to be 97% pure, with minimal contamination by small cells, whereas the small cell fraction was approximately 68% pure, being contaminated with 10% large cells and 22% nonsteroidogenic cells. In the unstimulated state, large cells were approximately 2-fold more potent in progesterone formation and aromatase activity, but only half as potent in androstenedione and testosterone formation as an equal number of small cells. When stimulated with hCG, the small cells responded with significant increases in progesterone, androstenedione, and testosterone release, but the large cells did not. Both cell types secreted estrone and 17 beta-estradiol in the presence of androgen substrate, but the addition of FSH significantly stimulated aromatization only in large cells. Thus, small and large human luteal cells have steroidogenic properties similar to those exhibited by follicular thecal and granulosa cells, respectively.