The steroidogenic effect of single-chain bovine LH analogs in cultured bovine follicular cells

Single-chain gonadotropin analogs had been constructed for the purpose of structure-function studies and analog design. Incorporation of a spacer derived from the carboxyl terminal peptide (CTP) of the choriogonadotropin (CG) beta subunit between the tethered subunit domains of the human gonadotropins is beneficial for the secretion of the single-chain variants without compromising biocactivity. Although the CGbeta subunit containing the CTP domain is expressed only in primates and equids, a CTP-like sequence exists in the untranslated region of the LHbeta gene of several mammalian species, including the bovine species. The CTP encrypted in the bovine LHbeta DNA (designated as 'boCTP') and the CTP derived from the human CGbeta subunit (denoted as 'huCTP') served as a linker sequence in the design of bovine single-chain luteinizing hormone (LH) analogs. The purpose of the present study was to evaluate steroidogenesis in cultured bovine theca cells following stimulation with these single-chain analogs. The concentration of the LHbetaboCTPalpha and LHbetahuCTPalpha analogs in the conditioned media of the expressing CHO cells was three- to six-fold higher than that of the "linkerless" LHbetaalpha and LHbeta111alpha variants. The four analogs induced androstenedione and progesterone secretion from the primary theca cells in a dose-dependent manner, but differences in the steroidogenic response were observed. The LHbetaboCTPalpha analog (10 ng/ml) effectively induced androstenedione and progesterone secretion over unstimulated levels (4.0- and 4.4-fold increase for androstenedione and progesterone, respectively). The response to the pituitary bovine LH standard (10 ng/ml) was less pronounced for both steroids (two- to three-fold increase over basal levels). The activities of LHbetahuCTPalpha, LHbetaalpha and LHbeta111alpha were comparable and sightly reduced relative to the LHbetaboCTPalpha activity. The data suggested that LHbetaboCTPalpha was ranked as the most potent and this was even more prominent when analogs were used at a lower dose (1 ng/ml). These data suggest that the design, including the huCTP or boCTP linker, is favorable for the production of single-chain bovine LH analogs. Furthermore, spacing of the tethered subunit domains with the cryptic boCTP sequence that originated from the bovine LHbeta gene appears advantageous for the purpose of stimulating steroid production in the species-specific bioassay. Thus, an effective strategy to produce bioactive single-chain LH analogs in non-primate, non-equid species would be the mutatation of the LHbeta genes with the aim of expressing the cryptic CTP sequence as a spacer derived from the DNA of the same organism.     

The response of the immature rat ovary to gonadotrophins: acute changes in cyclic AMP, progesteron, testosteron, androstenedione and oestradiol after treatment with PMS or FSH + LH.

Radioimmunoassays were used to measure changes in progesterone, testosterone, androstenedione, oestradiol, gonadotrophin and ovarian cyclic AMP in immature female rats during the first 24 h after exposure to slowly (PMS) or rapidly (FSH + LH) disappearing gonadotrophins. Cyclic AMP was increased 30 min after injection of either kind of gonadotrophin but it had returned to control level within 4 h. Serum and ovarian testosterone and androstenedione also increased to a peak at 30 min but decreased to base line by the 4th h. Multiple injections of FSH + LH maintained an elevated serum testosterone level but they had little effect upon the secretion of androstenedione. Serum and ovarian progesterone increased quickly after treatment with gonadotrophin. With PMS the peak in the serum was reached at 8 h, it remained high for 4 h and then fell precipitously between the 12th and 16th h. FSH + LH produced a prompt increase in serum progesterone but the level could be maintained only by repeated doses given every 4 h. Oestradiol was not increased in the serum or the ovot produce an increase in oestrogen but a transient increase was found with 3 doses; 4 doses kept an elevated level of oestradiol for 12 h. These results indicate that the aromatizing system of the immature rat ovary is relatively inactive and that continual stimulation by gonadotrophin for about 10-12 h is necessary to bring about increased function. In contrast, the mechanisms for the synthesis and secretion of progesterone and androgens are vary active and can be immediately stimulated by exposure to gonadotrophins.     

Regulation of androstenedione production by adenosine 3',5'-monophosphate and phorbol myristate acetate in ovarian thecal cells of the domestic hen

Although factors that regulate cAMP and steroid production in granulosa cells of hen preovulatory follicles have been well studied, much less is known of the mechanisms that control steroidogenesis in the adjacent thecal layer. These studies were conducted to examine the involvement and interaction of cAMP and protein kinase-C in modulating androstenedione output from isolated ovarian thecal cells collected from the second largest preovulatory follicle. Treatment of thecal cells with ovine LH (0.01-100 ng/tube) caused a dose-dependent increase in androstenedione secretion. Although coincubation of cells with the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine (0.1 mM) potentiated the effects of LH on steroid production, cAMP levels increased only in response to the higher doses of LH (10-100 ng/tube). Small but significant increases in cAMP accumulation and androstenedione production were observed in response to vasoactive intestinal peptide (0.1 and 1.0 microM), but not to 100 ng/tube chicken FSH, in the presence of 0.1 mM 3-isobutyl-1-methylxanthine. Treatment of thecal cells with cholera toxin (0.001-100 ng/tube) or forskolin (0.001-10 microM) resulted in a dose-dependent increase in cellular cAMP levels and androstenedione secretion. Thecal cell androstenedione production was also stimulated by the cAMP analog 8-bromo-cAMP (0.1-1.0 mM). Incubation of thecal cells with phorbol 12-myristate 13-acetate (PMA; 0.32-162 nM) or 1-oleoyl-2-acetylglycerol (OAG; 2.5-126 microM) increased basal steroidogenesis (progesterone and androstenedione production) in the absence of a rise in cAMP levels. By contrast, the stimulatory effects of 1 ng/tube LH on androstenedione, but not progesterone, production were attenuated by the presence of PMA (3.2-162 nM) or OAG (25-126 microM). Only a high concentration of OAG (126 microM) suppressed cAMP accumulation stimulated by LH (50 ng/tube). Phorbol ester treatment (32-162 nM PMA) also inhibited androstenedione production in thecal cells stimulated by the presence of 8-bromo-cAMP (1 mM), indicating a post-cAMP effect of protein kinase-C activity on steroidogenesis. In contrast to the effects of PMA, phorbol 13-monoacetate (162 nM), a nontumor-promoting analog of PMA which does not activate protein kinase-C, did not alter basal steroidogenesis, nor did it affect androstenedione secretion stimulated by LH or 8-bromo-cAMP. Data from the present studies indicate that the adenylyl cyclase-cAMP pathway can mediate the induction of thecal cell steroidogenesis by extracellular signals (i.e. LH and vasoactive intestinal peptide), whereas activated protein kinase-C can both stimulate and inhibit androstenedione production, depending upon the hormonal environment.(ABSTRACT TRUNCATED AT 400 WORDS)     

Oxytocin inhibits LH-stimulated production of androstenedione by bovine theca cells

Oxytocin secretion by bovine granulosa cells increases dramatically after the LH/FSH surge. We have shown that oxytocin stimulates progesterone secretion and inhibits FSH-stimulated estradiol secretion in vitro by granulosa cells from bovine preovulatory follicles obtained before the LH/FSH surge. To determine if oxytocin regulates LH-stimulated steroid production by bovine theca interna cells, theca cells were isolated from preovulatory follicles obtained before the LH surge and were cultured for 4 days in the presence or absence of LH (2 or 4 ng/ml), without or with graded doses of oxytocin (125-1000 ng/ml). LH increased accumulation of androstenedione and progesterone. Oxytocin inhibited LH-stimulated androstenedione production, but had no effect on LH-stimulated progesterone production by cultured theca interna. The next objective was to determine if oxytocin regulates LH-stimulated steroidogenesis by modulating the levels of mRNA for steroidogenic enzymes and/or Steroidogenic Acute Regulatory protein (StAR). Low doses of LH alone increased the levels of mRNA for P450 17 alpha-hydroxylase (17 alpha-OH), 3beta-hydroxysteroid dehydrogenase (3beta-HSD) and cytochrome P450 side-chain cleavage, but not for StAR. In contrast, the effects of oxytocin on LH-stimulated androstenedione production were not associated with changes in the levels of mRNA for steroidogenic enzymes or StAR. These results suggest that oxytocin may play a paracrine role in regulating the follicular/luteal phase shift in steroidogenesis by decreasing androstenedione secretion by theca cells of the ovulatory follicle and that this effect is not mediated by changes in the levels of mRNA for steroidogenic enzymes and StAR.     

Steroidogenesis by the immature rhesus monkey ovary in vitro

Primates are believed to have a low level of ovarian steroidogenic activity during prepubertal development. In order to study the rate limiting factors associated with the low level of steroidogenesis, ovaries from prepubertal rhesus monkeys were quartered and incubated for 48 h at 37 C in minimum essential medium. These ovaries secreted 687 +/- 347 pg estradiol/mg ovary and 299 +/- 35 pg progesterone/mg ovary during 48 h of incubation. The addition of 100 ng luteinizing hormone (LH) or 1 mM dibutyryl (Bu)2 cAMP failed to increase significantly estradiol or progesterone secretion. Furthermore, the addition of either progesterone or androstenedione failed to augment estradiol secretion. The presence of either LH or (Bu)2 cAMP with the steroidal substrates also failed to augment estradiol secretion. In contrast, the addition of (Bu)2 cAMP with lipoprotein-derived cholesterol significantly stimulated a two-fold increase in progesterone secretion. The presence of LH in the lipoprotein-supplemented medium failed to augment progesterone secretion. These results suggest that prepubertal monkey ovaries lack the ability to respond to LH, probably due to a lack of gonadotropin receptors or failure of the receptor to stimulate cAMP synthesis. Furthermore, the failure of progesterone and androstenedione to augment estradiol secretion suggests that some cellular components needed to induce aromatase activity are not functional in the prepubertal primate ovary.     

Steroidogenesis by equine preovulatory follicles: relative roles of theca interna and granulosa cells

Estrous cycles in mares have several unique characteristics, including the presence of a long period of estrus and the absence of a typical LH surge. Like follicles of other species, equine preovulatory follicles are characterized by their ability to secrete large amounts of 17 beta-estradiol, but it is not clear which follicular cell type is responsible for estradiol synthesis in mares. To better understand the relative roles of theca interna and granulosa cells in follicular steroidogenesis, presumptive ovulatory follicles were obtained from mares during early estrus (first or second day of estrus; n = 4) and during late estrus (fourth or fifth day of estrus; n = 4). Preparations of theca interna and granulosa cells were cultured for 3 days in medium with or without equine LH, FSH, LH plus FSH, or CG (100 ng/ml) in the presence or absence of 0.5 microM testosterone, and culture media were assayed for progesterone, androstenedione, and 17 beta-estradiol. Progesterone was the predominant steroid secreted by granulosa cells in the absence of exogenous testosterone. Its accumulation was significantly higher in cultures of granulosa cells from late vs. early estrus (P less than 0.05), and all gonadotropins stimulated progesterone secretion at both stages of follicular development (P less than 0.05). In contrast, granulosa cells secreted very low amounts of androstenedione in vitro, and only very small amounts of 17 beta-estradiol were produced when cells were cultured in medium without testosterone. However, the addition of testosterone caused a 170-fold increase over control values in estradiol accumulation over 3 days of culture (P less than 0.0001), clearly indicating the presence of a very active aromatase enzyme system in equine granulosa cells. Steroid secretion by theca interna differed in several respects from secretion by granulosa cells. Theca interna from early and late estrous follicles secreted negligible amounts of progesterone in vitro, and equine gonadotropins had no effect on its secretion. Also, theca interna secreted only small amounts of estradiol in vitro, and its accumulation was not increased by the addition of exogenous testosterone. Also, in contrast to granulosa cell cultures, androstenedione was the predominant steroid secreted by theca interna from early and late estrous follicles. In conclusion, this study does not support the current model of equine follicular steroidogenesis, which holds that 17 beta-estradiol biosynthesis derives primarily from the theca interna layer.(ABSTRACT TRUNCATED AT 400 WORDS)     

Steroidogenic relationships of gonadotrophin hormones in the ovary of the hen (Gallus domesticus)

The effects of chicken luteinizing hormone (cLH: IRC-2 and PRC AE1-1), turkey LH (B221B and HS-5-18), bovine follicle-stimulating hormone (bFSH: HS-2-17), chicken FSH (cFSH: PRC DC3(2) and AGCQSQ113445C), and turkey FSH (B150A and HS-1-153) on steroid output were evaluated by in vitro incubation of various ovarian tissues with the gonadotrophins. Output of androstenedione and estradiol was determined by 3-hr incubations of individual whole small follicles, classified by size and color as follows: small white (SWF, less than 1 mm), large white (LWF, 2-3 mm), and small yellow follicles (SYF, 5-10 mm). The effects of gonadotrophin preparations were also evaluated in large preovulatory follicles (F1-F5). Androstenedione and estradiol output was measured in incubation media from 100,000 theca cells and progesterone content was determined in the incubation media of 100,000 granulosa cells. All incubations were conducted in 1 ml of Medium 199 at 37 degrees. Steroid output was quantitated by radioimmunoassay of incubation media. Potency estimates were derived by calculation of a peak stimulation index. The standard reference preparation was bLH (NIAMDD-LH-B4). Steroidogenesis was stimulated by three avian LH preparations. preparations. PRC AE1-1 was the most potent, with IRC-2 and B150A showing approximately 50% of the biological activity of PRC AE1-1 in most tissues. Turkey LH HS-5-18 was generally not potent. The presence of multiple isohormones of LH was implied, as various LH preparations exhibited different potency estimates in different tissues. The effects of FSH on steroidogenesis were not significant in most cases. Although the addition of cFSH AGCQSQ113445C failed to significantly increase output of estradiol from small follicles, potency estimates of this preparation were 0.15, 0.20, and 0.13 relative to NIAMDD-LH-B4 follicles was more highly stimulated by LH than by FSH, and thus it would seem that FSH does not play a significant role in steroidogenesis in the hen's ovary. The results of this study suggest that steroid biosynthesis in the hen's ovary may be regulated by multiple forms of LH.     

LH stimulation of estrogen secretion by cultured rat granulosa cells

The direct effect of LH on estrogen secretion by rat granulosa cells was investigated. Ovarian granulosa cells from immature hypophysectomized diethylstilbestrol-treated rats were primed with FSH for 2 days in vitro to induce LH receptors. After the FSH priming, the granulosa cells were washed, and recultured for 4 additional days in media containing aromatase substrate (10(-7) M androstenedione) and purified FSH or LH. After the incubations, estrogen (E), progesterone (P) and 20 alpha-dihydroprogesterone (20 alpha-OH-P) in the media were measured by RIA. When granulosa cells from hypophysectomized DES-treated rats were cultured for 6 days with FSH and androstenedione, the production of E, P and 20 alpha-OH-P was stimulated to a maximum of 100-, 200- and 270-fold, respectively, above that of control levels. In contrast, LH did not increase steroidogenesis in these cells. Following 2 days of FSH priming in vitro, however, the cultured granulosa cells exhibited marked increases (400-600%) in E, P and 20 alpha-OH-P production in response to LH treatment over a 4-day incubation period. This stimulatory effect of LH on estrogen and progestin production was dose-related; the minimum and maximum effective doses of LH for steroid production were 3 and 30 ng/ml, respectively, and the ED50 was calculated to be 6 ng/ml of LH. As with LH, FSH also stimulated steroidogenesis in a dose-related manner and the apparent ED50 of FSH on steroidogenesis was 45 ng/ml. To investigate whether LH can also stimulate aromatase activity in granulosa cells primed with FSH in vivo, immature hypophysectomized DES-treated rats were injected for 2 days with FSH after which the granulosa cells were isolated and cultured for 4 days in medium containing 10(-7) M androstenedione and LH or FSH. Both LH and FSH stimulated E, P and 20 alpha-OH-P production, and the maximum steroidogenic responses of LH and FSH were similar to those observed in cultured granulosa cells primed with FSH in vitro. THese results have demonstrated that LH is effective in stimulating both estrogen and progestin secretion in rat granulosa cells pretreated with FSH. This suggests an important role of LH in the direct control of both aromatization and luteinization in the granulosa cell.     

Demonstration of progesterone receptor-mediated gonadotrophin suppression in the human male

OBJECTIVE: Synthetic gestogens in combination with testosterone have potential as a male hormonal contraceptive, predominantly acting by augmenting suppression of gonadotrophin secretion. Little is known, however, of the effects of gestogens in the male. Gestogens have affinity for both androgen and progesterone receptors but the relative contribution of action at these two receptors in gonadotrophin suppression remains unclear. In this study the effects of progesterone, with no significant androgen-receptor affinity are compared to desogestrel, a synthetic gestogen with relatively low affinity for the androgen receptor, on gonadotrophin secretion in normal men. DESIGN: Subjects received either 50 mg progesterone intramuscularly (i.m.) or 300 micro g desogestrel orally daily for 7 days. Frequent blood sampling over 12 h was undertaken before and after drug administration. GnRH [100 micro g intravenously (i.v.)] was administered 2 h before the end of the frequent sampling period. SUBJECTS: Twenty healthy men were randomly allocated to the two treatment groups. RESULTS: Both progesterone and desogestrel administration resulted in decreases in the concentration of both LH and FSH secretion, as well as testosterone. Analysis of the pulsatile nature of LH secretion indicated that both treatments reduced LH pulse amplitude, and that progesterone reduced LH pulse frequency. Progesterone, but not desogestrel, treatment also reduced the increase in LH secretion in response to GnRH. CONCLUSIONS: The effects of progesterone were at least as marked as those of a maximally effective dose of desogestrel. As progesterone has negligible affinity for the androgen receptor, these results are compatible with the suppressive effects of synthetic 19-norgestogens on gonadotrophin secretion in the male being mediated via the progesterone receptor, with its androgenicity contributing minimally to gonadotrophin suppression.     

Steroidogenesis during postnatal development in the mouse ovary

In the mouse, follicular formation and development is largely postnatal. Changes in ovarian steroidogenesis during early postnatal life are likely, therefore, to reflect changes in follicular activity during early folliculogenesis. In this study, basal progesterone and androstenedione production and responsiveness to gonadotrophins, dibutyryl cyclic AMP (dbcAMP) and 22R-hydroxycholesterol have been measured following short-term in-vitro incubations of ovaries from mice aged 1, 3, 5, 7, 10 or 15 days. On the day of birth (day 1), basal and gonadotrophin-stimulated progesterone and androstenedione production were undetectable although a response to dbcAMP and a low level of cholesterol side-chain cleavage (CSCC) activity (measured using 22R-hydroxycholesterol) were present. On day 3 progesterone and androstenedione production were undetectable under all conditions. On day 5 only a low level of CSCC activity was detectable but on day 7 there was an increase in ovarian steroid production. Basal progesterone and androstenedione were detectable and LH, but not FSH, increased the production of both steroids. These changes were associated with a marked increase of more than 80-fold in CSCC activity. Basal steroid output increased from days 7 to 15 and LH continued to stimulate progesterone accumulation although no effect on androstenedione was seen. Addition of FSH had no effect on steroidogenesis on day 10 but significantly increased progesterone production on day 15. Ovaries from the mice used in these studies contained primordial follicles and stromal tissue on day 1. By day 5 primary and secondary follicles were present and the major increase in steroid production between days 5 and 7 was associated with an increase in secondary follicles and increased differentiation of the thecal tissue.(ABSTRACT TRUNCATED AT 250 WORDS)     

Src tyrosine kinase regulates CYP17 expression and androstenedione secretion in theca-enriched mouse ovarian cells

Src tyrosine kinase belongs to a non-receptor tyrosine kinase family and has been shown to be involved in G protein-coupled receptor desensitization and internalization. Stimulation of ovarian thecal cells with lutein-izing hormone (LH) activates adenylyl cyclase via a G protein-coupled LH receptor leading to an increase in cAMP. Subsequently, cAMP activates protein kinase A (PKA) that increases steroidogenesis. In order to evaluate the role of Src in thecal cell steroidogenesis, a pharmacological approach was utilized by treating a population of mouse ovarian theca-enriched cells (TEC) in vitro with two Src inhibitors, geldanamycin (GA) and herbimycin A (HA). Treatment of TEC with either GA or HA increased basal androstenedione secretion without alteration of cAMP. In the presence of forskolin, GA and HA treatment further increased androstenedione secretion. RT-PCR analysis of RNA from cells treated with GA for 8, 24, and 48 h revealed that GA increased cytochrome P450 17alpha-hydroxylase/lyase (CYP17) mRNA at 48 h. CYP17 promoter activity also increased after treatment of cells with GA and after co-transfection with a Src dominant negative plasmid. Inhibition of PKA using H89 blocked the effect GA and HA on androstenedione secretion. These results indicate that the pharmacological inhibitors of Src, GA and HA, tested in vitro increased thecal CYP17 promoter activity, CYP17 mRNA, and androstenedione secretion. In addition, GA and HA induced thecal androstenedione secretion may be cAMP independent but possibly requires PKA.     

Effects of gonadal steroids and cycloheximide on the release of gonadotrophins by rat pituitary cells in culture.

The effects of oestradiol-17beta, testosterone and progesterone alone and together with cycloheximide on the basal and gonadotrophin releasing hormone (Gn-RH)-induced release of gonadotrophins were studied in cultured dispersed rat pituitary cells. In the control group (no steroid treatment), GnRH significantly stimulated the release of LH and FSH; cycloheximide partially inhibited this response, although it had no effect on the basal secretion of gonadotrophins. A dose of 5 ng oestradiol/ml had no significant effect on the response to GnRH; at a dose of 100 ng/ml the GnRH-induced release of LH was significantly augmented whereas the release of FSH was inhibited. Cycloheximide blocked the augmenting effect of oestradiol. The basal release of LH was slightly but significantly inhibited in response to 10 ng testosterone/ml and increased in response to progesterone (200 ng/ml). Testosterone at both dose levels and progesterone significantly inhibited the GnRH-induced release of LH and FSH and in testosterone and progesterone-treated groups, the response to GnRH was inhibited by cycloheximide, but not beyond the levels observed in the control group. It is concluded that steroids can act directly on the pituitary cells, that oestradiol stimulates the GnRH-induced release of LH and that cycloheximide blocks this stimulatory effect. Testosterone and progesterone, on the other hand, partially inhibit the response to GnRH.     

Increased steroid production by the ovarian stromal tissue of postmenopausal women with endometrial cancer.

An increase in ovarian steroid secretion could play a role in the pathogenesis of endometrial cancer in postmenopausal women. The present study was undertaken to investigate steroid production by isolated ovarian stromal tissues of postmenopausal women with endometrial cancer and to study the effect of LH and insulin on ovarian steroidogenesis in postmenopausal women. Ovarian stromal tissue was obtained from 10 postmenopausal women with endometrial cancer and 8 women without cancer. The stroma was incubated in either the medium alone or the medium to which was added LH (50 ng/mL) or insulin (500 ng/mL). The ovarian stroma of postmenopausal women with cancer released significantly more androstenedione (A), testosterone, and dehydroepiandrosterone than that of women without cancer. Addition of LH resulted in a significant increase in A, testosterone, dehydroepiandrosterone, and progesterone release compared to that with vehicle alone. Addition of insulin stimulated the release of A from the ovarian stroma of women with cancer, but had no effect on the normal postmenopausal ovarian stroma. These results indicate that the ovarian stroma of postmenopausal women with endometrial cancer secrete significantly greater amounts of androgens than those of women without cancer and that both LH and insulin may be important factors contributing to this increase in ovarian steroidogenesis.     

Immunohistochemical localization of pituitary gonadotrophins and gonadal steroids confirms the 'two-cell, two-gonadotrophin' hypothesis of steroidogenesis in the human ovary

Ovaries from 37 women with normal menstrual cycles were analysed for localization of pituitary gonadotrophins and gonadal steroids using an immunohistochemical method. In the follicular phase, FSH and oestradiol-17 beta localized in the granulosa layer, and LH, progesterone and testosterone localized in the internal thecal layer. In the luteal phase, gonadotrophins and steroids localized in luteal cells. Particularly in the early luteal phase, FSH and oestradiol-17 beta localized in large luteal cells, and LH, progesterone and testosterone localized in small luteal cells. The results of the present immunohistochemical analysis confirm the two-cell, two-gonadotrophin hypothesis of steroidogenesis in the human ovary.     

Divergent effects of prolactin on estrogen and progesterone production by granulosa cells of rat Graafian follicles

The effect of PRL on ovarian steroidogenesis was studied in cultured granulosa cells isolated from follicles of mature cycling rats on the morning of proestrus. Ovine PRL 10-1000 ng/ml) inhibited estradiol production but stimulated progesterone biosynthesis in a dose-dependent manner. The effect of PRL was most prominent after 4 days of culture: 1000 ng/ml PRL suppressed estradiol production by 80% but increased progesterone synthesis by 290%, whereas the lower dose of 10 ng/ml inhibited estrogen secretion by 20% without altering progesterone synthesis. The divergent effect of PRL was not shown to be species specific, since ovine, rat and human PRL had similar effects. Using increasing concentrations of androstenedione (the aromatase substrate), estrogen secretion remained suppressed and progesterone production was stimulated by PRL. FSH stimulated both estrogen and progesterone production. The FSH-induced increased in estrogen production was inhibited by concomitant treatment with PRL. In contrast, PRL and FSH had an additive action in stimulating progesterone production. Although LH alone had no effect on steroidogenesis, concomitant treatment with LH and PRL resulted in a stimulation of progesterone production that was additive. This study demonstrates that PRL acts directly on granulosa cells of Graafian follicles of adult cycling rats to stimulate the secretion of progesterone and to suppress estradiol production.     

Effects of testosterone, FSH, and LH on oestradiol and progesterone secretion by preovulatory cumulus oophorus complexes of the rat.

Female Wistar rats exhibiting a regular 4-day oestrous cycle were included in this study. They were killed in succession on the day of pro-oestrus at 11.00, 18.00, and 22.00 h. From ovarian preovulatory follicles cumulus oophorus complexes (COCs) were isolated and subsequently cultured with or without testosterone (T), T plus FSH, or T plus LH. In control cultures COCs isolated at all investigated hours released similar amounts of oestradiol. T stimulated this basal secretion and the effect was usually enhanced in the presence of FSH or LH. In control cultures the amount of released progesterone was greatest when expanded COCs were isolated (22.00 h). T present in culture media diminished the amount of secreted progesterone. However, when T was added with FSH or LH a distinct stimulatory effect was observed, except in cultures with T plus FSH set up at 22.00 h. Previously, gonadotrophins alone did not effect progesterone secretion. The results suggest that T can regulate steroid, and especially progesterone secretion by COCs. Until the preovulatory gonadotrophin surge T can inhibit luteinization of COCs, while afterwards, acting synergestically with gonadotrphins (especially with LH), T can stimulate progesterone production in the cumulus granulosa cells.     

Steroidogenesis in ovarian cells of the Japanese quail (Coturnix coturnix japonica)

The influence of follicular maturation on steroidogenesis and steroid metabolism by isolated Japanese quail granulosa and theca cells was examined. When stimulated with LH, granulosa cells of the largest follicle (F1) responded with a sixfold increase over unstimulated progesterone levels, whereas progesterone production in cells of F3 less than doubled even when maximally stimulated. Forskolin stimulated progesterone synthesis in both F1 and F3 granulosa cells, but its effect was less pronounced than that of LH. Furthermore, F1 cells metabolized 25-hydroxycholesterol to a greater extent than did F3 cells. There was no appreciable metabolism of [3H]progesterone by granulosa cells. Theca cells from the smaller follicles (F3-F5) responded to LH stimulation with greater estrogen and androstenedione production than theca cells from F1. [3H]Progesterone was metabolized mainly to androstenedione in theca cells. Thus, the overall pattern of in vitro steroidogenesis in quail granulosa cells is similar to that described for the chicken and turkey even though the quantitative differences in the steroidogenic capacity between developing and mature follicles are more striking in the quail. Furthermore, although the LH-stimulated androstenedione and estrogen production appears similar in developing quail and chicken theca cells, the profile of [3H]progesterone metabolism is different in quail theca cells from that found previously in chicken theca cells.     

Effect of LH injections on testicular steroidogenesis, cholesterol side-chain cleavage P450 mRNA content and Leydig cell morphology in hypogonadal mice

Hypogonadal (hpg) mice have a congenital deficiency of hypothalamic gonadotrophin-releasing hormone (GnRH) and the gonads consequently lack exposure to gonadotrophins during development. We injected male hpg mice with LH for 10 days to investigate whether LH alone can stimulate normal steroidogenesis in these animals. Control animals had an inactive interstitium and very few germ cells. Testicular content of androgens was undetectable by radioimmunoassay in control animals unless a single injection of LH was given 1 h before death, when androgens were just detectable. Control testes incubated in vitro with [3H]pregnenolone demonstrated that without gonadotrophin stimulation pregnenolone was metabolized only to progesterone in significant amounts. Assay for cholesterol side-chain cleavage cytochrome P450 (P450scc) mRNA showed basal expression in saline-treated hpg mouse testis. LH treatment induced hypertrophy and hyperplasia of Leydig cells and division of germ cells. Testicular androgen content increased significantly, with testosterone and androstenedione as the major androgens. LH-treated testes incubated with [3H]pregnenolone in vitro had a greater synthetic capacity for testosterone, suggesting an increase in 17 alpha-hydroxylase/C17-20-lyase activity. Basal and human chorionic gonadotrophin-stimulated androgen production in vitro increased markedly following LH treatment to levels previously described in the normal adult animal. LH treatment caused a rapid and transient increase in the hybridization of P450scc mRNA which was sevenfold greater than that of saline-treated controls when the animals were killed 1 h after the last injection but fell to control levels within 24 h of cessation of treatment.(ABSTRACT TRUNCATED AT 250 WORDS)     

Effect of gonadotrophin releasing hormone upon the pattern of steroidogenesis in isolated preovulatory rat follicles

The effects of GnRH and a potent GnRH analogue (D-Ala6-des-gly-NH2-GnRH-ethylamide) on steroidogenesis in isolated preovulatory follicles of PMSG-treated immature rats were examined in short-term incubations and compared to the effect of LH. Steroids were analyzed by RIA. GnRH stimulated the accumulation of pregnenolone (2-fold), progesterone (4-fold), 20 alpha-OH-progesterone (38-fold), androstenedione (4-fold), testosterone (3-fold), and oestradiol-17 beta (2-fold) during a 6 h incubation. The time-course of stimulation was the same for each of the steroids analyzed, with a significant effect at 4 and 6 h, but not at 2 h of incubation. Dose-response curves were similar for each steroid, and the GnRH analogue and GnRH gave parallel curves with minimal effective concentrations being 1 and 10 ng/ml, respectively. The stimulatory effect of LH was more pronounced and rapid (2 h) than that of GnRH. During prolonged incubation (6-8 h) with GnRH or LH there was evidence for an inhibition of testosterone production, probably due to suppression of the C21-side chain cleavage enzyme. Thus, the qualitative response to GnRH on follicular steroidogenesis resembled that of LH in some but not all respects. The differences in time-course and maximal steroid secretion between GnRH and LH are compatible with different mechanisms of action in the follicle.     

Acute effects of GnRF-induced gonadotrophin secretion upon ovarian steroid secretion in the ferret

The effects of an increase in endogenous gonadotrophin secretion on the production of oestradiol, progesterone, androstenedione and testosterone by the ovaries of anaesthetized anoestrous and oestrous ferrets were followed. Gonadotrophin secretion was enhanced by the injection of gonadotrophin releasing factor (GnRF), and serial blood samples were collected over 9 h for hormone assay. Thyrotrophic hormone releasing factor (TRF) or acetic acid were injected for control purposes. The plasma content of oestradiol in oestrous females was significantly higher than during anoestrus, but secretion of this steroid was not increased by any means. The plasma concentration of progesterone in anoestrous females was significantly higher than during oestrus. It was increased by GnRF in anoestrous ferrets and less markedly in oestrous females. The plasma concentration of androstenedione was raised by GnRF to a greater extent during anoestrus than during oestrus. Testosterone was present in higher concentration in the plasma during anoestrus than during oestrus, and the level was increased by GnRF administration. These findings indicate that the ovaries of the anoestrous ferret secrete significant quantities of steroid hormones, and that they respond readily to gonadotrophic hormone.