Follicle-stimulating hormone and somatomedin-C stimulate inhibin production by rat granulosa cells in vitro

Molecular crosstalk between insulin-like growth factors and follicle-stimulating hormone in the regulation of granulosa cell function

Background

The last phase of folliculogenesis is driven by follicle-stimulating hormone (FSH) and locally produced insulin-like growth factors (IGFs), both essential for forming preovulatory follicles.

Methods

This review discusses the molecular crosstalk of the FSH and IGF signaling pathways in regulating follicular granulosa cells (GCs) during the antral-to-preovulatory phase.

Main findings

IGFs were considered co-gonadotropins since they amplify FSH actions in GCs. However, this view is not compatible with data showing that FSH requires IGFs to stimulate GCs, that FSH renders GCs sensitive to IGFs, and that FSH signaling interacts with factors downstream of AKT to stimulate GCs. New evidence suggests that FSH and IGF signaling pathways intersect at several levels to regulate gene expression and GC function.

Conclusion

FSH and locally produced IGFs form a positive feedback loop essential for preovulatory follicle formation in all species. Understanding the mechanisms by which FSH and IGFs interact to control GC function will help design new interventions to optimize follicle maturation, perfect treatment of ovulatory defects, improve in vitro fertilization, and develop new contraceptive approaches.

The effects of endogenous FSH and its receptor on oogenesis and folliculogenesis in female Alligator sinensis

BACKGROUND

The precise mechanisms of hormone action responsible for the full course of events modulating folliculogenesis in crocodilian have not been determined, although histological features have been identified.

RESULTS

The Alligator sinensis ovarian morphological characteristics observed at 1, 15, 30, 60, 90, and 300 days post hatching(dph) revealed that the dynamic changes in germ cells varied in different meiotic and developmental stages, confirming that the processes of folliculogenesis were protracted and asynchronous. The presence of endogenous follicle-stimulating hormone(FSH) mRNA and protein expression within the cerebrum at 1 dph, in parallel with the increase in germ cells within the germ cell nests(Nest) from 1 dph to 15 dph, suggested that endocrine regulation of the pituitary-gonad axis is an early event in oogonia division. Furthermore, the endogenous expression of FSH showed a trend of negative feedback augmentation accompanied by the exhaustion of maternal yolk E₂ observed at 15 dph. Such significant elevation of endogenous FSH levels was observed to be related to pivotal events in the transition from mitosis to meiosis, as reflected by the proportion of oogonia during premeiosis interphase, with endogenous FSH levels reaching a peak at the earliest time step of 1 dph. In addition, the simultaneous upregulation of premeiotic marker STRA8 mRNA expression and the increase in endogenous FSH further verified the above speculation. The strongly FSHr-positive label in the oocytes within Pre-previtellogenic follicles was synchronized with the significant elevation of ovarian cAMP detected at 300 dph, which suggested that diplotene arrest maintenance during early vitellogenesis might be FSH dependent. In addition, preferential selection in asynchronous meiotic initiation has been supposed to act on somatic supportive cells and not directly on germ cells via regulation of FSH that in turn affects downstream estrogen levels. This suggestion was verified by the reciprocal stimulating effect of FSH and E₂ on the accelerated meiotic marker SYCP3 and by the inhibited cell apoptosis demonstrated in ovarian cell culture in vitro.

CONCLUSION

The corresponding results contribute an expansion of the understanding of physiological processes and shed some light on the specific factors responsible for gonadotropin function in the early folliculogenesis of crocodilians.

Differential expression of activin βA and βB genes in female allotriploid and diploid red crucian carp Carassius auratus red var

activin β_A and β_B from diploid and allotriploid crucian carp were cloned.The differential expression of activin β_A and β_B genes in female allotriploid and diploid red crucian carp Carassius auratus red var. were studied and found to be expressed in all the tested tissues; particularly, the expression of activin β_A and β_B was elevated in the ovaries of allotriploids and differential expression in pituitaries during the non-breeding season and the breeding season period. The immunohistochemistry indicated that the abnormal triploid ovaries were dominated by small oogonium-like cells with dense signals and that the elevated expression of activin β_A and β_B in the ovaries of allotriploids may be related to allotriploid sterility.

The synthesis and secretion of inhibins

Inhibin A and B, dimeric glycoproteins comprising an α- and β((A/B))-subunit, negatively regulate follicle stimulating hormone (FSH) synthesis by the pituitary. The expression of α- and β-subunits within Sertoli cells of the testis and granulosa cells of the ovary is controlled by a range of transcription factors, including CREB, SP-1, Smads, and GATA factors. The inhibin α- and β-subunits are synthesized as precursor molecules consisting of an N-terminal propeptide and a C-terminal mature domain. Recently, we showed that hydrophobic residues within the propeptides of the α- and β-subunits interact noncovalently with their mature domains, maintaining the molecules in a conformation competent for dimerization. Dimeric precursors are cleaved by proprotein convertases and mature inhibins are secreted from the cell noncovalently associated with their propeptides. Propeptides may increase the half-life of inhibin A and B in circulation, but they are readily displaced in the presence of the high-affinity receptors, betaglycan, and ActRII.

Modulating peripheral gonadotrophin levels affects follicular expression of mRNAs encoding insulin-like growth factor binding proteins in sheep

Evidence suggests that the insulin-like growth factor binding proteins (IGFBPs) are involved in modulating the role that IGF-I and -II play in regulating follicular growth and development in sheep. However, little information exists as to the role that key peripheral factors play in regulating the expression of IGFBP components within the follicle. The present study investigated the regulatory effects of FSH and LH on gene expression for IGFBP-2 to -6 in ovine follicles, using bovine follicular fluid (bFF) and gonadotrophin-releasing hormone antagonist (GnRHa) model systems to perturb endogenous gonadotrophin secretion. Gene expression studies were carried out using in situ hybridisation with sheep-specific ribonucleotide probes. Treatment of ewes with bFF had few consistent effects on IGFBP-3 and -4 mRNA expression in follicles, whereas bFF treatment resulted in significant decreases in IGFBP-2 and IGFBP-6 mRNA expression in only medium follicles 60 h after onset of bFF, and in follicles 12h after the onset of bFF, respectively. Treatment of ewes with GnRHa resulted in transient significantly increased IGFBP-2 mRNA in healthy follicles in comparison to early atretic or atretic follicles 12h post-GnRHa (P<0.05), in IGFBP-3 mRNA in early atretic and atretic follicles 36 h post-GnRHa (P<0.001), and IGFBP-5 mRNA in follicles 12h post-GnRHa (P<0.001). In contrast, GnRHa treatment resulted in significant decreases in IGFBP-4 (P<0.001) and IGFBP-6 (P<0.01) mRNA expression in large follicles 36 h post-GnRHa, and atretic follicles by 60 h post-GnRHa, respectively. These data highlight that FSH and LH are involved, at least in part, in mediating the proliferative and differentiative changes in intrafollicular IGFBP levels that are observed during follicular growth and atresia in the sheep.

LRH-1/NR5A2 cooperates with GATA factors to regulate inhibin alpha-subunit promoter activity

Inhibin alpha is the common subunit of the dimeric inhibin proteins known for their role in suppressing pituitary FSH secretion. In this study, we have examined the role of GATA factors and the nuclear receptor, LRH-1/NR5A2, in the regulation of inhibin alpha-subunit promoter activity. The inhibin alpha promoter contains two GATA-binding motifs that can be activated by GATA4 or GATA6. The GATA-dependence of the promoter was demonstrated by downregulating GATA expression in MA-10 cells using siRNA technology. We next examined whether GATA factors could cooperate with LRH-1, a factor recently proposed to be an important regulator of inhibin alpha-subunit transcription. Both GATA4 and GATA6 strongly synergized with LRH-1. Consistent with the cAMP-dependence of the inhibin alpha-subunit promoter, GATA/LRH-1 synergism was markedly enhanced by PKA and the co-activator protein CBP. Thus, our results identify LRH-1 as a new transcriptional partner for GATA factors in the regulation of inhibin alpha-subunit gene expression.

Regulation of inhibin alpha- and beta(A)-subunit messenger ribonucleic acid levels by gonadotropins and IGF-I in cultured chicken granulosa cells

A quantitative competitive reverse transcription polymerase chain reaction assay (QC RT-PCR) for quantifying the absolute levels of the expression of inhibin alpha- and beta(A)-subunits in chicken granulosa cells showed that these subunits are expressed in different amounts depending on follicular maturation. The present study determined the regulation of the expression of these subunits. The individual effect of different doses of IGF-I, LH or FSH (1-100 ng/ml) or the combination of IGF-I with either LH or FSH at different concentrations, on the expression of inhibin alpha- and beta(A)-subunit was determined on cultured granulosa cells of F(1) and the combined F(4)+F(5) follicle. Cells were cultured for 48 h in 6-well plates with or without added hormones. Culture medium was discarded, cells were washed and total RNA was extracted from the cells. Five hundred nanograms of total RNA was reverse transcribed using specific primers and coamplified with an internal standard, as described previously, to determine expression level in the cells. IGF-I, LH, and FSH enhanced the inhibin alpha-subunit mRNA levels in a dose dependent manner in both F(1) and the combined F(4)+F(5) whereas inhibin beta(A)-subunit was not affected. The effects of FSH, LH were more expressed in F(1) follicles compared to F(4)+F(5) on the alpha-subunit. The addition of IGF-I and either LH or FSH during the culture period significantly increased the stimulatory effects of both LH and FSH on the expression of inhibin alpha-subunit in F(1) follicles but had no significant effect on the inhibin beta(A)-subunit. The results suggest that the changing expression levels of inhibin alpha-subunit during follicular development are the result of the regulatory effect of the interaction between IGF-I and the gonadotropins and that the regulation of this subunit may be the main factor for the regulation of the protein inhibin levels. Other factors may be also implicated in the changing expression levels of the beta(A)-subunit.

Growth differentiation factor-9 stimulates inhibin production and activates Smad2 in cultured rat granulosa cells

Ovarian inhibin production is stimulated by FSH and several TGFbeta family ligands including activins and bone morphogenetic proteins. Growth differentiation factor-9 (GDF-9) derived by the oocyte is a member of the TGFbeta/activin family, and we have previously shown that GDF-9 treatment stimulates ovarian inhibin-alpha content in explants of neonatal ovaries. However, little is known about GDF-9 regulation of inhibin production in granulosa cells and downstream signaling proteins activated by GDF-9. Here, we used cultured rat granulosa cells to examine the influence of GDF-9 on basal and FSH-stimulated inhibin production, expression of inhibin subunit transcripts, and the GDF-9 activation of Smad phosphorylation. Granulosa cells from small antral follicles of diethylstilbestrol-primed immature rats were cultured with FSH in the presence or absence of increasing concentrations of GDF-9. Secreted dimeric inhibin A and inhibin B were quantified using specific ELISAs, whereas inhibin subunit RNAs were analyzed by Northern blotting using (32)P-labeled inhibin subunit cDNA probes. Similar to FSH, treatment with GDF-9 stimulated dose- and time-dependent increases of both inhibin A and inhibin B production. Furthermore, coincubation of cells with GDF-9 and FSH led to a synergistic stimulation of both inhibin A and inhibin B production. GDF-9 treatment also increased mRNA expression for inhibin-alpha and inhibin-beta subunits. To investigate Smad activation, granulosa cell lysates were analyzed in immunoblots using antiphosphoSmad1 and antiphosphoSmad2 antibodies. GDF-9 treatment increased Smad2, but not Smad1, phosphorylation with increasing doses of GDF-9 leading to a dose-dependent increase in phosphoSmad2 levels. To further investigate inhibin-alpha gene promoter activation by GDF-9, granulosa cells were transiently transfected with an inhibin-alpha promoter-luciferase reporter construct and cultured with different hormones before assaying for luciferase activity. Treatment with FSH or GDF-9 resulted in increased inhibin-alpha gene promoter activity, and combined treatment with both led to synergistic increases. The present data demonstrate that oocyte-derived GDF-9, alone or together with pituitary-derived FSH, stimulates inhibin production, inhibin subunit mRNA expression, and inhibin-alpha promoter activity by rat granulosa cells. The synergistic stimulation of inhibin secretion by the paracrine hormone GDF-9 and the endocrine hormone FSH could play an important role in the feedback regulation of FSH release, thus leading to the modulation of follicle maturation and ovulation.

Sertoli-Leydig cell tumor of the ovary, a rare cause of precocious puberty in a 12-month-old infant

We report a 12-month-old infant who presented with a 4-month history of isosexual precocious puberty secondary to an estrogenizing Sertoli-Leydig cell tumor of the ovary. Total serum immunoreactive inhibin and subunits A and B were markedly elevated before surgical resection and subsequently decreased 7 wk later into the normal prepubertal range. Twenty weeks following surgical removal, the patient presented again with central precocious puberty; inhibin B levels were raised on this occasion, a luteinizing releasing hormone stimulation test confirmed central precocious puberty. This is the youngest reported occurrence of this rare sex cord stromal neoplasm. The prognosis of this extremely rare tumor presenting at this early juvenile stage is uncertain. This report illustrates the usefulness of serum inhibin as a tumor marker during therapeutic suppression with leuprorelin acetate for central precocious puberty. Analysis of genomic and tumor DNA revealed a normal nucleotide sequence for the LH receptor and the Galpha(s) gene. To understand the molecular pathogenesis of this tumor we analyzed mRNA levels for the inhibin A and B subunits, FSH receptor, LH receptor aromatase, steroidogenic factor-1 and the ER beta genes. Molecular characterization reveals the presence of genes specific for granulosa and Leydig cells; the relative expression of these genes, in addition to its histologic characteristics, suggests that this tumor may result from a dysdifferentiation of a primordial follicle.

Synergistic activation of the inhibin alpha-promoter by steroidogenic factor-1 and cyclic adenosine 3',5'-monophosphate

The inhibin alpha-subunit gene is expressed in the ovary, testis, adrenal, and pituitary. Because this pattern of expression corresponds to that of the orphan nuclear receptor, steroidogenic factor-1 (SF-1), we hypothesized that the inhibin alpha promoter might be regulated by SF-1. Expression of exogenous SF-1, in an SF-1 deficient cell line, caused modest stimulation of the inhibin alpha promoter. However, activation of the cAMP pathway, which is known to regulate inhibin alpha expression, greatly enhanced the actions of SF-1. Coexpression of SF-1 with the catalytic subunit of cAMP-dependent protein kinase A caused greater than 250-fold stimulation, whereas only 4- or 7-fold stimulation was seen by the SF-1 or protein kinase A pathway alone. Synergistic stimulation by SF-1 and the cAMP pathway was also seen in GRMO2 granulosa cells, which express endogenous SF-1. Deletion and site-directed mutagenesis localized a novel SF-1 regulatory element (TCA GGGCCA; -137 to -129) adjacent to a variant cAMP-response element (CRE; -120 to -114). The synergistic property of SF-1 and cAMP stimulation was inherent within this composite inhibin alpha fragment (-146 and -112), as it was transferable to heterologous promoters. Mutations in either the CRE or the SF-1 regulatory element completely eliminated synergistic activation by these pathways. The binding of SF-1 and CRE binding protein (CREB) to the inhibin alpha regulatory elements was relatively weak in gel mobility shift assays, consistent with their deviation from consensus binding sites. However, SF-1 was found to interact with CREB using an assay in which epitope-tagged SF-1 was expressed in cells and used to pull down in vitro translated CREB. Expression of CREB binding protein (CBP), a coactivator that interacts with SF-1 and CREB, further enhanced transcription by these pathways. Stimulation by the SF-1 and cAMP pathways was associated with increased histone H4 acetylation, suggesting that chromatin remodeling accompanies their actions. We propose a model in which direct interactions of SF-1, CREB, and associated coactivators like CBP induce strongly cooperative transactivation by pathways that individually have relatively weak effects on transcription.

Effects of growth hormone, activin, and follistatin on the development of preantral follicle from immature female mice

The aim of this study was to investigate whether GH and insulin-like growth factor I (IGF-I) are involved in preantral folliculogenesis and, if so, to clarify the relationship between GH/IGF-I and activin/follistatin (FS) systems in immature female mice. Ovaries were obtained from 11-day-old mice, and preantral follicles, 100-105 microm in diameter, were mechanically isolated and selected for culture. Ten preantral follicles per well were cultured with different quantities and combinations of additives as follows: no additives (control), recombinant human FSH (rhFSH), IGF-I, recombinant human GH (rhGH), activin A, and recombinant human FS (rhFS). Mean diameters of the follicles were measured daily, and estradiol and immunoreactive inhibin levels in the cultured medium were assayed by RIA on day 4. rhGH showed stimulatory effects on the follicular diameter and the secretion of estradiol and immunoreactive inhibin. These effects were augmented by the presence of IGF-I and activin A. IGF-I alone did not show any stimulatory effect. The addition of rhFSH to activin A or to rhGH and activin A promoted preantral follicular growth and hormone production. On the other hand, GH- or activin-stimulated follicular growth was suppressed by rhFS in a dose-dependent manner. These results indicate that activin A and rhGH may play an important role in controlling earlier phases of follicular development during the infantile period, which is considered to be gonadotropin independent.

Regulation of follistatin production by rat granulosa cells in vitro

The aims of this study were to apply enzyme-linked immunosorbent assays (ELISA) for human follistatins (FS) to measure total immunoreactive (ir-) rat FS and free rat FS, and investigate the regulation of production of total ir-FS and free FS by rat granulosa cells (GC) in vitro. Production of ir-inhibin was monitored as an index of GC function. The ELISAs for total ir-FS, based on an immunoradiometric assay developed recently for human FS, and free FS, based on capture of FS by a monoclonal antibody and detection by activin A binding, had sensitivities of 0.4 and 0.8 ng recombinant human (rh-) FS 288/ml, respectively, and did not cross-react with inhibin A, rLH, or FSH. rh-Activin did not cross react in the total ir-FS ELISA, but interfered with the measurement of free FS. Dilutions of GC-conditioned medium were parallel to the standard curve of rh-FS 288 for each assay. The values obtained in the free FS assay were 10- to 20-fold higher than those in the total ir-FS ELISA, suggesting that rat FS may be recognized by the antibodies differently than the human standard. Both total ir-FS and free FS production by undifferentiated GC from diethylstilbestrol (DES)-treated, immature rats increased with cell number and time in culture and were stimulated dose dependently by FSH, rh-activin A (except free FS, which was not measured because of interference), forskolin, and phorbol 12-myristrate. The effects of FSH and activin on FS production by undifferentiated GC were additive. There were significant effects of degree of differentiation of GC on basal FS production and responsiveness to FSH, LH, and rh-activin A. Both total ir-FS and free basal FS production increased up to 4-fold with the degree of differentiation of GC, produced by treating rats in vivo with DES (undifferentiated), DES plus FSH (partially differentiated), or DES plus FSH plus hCG (fully differentiated). The addition of FSH in vitro increased FS production by undifferentiated and partially differentiated GC, but not by fully differentiated GC. The only detectable effect of LH on FS production was on partially differentiated GC. Activin A stimulated total ir-FS production by undifferentiated and partially differentiated GC, but inhibited total ir-FS production by fully differentiated GC. Ir-inhibin production in these experiments was similar to that of FS with the following exceptions; phorbol 12-myristrate inhibited ir-inhibin production by undifferentiated GC, basal ir-inhibin decreased in fully differentiated GC, FSH stimulated ir-inhibin only in undifferentiated GC, and rh-activin A stimulated ir-inhibin at all stages. It is concluded that 1) FS protein production by cultured undifferentiated rat GC is up-regulated by FSH and activin, possibly via both protein kinase A and C pathways; 2) increasing GC differentiation is associated with a significant increase in basal FS production by rat GC and a change in the hormonal regulation of FS production; and 3) FS and ir-inhibin production by cultured rat GC can be differentially regulated. The results are consistent with the hypothesis that activin tone decreases within follicles as they develop due to increased production of the activin-binding protein FS.

Alterations in plasma and ovarian immunoreactive inhibin during reproductive aging in the female rat

Previously, we showed that ovarian inhibin α- and β;(A)-subunit mRNAs are elevated in middle-aged and old persistent-estrous (PE) female rats. To determine whether higher inhibin subunit mRNA expressions result in increased circulating inhibins during reproductive aging, plasma immunoreactive inhibin α (ir-inh α) and gonadotropins were measured in young, middle-aged and PE rats. Plasma LH profiles were distinctly divergent in the middle-aged rats with some showing LH surges indistinguishable from young rats and others showing significantly attenuated LH surges. Plasma ir-inh α in middle-aged rats with LH surges were similar to those of young rats. However, animals with attenuated LH surges had higher peak ir-inh α levels than young and middle-aged animals with LH surges. Immunohistochemistry revealed increased levels of ovarian inhibin α staining in those animals with attenuated LH surges. Overall, the highest plasma and ovarian inhibin α were found in PE rats which lack LH surges. However, significant decreases of plasma and ovarian inhibin α were seen after reinstatement of estrous cyclicity with progesterone implant treatment. Thus, increases in both plasma and ovarian inhibin α appear to be closely associated with attenuation or loss of the preovulatory gonadotropin surge that occurs during aging.

Ovarian follicular growth, ovulation and atresia. Endocrine, paracrine and autocrine regulation

This chapter describes a finely tuned series of events that results in ovarian morphological changes including follicular growth, dominant follicle selection, oocyte development, ovulation, and corpus luteum formation. These changes are under the obligate control of the pituitary gonadotropins FSH and LH. The signaling mechanisms whereby the gonadotropins stimulate these changes in the ovary are now well described. The gonadotropin membrane receptors have been cloned and the cellular events proceeding from receptor binding to phosphorylation of protein gene regulators, such as CREB, have been elucidated. A whole series of intraovarian paracrine and autocrine regulators have been described as having the capability of "fine tuning" the effects of gonadotropins (see Tables I and II), and they are likely involved in dominant follicle selection and the demise of the corpus luteum. The roles of the individual paracrine regulators are, as of yet, not well known, but the IGF system offers an attractive paradigm for these intraovarian factors. Lastly, we have described the explosion of data on intracellular and intranuclear regulators. The challenge for us will be to understand the physiological significance of the seemingly unlimited number of regulatory possibilities. Much has been learned concerning the regulation of the morphological changes seen in the ovary, but much more remains to be elucidated.

[Insulin-like growth factors I and II in follicular and oocyte maturation]

Insulin-like growth factors I and II are synthesized from animal and human follicles. Their reproduction is FSH-, LH- and oestrogen-dependent. Growth hormone is also involved. IGF-I receptor numbers increase in the presence of FSH, while estradiol has a synergic effect. IGF-I and IGF-II stimulate growth of different follicular cell elements. TGF-alpha has the same activity but seems to be mediated by an increase in IGFs. Conversely, TGF beta and activin inhibit follicular growth accompanied by a reduction in IGFs. In contrast to TGF alpha, IGFs do not cause acquisition of meiotic competence. Injection of IGF-I into cultures of prepuberal splenic primary follicles reduced IGF-II production.

Insulin-like growth factor-II stimulates human granulosa-luteal cell proliferation in vitro

OBJECTIVE

To determine the effect of insulin-like growth factor-II (IGF-II) on human granulosa cell proliferation in vitro.

DESIGN

Thymidine incorporation and cell count were determined to assess human granulosa cell proliferation.

SETTING

The study was performed in an academic research environment.

PATIENTS

Granulosa cells were obtained from women undergoing IVF procedures.

INTERVENTIONS

Granulosa cells were dispersed enzymatically and cultured in both serum-containing and serum-free medium.

MAIN OUTCOME MEASURE

Granulosa cell proliferation in basal conditions and after stimulation with IGF-II given alone or in combination with basic fibroblast growth factor (basic FGF).

RESULTS

Treatment of human granulosa cells with IGF-II for 24 hours significantly increased thymidine incorporation. Furthermore, this mitogenic effect was confirmed when granulosa cells were cultured in presence of IGF-II for 7 to 10 days and their proliferation was evaluated by cell counting. The association of IGF-II and basic FGF did not result in a synergistic or additive effect.

CONCLUSION

As already demonstrated in other species, IGF-II also is able to stimulate human granulosa cell proliferation in vitro. Thus, it might be considered among the intraovarian modulators of granulosa cell physiology.

Gonadotropin-releasing hormone (GnRH) and cyclic AMP positively regulate inhibin subunit messenger RNA levels in human placental cells

Bioactive and immunodetectable levels of both inhibin and activin are present in the placenta, raising questions as to the regulatory control of their synthesis. This study was designed to determine the effect of cyclic AMP (cAMP) and gonadotropin-releasing hormone (GnRH) on inhibin subunit gene expression in short-term incubations of placental cells. A semi-quantitative polymerase chain reaction (PCR) technique was used after isolation of total RNA and first strand cDNA synthesis from mechanically dispersed trophoblast-enriched cells obtained from human placentae at term. The level of gene expression of inhibin subunits was higher for beta A and alpha-subunits mRNA compared to the beta B-subunit mRNA as determined by PCR in combination with Southern blotting or Northern hybridization. Steady-state levels of beta-actin mRNA did not change throughout the 6-h incubation period and was used as a control of PCR amplification of the respective inhibin subunit gene transcripts following treatments with 8-bromo cAMP or GnRH. 8-bromo cAMP dose-dependently increased all three inhibin subunit gene transcripts with maximal responses seen at 150 microM (alpha-subunit mRNA 2.3-fold, beta A-subunit mRNA 1.8-fold and beta B-subunit mRNA 2.8-fold over control). GnRH (100 nM) significantly increased inhibin alpha and beta B-subunit mRNA levels 2.9-fold and 2.0-fold, respectively (P < 0.01), but not beta A-subunit mRNA. Collectively, the present findings demonstrate that in human term placental cells, gene expression of all inhibin subunits is under the direct influence of cAMP and further support a modulatory role of local GnRH in placental trophoblasts during late pregnancy.

The potential relevance of growth hormone to female reproductive physiology and pathophysiology

OBJECTIVE

To assess possible interfacing between the somatotrophic and reproductive axes.

DESIGN

Literature review.

MAIN OUTCOME MEASURES

Ovarian growth hormone reception and action.

RESULTS

The available literature strongly supports a permissive role for the somatotrophic axis in the reproductive process.

CONCLUSIONS

Although a role for growth hormone in reproductive biology appears highly likely, its relevance to the process of puberty and to the normal workings of the menstrual cycle, as well as its possible application in reproductive pathology must await further investigation.

The effect of bovine activin and follicle-stimulating hormone (FSH) suppressing protein/follistatin on FSH-induced differentiation of rat granulosa cells in vitro

The time- and dose-dependent effects of bovine activin A and bovine follicle stimulating hormone (FSH) suppressing protein (FSP) or follistatin on basal and FSH-induced steroidogenesis and inhibin production were studied in granulosa cells from immature, diethylstilbestrol (DES)-treated rats. In the presence of rat FSH (20 ng/ml) which stimulates aromatase activity and the production of progesterone and inhibin, activin (0.3-100 ng/ml) augmented all three parameters, whereas FSP (0.3-100 ng/ml) enhanced progesterone production and attenuated the other two parameters. In the absence of FSH, the basal parameters were unaffected by treatment with either activin or FSP alone, except for a statistically significant increase in basal inhibin in the presence of activin alone (P less than 0.05, at doses of 30 and 100 ng/ml). Neither activin nor FSP influenced the timing of the maxima of FSH-induced activities over 5 days. These findings suggest that activin and FSP, both present in follicular fluid, may play an important role in the local regulation of granulosa cell differentiation.

Cloning and characterization of the rat alpha-inhibin gene

The gene for the rat glycoprotein hormone alpha-inhibin has been cloned and characterized. The entire gene was found to be contained within a 5.5 kilobase EcoRI fragment. It is composed of two exons separated by a 1.5 kb intron. Primer extension and S1 nuclease analysis showed that the major transcription initiation site in the ovary was 77 bp from the start of translation. The promoter region of the gene did not contain a conventional TATA box but instead a number of GA rich repeated sequences were found to be present. Other potential regulatory elements found included a repeating purine-pyrimidine tract (TG)28, cAMP and phorbol ester response elements and a putative glucocorticoid response element. Southern blot analysis of rat genomic DNA indicated that there is a single gene for alpha-inhibin in the rat.

Inhibin and related proteins: localization, regulation, and effects

Inhibin has originally been defined as a gonadal hormone that exerts a specific negative feedback action on the secretion of FSH from the gonadotropic cells of the pituitary gland. The existence of inhibin was postulated by Mottram and Cramer (15) as early as 1923. However, only after reliable and sensitive bioassay systems had been developed for detection and estimation of inhibin and an ample source of inhibin was found in the form of ovarian follicular fluid, was progress made on the isolation and characterization of the hormone. It is apparent now that inhibin, which itself consists of a dimer of two different subunits, alpha and beta, is a member of a much larger family of (glyco)protein hormones and growth factors that includes Müllerian inhibiting substance, transforming growth factor-beta, activin/erythroid differentiation factor, bone morphogenetic proteins, and an insect and a Xenopus protein. All play important roles in cell differentiation. Gonadal inhibin is produced in the Sertoli cells in the testis and in the granulosa cells in the ovary. The production of inhibin is stimulated by FSH, but controversy exists about other factors that might play a role in the regulation of the production of inhibin. It appears likely that inhibin plays an important role in the feedback regulation of peripheral concentrations of FSH during the period in which Sertoli cells and granulosa cells--the target cells for FSH--divide, i.e., during puberty in male animals and during the development of ovarian follicles in female animals. In this way, inhibin may be an important regulator of the number of developing Sertoli cells and of the length of the seminiferous tubuli in the testis and of the number of developing follicles in the ovary. Apart from its function in the pituitary-gonadal axis, inhibin and activin may be produced and act in a number of other organs such as the placenta, hypothalamus, adrenal, and bone marrow. Investigation of the role of the members of the inhibin family in these systems has only begun, but will certainly be a field of major interest in the near future.

Serum inhibin levels during the periovulatory interval in normal women: relationships with sex steroid and gonadotrophin levels

Inhibin is a gonadal glycoprotein believed to be important in the regulation of pituitary FSH secretion and/or to function as a paracrine factor within the ovary and testis. We studied serum levels of inhibin, oestradiol (E2), progesterone (P), FSH and LH during the periovulatory interval in order to determine whether there is differential control of sex steroid and inhibin secretion by the mature follicle and the emerging corpus luteum. Seven normal cyclic women were admitted 3-4 days prior to midcycle and blood samples drawn every 3 h for 5-7 days. Serum E2, P, FSH, LH and inhibin were measured by radioimmunoassay. Data were normalized around the peak LH value (0 h). Serum E2 and inhibin rose in parallel (r = 0.92, P less than 0.001) between -69 and -18 h, E2 reached a peak of 1296 +/- 154 (mean +/- SEM) pmol/l at -18 h, then fell to 1050 +/- 139 pmol/l at 0 h. Serum inhibin, on the other hand, continued to rise to a peak of 837 +/- 95 U/l at -6 h, fell to 455 +/- 48 U/l at +45 h, then rose again. On average, the peak inhibin level occurred 10.4 +/- 5.1 h after the peak E2 (P less than 0.05). Inhibin levels were positively correlated with both serum LH and FSH between -24 and +24 h (P less than 0.01). Serum E2 was negatively correlated with LH, FSH and inhibin between -24 and 0 h (P less than 0.01). Serum P levels increased from 1.8 +/- 0.3 nmol/l at -24 h to 14.3 +/- 1.0 nmol/l at +60 h. Serum inhibin was positively correlated with serum P from -24 to 0 h (P less than 0.01) and +45 to +60 h (P less than 0.01), but was inversely correlated from 0 to +45 h (P less than 0.01). We conclude that the maturing follicle secretes both E2 and inhibin in parallel until -18 h, at which time the process of luteinization is initiated by the onset of the midcycle LH surge, as evidenced by the rise in P. E2 secretion then falls while inhibin secretion rises, indicating different regulation of secretion of these two hormones by the maturing follicle. Furthermore, the close positive correlation between inhibin and gonadotrophin levels around midcycle suggests that FSH and/or LH stimulate inhibin secretion and that the presumed negative feedback effect of inhibin on FSH secretion is overcome at this time. After midcycle, inhibin secretion initially falls, then rises, while P rises progressively.(ABSTRACT TRUNCATED AT 400 WORDS)

Insulin-like growth factor 1 as an intra-ovarian hormone--an integrated hypothesis and review

Fourteen ovulatory patients undergoing diagnostic laparoscopy had at least 2 samples of clear follicular fluid (FF) collected in the late follicular phase. Dominant follicles contained significantly higher concentrations of insulin-like growth factor-1 (IGF1), oestradiol (E2), progesterone (P) and lower androstenedione (AD) than their matched cohorts. After the luteinizing hormone (LH) surge, a significant increase in dominant FF-IGF1 and FF-P occurred. Log FF-E2 and log FF-P were correlated with both FF-IGF1 and FF volume. Log FF-AD was negatively correlated with FF-volume, FF-E2 and FF-P (but not FF-IGF1). The cohort concentration of FF-IGF1 was correlated with serum IGF1. These results support the hypothesis that IGF1 has a central role in the selection of the dominant follicle.

Inhibin and related peptides: mechanisms of action and regulation of secretion

The structure of inhibin is known; it consists of a heterodimer composed of one alpha and one beta subunit. The homodimer of beta A (beta A-beta A) and the heterodimer beta A-beta B, called activin A and B, respectively, stimulate the release and synthesis of FSH by gonadotrophs. Inhibin exerts effects at the hypophyseal, hypothalamic, and gonadal levels. Produced by granulosa cells in the female and by Sertoli cells in the male, inhibin synthesis is stimulated by FSH and reduced by hypophysectomy and progesterone. At present, there is no evidence for a signal from germinal cells to modify inhibin production. Inhibin secretion evolves in parallel with follicular maturation and aromatase activity, whereas luteinization arrests its production. Nevertheless, important differences in the regulation of inhibin secretion seem to exist from one species to another. Sperm inhibin levels can be correlated with spermatozoa number. Administration of inhibin to sheep induces either anovulation or an increase in the rate of ovulation depending on the scheme of treatment.

The effect of hypophysectomy on inhibin production by adult rat ovaries: changes in ovarian inhibin gene expression and serum inhibin

We have investigated the effect of hypophysectomy on adult rat ovarian inhibin alpha- and beta A-subunit mRNA, serum inhibin, and circulating gonadotrophin levels. Immediate declines in ovarian inhibin gene expression and serum inhibin were observed following hypophysectomy, with a nadir on day 4. However, inhibin synthesis determined by these parameters was still apparent at 16 days post-hypophysectomy. Gonadotropin levels were suppressed following hypophysectomy and the fall in inhibin production was highly correlated with disappearance of FSH from the circulation. This study demonstrates that removal of pituitary gonadotropin stimulation results in diminished ovarian inhibin synthesis and provides further evidence indicating that FSH stimulates granulosa cell inhibin synthesis by enhancing inhibin gene transcription.

Transforming growth factor beta enhances basal and FSH-stimulated inhibin production by rat granulosa cells in vitro

Transforming growth factor beta (TGF beta) caused a dose-dependent increase in both basal and follicle-stimulating hormone (FSH)-stimulated inhibin production by rat granulosa cells in culture. The TGF beta dose-response curve in the absence of FSH was approximately parallel to that in the presence of either a minimally effective dose (1 ng/ml) or a maximally effective dose (30 ng/ml) of FSH, suggesting an additive effect of these two agents on inhibin production. There was also a suggestion of an increased sensitivity of granulosa cell inhibin production to FSH when the cells were coincubated with TGF beta. The time course study showed that similar to FSH, the stimulatory effect of TGF beta on basal and FSH-stimulated inhibin production was evident on day 1 and was maximal by day 4. In addition, epidermal growth factor (EGF) reduced FSH-stimulated inhibin production with an ID50 value of 1.3 ng/ml. Coincubation of cells with EGF and 1 ng TGF beta/ml enhanced greatly the inhibitory action of EGF on FSH-induced inhibin production (ID50 less than 0.1 ng/ml). It is concluded that: (1) TGF beta directly stimulates inhibin production by rat granulosa cells and the combined effect with FSH was largely additive, (2) the inhibitory effect of EGF on FSH-induced inhibin production was enhanced by TGF beta, (3) individual members of the TGF beta/inhibin gene family regulate ovarian function, not only by direct action on follicle cells but also indirectly by influencing the production rate of other members of that family.

Selective control of rat granulosa cell inhibin production by FSH and LH in vitro

We studied the role of luteinising hormone (LH) and human chorionic gonadotropin (hCG) in regulation of rat granulosa cell inhibin production. Whereas pregnant mare serum gonadotropin (PMSG) or purified rat follicle-stimulating hormone (FSH) stimulated inhibin accumulation in culture media up to 6-fold in a dose-dependent manner, hCG or LH alone were without significant effect. Concomitant addition of hCG or LH to cultures containing half maximal or maximal stimulating concentrations of PMSG did, however, result in a dose-dependent inhibition of PMSG/FSH-induced inhibin production. However, in the 2-step culture system a biphasic effect of hCG treatment on FSH-primed granulosa cell inhibin and progesterone production was evident. hCG was only inhibitory when the cells in the 2-step system were primed with PMSG. These data indicate that granulosa cell inhibin production is under direct control of both FSH and LH, and provide a possible explanation for alterations in inhibin activity around the time of ovulation in vivo.

Effects of FSH and IGF-I on immature rat Sertoli cells: inhibin alpha- and beta-subunit mRNA levels and inhibin secretion

Effects of follicle-stimulating hormone (FSH) and insulin-like growth factor-I (IGF-I) on inhibin production by cultured Sertoli cells from 21- to 23-day-old rats were studied. The expression of inhibin alpha- and beta-subunit mRNAs, and inhibin immunoreactivity and in vitro bioactivity were estimated. Using a cDNA probe corresponding to the alpha-subunit of bovine inhibin, specific hybridization with a 1.5-1.7 kilobase (kb)mRNA species was observed. Addition of FSH to the cultured Sertoli cells for 24 h markedly increased the level of this mRNA in a dose-dependent way. IGF-I had no effect on the intensity of the hybridization. Using a cDNA probe corresponding to the beta B-subunit of human inhibin, 3.5 and 4.2 kb mRNA species were detected. FSH and IGF-I had no effect on the hybridization signal. No hybridization was observed with a cDNA probe corresponding to the beta A bovine inhibin subunit. Inhibin activity was detected in cells and medium by immunoassay, and in the medium by in vitro bioassay. FSH stimulated both immunoreactivity and in vitro bioactivity, whereas IGF-I had no effect at all. The present effect of FSH on inhibin alpha-subunit mRNA expression in cultured Sertoli cells indicates that regulation of inhibin production by FSH includes an effect at the transcriptional level. However, this does not exclude additional translational and posttranslational effects.

Direct inhibition of rat granulosa cell inhibin production by epidermal growth factor in vitro

The effect of epidermal growth factor (EGF) on inhibin production by rat granulosa cells has been investigated using a recently developed inhibin radioimmunoassay (RIA). Granulosa cells from intact immature diethylstilbestrol (DES)-treated rats were exposed to EGF (1-100 ng/ml) in the presence or absence of FSH for varying periods in vitro. An inhibitory effect of EGF on basal inhibin secretion was evident at day 2 of culture and was sustained over the subsequent 2 days. This action on basal inhibin secretion was dose-dependent, and maximal inhibition to 50% of control was observed at a dose of 100 ng EGF/ml at day 4. EGF also inhibited basal progesterone secretion in a similar manner. EGF caused a dose-dependent inhibition of FSH-stimulated inhibin secretion, with an ID50 (0.5 ng/ml, 0.08 nM) about one-eighth that in the absence of FSH. In addition, EGF also inhibited the stimulation of inhibin production by 8-Br-cAMP and prostaglandin E2. To exclude the possibility that EGF was toxic to the granulosa cells, several biochemical parameters related to cell growth were measured. EGF treatment did not alter cell number but slightly increased [3H]thymidine incorporation into cellular DNA. The effect of EGF on [35S]methionine incorporation into cellular protein was biphasic, being stimulatory at doses less than 10 ng/ml but inhibitory at 100 ng/ml. The present data have demonstrated a direct inhibitory effect of EGF on basal and FSH-stimulated inhibin production by granulosa cells suggesting an important regulatory role of this growth factor in the differentiation of ovarian function.

Effects of bovine inhibin, transforming growth factor-beta and bovine Activin-A on granulosa cell differentiation

To determine whether inhibin and its related peptides might act locally to control granulosa cell function and differentiation, the dose- and time-dependent effects of bovine inhibin, the homo-dimer of the beta-chain of bovine inhibin (Activin-A) and porcine TGF beta on rat granulosa cell aromatase activity and progesterone synthesis were investigated in vitro. TGF beta enhanced FSH-induced aromatase activity and progesterone synthesis, and accelerated the peak response for progesterone synthesis. Activin-A on the other hand, augmented FSH-induced aromatase activity while arresting progesterone synthesis, and anti-luteinization effect. By contrast, exogenous inhibin had no detectable effect on the steroidogenic potential of these cells. Thus TGF beta and Activin, unlike their similar effects on the release of FSH by the pituitary, appear to affect ovarian granulosa cell function in different fashion, under conditions where inhibin itself has no effect.