The isolation and physiology of inhibin and related proteins

Inhibin, a glycoprotein that preferentially suppresses follicle-stimulating hormone (FSH) secretion, has been isolated from follicular fluid as a heterodimer of two dissimilar subunits linked by disulphide bonds. The larger subunit is termed alpha and the smaller is designated beta. Two forms of inhibin termed A and B have been isolated, the differences being due to variations in the amino acid sequence of the beta-subunit; Inhibin A consists of alpha-beta and Inhibin B of alpha-beta B. Dimers of the beta-subunit, termed activins, have also been found in follicular fluid; these stimulate pituitary FSH secretion. Inhibin is produced in the female by the granulosa cell and corpus luteum under the control of FSH and luteinizing hormone (LH), respectively. The levels in serum rise to peak at mid-cycle and in the mid-luteal phase of the human menstrual cycle, and decline prior to menstruation. In pregnancy, the late-luteal phase decline in inhibin does not occur and the levels increase slowly. Studies suggest that the levels in pregnancy arise from an embryonic source, particularly the placenta. In the male, inhibin is produced by the Sertoli cells under the control of FSH by mechanisms involving cyclic adenosine 3', 5'-monophosphate. Testosterone exerts a minor inhibitory control at supraphysiological levels (10(-5) M), but human chorionic gonadotropin stimulation results paradoxically in a rise in serum inhibin levels. Disruption of spermatogenesis in the rat by cryptorchidism, heat treatment, or efferent duct ligation results in a decline in inhibin levels and a rise in FSH levels, findings consistent with the negative feedback action of inhibin on FSH secretion. As well as their roles in the reproductive system, inhibin and activin have more widespread actions in the haemopoietic, immune and nervous systems as evidenced by the finding of mRNA for its subunits in a range of tissues. Other studies have shown actions on erythroid differentiation and on mitotic activity in thymocytes. These actions suggest that inhibin and activin may function as growth factors as well as regulators of FSH.     

In vivo suppression of pituitary and circulatory follicle stimulating hormone by human seminal plasma inhibin

Human seminal plasma inhibin (HSPI), of prostatic origin, has been shown to bring about a dose dependent suppression in pituitary and circulatory FSH concentrations in intact rats. No significant changes in LH levels either in pituitary or in circulation were observed at the doses used. This has further been substantiated by an immunocytochemical staining. A marked reduction in staining intensity for FSH was observed in the pituitary of inhibin treated rats as compared to the controls. None of the purified inhibin peptides from other sources have so far been reported to act on pituitary FSH in vivo. This study thus, for the first time demonstrates an in vivo effect of inhibin (HSPI) on pituitary FSH concentration and secretion.     

Measurement of inhibin and an index of inhibin production by rat testes during postnatal development

Our previous studies have shown that inhibin activity in rat testes can be measured using an in vitro inhibin bioassay. In animals that have undergone unilateral efferent duct ligation (EDL), the difference in inhibin content between the ligated and nonligated testis can be used as an index of the rate of inhibin production in vivo. In the present study we examined postnatal changes in inhibin content in the testes, and the production rates of inhibin and seminiferous tubule fluid in groups of neonatal, immature, and adult rats from 1 to 80 days old. We detected inhibin activity in testes of 1-day-old rats; the activity level rose linearly to Day 8, subsequently increasing markedly from Day 30 until it reached a plateau at Day 45. Increments in the content of inhibin and weight of the testis after unilateral EDL, interpreted to represent production of inhibin and seminiferous tubule fluid, commenced at Day 20 and increased rapidly between Days 30 and 50, decreasing thereafter to Day 80. The increase in content and production of inhibin was directly correlated to the rise in serum follicle-stimulating hormone (FSH) and testosterone, suggesting that these two hormones are important in controlling inhibin secretion. In addition, the changes in serum FSH from the high, postnatal levels to those typical of adults were inversely correlated to the content and production rate inhibin in the testes and concentrations of testosterone in the serum. These data support the hypothesis that inhibin is specifically involved in the feedback control of pituitary FSH secretion during postnatal development, although a role for testosterone or a synergistic interaction between the two hormones cannot be excluded.     

Isolation of porcine follicular fluid inhibin of 32K daltons

Purification of ovarian inhibin from porcine follicular fluid was performed by using an bioassay based upon the suppression of spontaneous FSH release from cultured cells of rat anterior pituitary. The presence in the follicular fluid of four molecular forms of inhibin activity corresponding to Mr 100K, 80K, 55K and 32K was revealed by SDS-gel electrophoresis under non-reducing conditions. The smallest inhibin amongst them, named 32K inhibin, eliciting about 70% of the total activity in the follicular fluid, was separated by gel filtration in the presence of 8 M urea. By subsequent ion-exchange chromatography, followed by RP-HPLC, 32K inhibin was purified to homogeneity with a 8,000 fold purification factor in a yield of 12%. The purified 32K inhibin was found to comprise two polypeptide subunits (Mr 20K and 13K), linked by disulfide bridges and to specifically suppress the secretion of FSH, but not of LH from the pituitary cells.     

Activin stimulation of inhibin secretion and messenger RNA levels in cultured granulosa cells

Recent reports suggest that activin (the dimer of inhibin beta subunits with FSH-releasing activity) has specific receptors on ovarian granulosa cells. The present study examined the effects of purified porcine activin on inhibin secretion and mRNA levels in granulosa cells obtained from immature, estrogen-treated rats. Cells were cultured for 48 h in culture media, or media containing FSH (10 ng/ml) and/or activin (30 ng/ml). Western blot analyses performed with affinity-purified antisera to inhibin alpha- and beta A-subunits revealed that treatment with either FSH or activin increased the secretion of inhibin alpha beta dimer (Mr 30,000), with a further increase after cotreatment. These results were confirmed by an inhibin alpha-subunit RIA, which revealed 7-, 14-, and 71-fold increases in the secretion of immunoreactive inhibin-alpha by activin, FSH, and activin plus FSH, respectively. TGF beta, a structural homolog of activin, also stimulated inhibin release, whereas follistatin was ineffective. Total RNA from cultured cells was hybridized with 32P-labeled inhibin alpha-subunit cRNA or beta-actin cDNA probes, and inhibin-alpha message levels were normalized with beta-actin mRNA levels. Northern blot analysis revealed that treatment with FSH and activin increased hybridization of a 1.5 kilobase (kb) message, corresponding to the inhibin alpha-subunit mRNA. Slot blot analyses indicated a 6- and 8-fold stimulation of inhibin alpha-subunit mRNA levels by FSH and activin, respectively.(ABSTRACT TRUNCATED AT 250 WORDS)     

Rat inhibin: molecular cloning of alpha- and beta-subunit complementary deoxyribonucleic acids and expression in the ovary

Inhibin is a gonadal protein hormone that suppresses the secretion of FSH from pituitary gonadotrophs. It has previously been characterized as a heterodimer of two dissimilar subunits (alpha, 18 kilodaltons and beta, 14 kilodaltons) the smaller of which exists in two forms (beta A and beta B) and can form dimers that stimulate the secretion of FSH. In the present work, cDNA clones encoding the inhibin alpha- and beta A-subunits have been isolated from rat ovary and characterized. The alpha-inhibin cDNA predicts a precursor protein of 366 amino acids containing the 133 amino acid mature alpha-subunit at its COOH-terminus. The beta A-inhibin cDNA predicts a precursor protein of 424 amino acids containing the 116 amino acid beta A-subunit at its COOH-terminus. Analysis of rat ovarian RNA indicates that alpha-inhibin mRNA levels are stimulated by PMSG treatment in vivo. In cultured granulosa cells, FSH also stimulates alpha-inhibin mRNA, and the FSH effect is suppressed by cotreatment with GnRH. Hybridization in situ to rat ovarian tissue demonstrates that both the alpha-inhibin and beta A-inhibin mRNAs are specifically expressed in granulosa cells of the developing follicles.     

Kinetics of inhibin secretion in static and superfused Sertoli cell cultures in response to follicle-stimulating hormone

It is generally accepted that inhibin secretion in the testis is regulated by FSH; however, the kinetics of inhibin secretion have not been well defined in vivo and in vitro. We investigated the kinetics of inhibin secretion in response to FSH stimulation in static and superfused Sertoli cell cultures. Sertoli cells from 18-day-old rats were cultured in chemically defined medium for 3 days and were then stimulated for different time periods with FSH (0.1 microgram/ml). In static cultures, media were changed every 2, 4, or 8 h, and the superfusion was carried out at a steady rate of 3 ml/h. Inhibin in the culture media was measured by RIA, using antiserum against synthetic replicate [30Tyr]inhibin alpha-chain-(1-30) and, in some experiments, also by bioassay. The dynamics of inhibin secretion were similar in static and superfused Sertoli cell cultures. A significant increase (p less than 0.01) of inhibin secretion was noted after 5-6 h of FSH exposure. After 8-12 h of continuous FSH presence, the secretion of inhibin reached a maximal level, 5-10-fold higher than basal secretion (no FSH). In the continuous presence of FSH, inhibin secretion remained stable at the high level for up to 54 h. FSH removal caused a delayed (8-h) decrease (p less than 0.01) of inhibin secretion, with return to control basal values after approximately 30 h. When FSH was removed 4 h after its addition, inhibin secretion again increased 5-10-fold between 4 and 12 h, then returned to basal values within 30 h.(ABSTRACT TRUNCATED AT 250 WORDS)     

Inhibition of LHRH-induced LH and FSH release by gonadotrophin surge-attenuating factor (GnSAF) from human follicular fluid

It has been suggested that in superovulated women the endogenous LH surge is attenuated by a non-steroidal factor, called gonadotrophin surge-attenuating factor (GnSAF), which reduces gonadotrophin secretion in response to LHRH. To determine whether human follicular fluid (hFF) from superovulated women contains GnSAF activity, the secretion of LH and FSH by cultured sheep pituitaries was studied. After charcoal extraction of steroids, hFF was treated by heparin/Sepharose chromatography, which reversibly binds inhibin. The effects of whole hFF and the bound and unbound fractions on basal and LHRH-induced gonadotrophin secretion were then assessed. Steroid-free hFF significantly reduced basal FSH, but not basal LH, secretion, and significantly attenuated the LH and FSH responses to LHRH. The bound (inhibin) fraction significantly decreased both basal and LHRH-induced FSH secretion but did not affect LH release. The unbound fraction had no effect on basal LH or FSH secretion, but significantly attenuated LHRH-induced secretion of both LH and FSH. We conclude that the unbound fraction of hFF from superovulated women contains GnSAF. It has been demonstrated that GnSAF is a non-steroidal factor and its activity is distinct from that of inhibin.     

Production and endocrine role of inhibin during the early development of bull calves.

This study investigated the ontogeny of control of FSH secretion by inhibin during early prepubertal development of bulls by 1) measurements of circulating levels of inhibin and FSH from 1 to 13 wk of age, and 2) immunoneutralization of endogenous inhibin at 7, 21, 60, and 120 days of age. In addition, production and localization of inhibin in testes were examined by immunohistochemistry and Western blots at 7, 21, 60, and 120 days of age. Plasma immunoreactive inhibin levels were relatively low between 1 and 3 wk of age and then showed a tendency to rise (P < 0.1) from 4 wk of age. Circulating concentrations of FSH were low during 3 wk after birth and increased at 5 wk, remained high (P < 0.05) until 16 wk of age. Treatment with inhibin antiserum resulted in a significant (P < 0.05) increase in plasma FSH at 7, 21, 60, and 120 days of age compared to those following injection of control serum; however, the magnitude of the FSH rise after inhibin immunization was greater as bulls aged. There were no significant changes in plasma LH after inhibin immunization. An intense staining of inhibin alpha subunits was found in Sertoli cells within the solid seminiferous cords from 7 to 120 days of age, while no specific immune reaction was found in interstitial cells. Western blot analysis of testicular homogenates isolated from bulls 7-120 days of age revealed presence of a 28.5-kDa molecule that cross-reacted with inhibin alpha subunit and beta(B) subunit-specific antibodies. In this study, before 13 wk of age in bull calves, there was no inverse relationship between plasma concentrations of immunoreactive inhibin and FSH. However, the present immunization study clearly indicates that inhibin participates in the regulation of FSH secretion from infancy to early prepubertal stage, although the endocrine significance of inhibin becomes greater in older bulls. The results also indicate that the major production site of inhibin in the testis is Sertoli cells and that these cells produce inhibin that exerts a negative feedback effect on FSH secretion from early stages of development.     

Inhibin secretion during the rat estrous cycle: relationships to FSH secretion and FSH beta subunit mRNA concentrations

Serum inhibin and FSH and FSH beta subunit mRNA levels were measured at 3h intervals throughout the 4 day estrous cycle in female rats and hourly between 1000 and 2400 h of proestrus. On proestrus, serum inhibin concentrations fell during the late morning-early afternoon, then increased transiently during the late afternoon gonadotropin surges. Inhibin levels decreased during the late evening of proestrus, coincident with the FSH surge-related rise in FSH beta mRNA levels. Serum inhibin remained relatively stable during estrus and early metestrus, but rose during the late evening of metestrus and remained elevated until early diestrus. FSH beta mRNA levels were elevated on late estrus and early metestrus and declined during the evening of metestrus as serum inhibin levels increased. These data show that concentrations of serum inhibin change during the estrous cycle and that a general inverse relationship exists between serum inhibin and FSH levels and FSH beta mRNA concentrations in the pituitary. This suggests that inhibin may inhibit FSH beta gene expression and FSH secretion during the 4 day cycle in female rats.     

Dexamethasone increases inhibin and estradiol secretion mediated by endogenous FSH in equine chorionic gonadotropin (eCG)-primed immature female rats.

In the present study, we have examined whether the effects of dexamethasone on follicle stimulating hormone (FSH) secretion were mediated by hypophysiotropic factors, and whether the increased levels of FSH induced by dexamethasone can stimulate ovarian functions in equine chorionic gonadotropin (eCG)-primed immature female rats. Dexamethasone (500 microg) significantly increased serum concentrations of FSH in hypophysectomized rats implanted with pituitary under the kidney capsule, as well as in intact rats. Serum concentrations of inhibin and estradiol in eCG (2.5, 5 i.u.)-primed rats were significantly increased by simultaneous treatment with dexamethasone (500 microg) and eCG. These simultaneous effects were not confirmed in hypophysectomized rats. The results had shown that hypophysiotropic factors do not mediate the selective increase of FSH secretion caused by dexamethasone. Dexamethasone induces the excess amount of FSH secretion from anterior pituitary and this FSH can stimulate inhibin and estradiol secretion in eCG-primed immature female rat.     

Changes in plasma inhibin levels following pulsatile gonadotrophin-releasing hormone therapy in a man with idiopathic hypogonadotrophic hypogonadism

Changes in circulating inhibin levels were related to changes in testosterone (T) and the gonadotrophins luteinizing hormone (LH) and follicle-stimulating hormone (FSH) in a hypogonadotrophic hypogonadal man before and during pulsatile gonadotrophin-releasing hormone therapy which resulted in normal spermatogenesis. Before treatment, the plasma inhibin levels in the patient (210 +/- 50 U/l; mean +/- SD of four samples) were lower than in normal controls (552 +/- 150 U/l; p less than 0.01), as were T (1.1 nmol/l) and gonadotrophin (less than 1.0 IU/l) levels. Within 1 week of gonadotrophin-releasing hormone treatment, plasma LH (14.1 +/- 0.7 IU/l) and FSH (14.4 +/- 0.6 IU/l) reached supraphysiological levels. In response, T and inhibin concentrations increased progressively to reach high normal levels (27.7 +/- 1.6 nmol/l and 609 +/- 140 U/l) at 4 weeks, by which time the gonadotrophin levels stared to decline and gradually returned to the normal range between 12 and 24 weeks of treatment. There was a concomitant decrease in T and inhibin levels which remained within the normal range. The decline in the FSH level following the rise in testicular hormones was earlier and steeper than that of LH (37.5% decrease at 4 weeks vs. 30.4% at 12 weeks), suggesting that T and inhibin may act together to inhibit pituitary FSH secretion as opposed to LH secretion which is primarily controlled by T. It is concluded that, in man, during maturation of the pituitary-testicular axis, changes in circulating inhibin parallel those of T, and quantitatively normal inhibin secretion is dependent on gonadotrophin stimulation. FSH secretion may be regulated through negative feedback control, by both T and inhibin.     

Immunoreactive inhibin levels in peripheral blood during the breeding season in the female Japanese monkey

Serum levels of immunoreactive inhibin as well as FSH, LH, estradiol-17 beta, and progesterone were measured by RIA in four mature female Japanese monkeys (Macaca fuscata fuscata) during the breeding season and subsequent transition into the nonbreeding season. During the breeding season, each monkey showed 2-6 ovulations, which were inferred from underlying endocrine events. The concentrations of serum inhibin increased during the luteal phase, but were low during the follicular phase. Such changes in serum inhibin levels correlated positively with those in serum progesterone levels. Basal levels of serum inhibin also increased during the breeding season, decreased during transition from the breeding season, and were low during the nonbreeding season. The parallel change in serum levels of inhibin and progesterone together with the increased basal levels of serum inhibin during this period suggests that both the CL and antral follicles are sources of circulating inhibin. Decreases in serum FSH levels during the luteal phase suggest that secretion of FSH is controlled by an inhibitory action of ovarian inhibin in addition to steroid hormones.     

Inhibin, activin, and follistatin: regulation of follicle-stimulating hormone messenger ribonucleic acid levels

Primary pituitary cell cultures derived from adult male rats were used to explore the direct effects of purified porcine inhibin and follistatin, and recombinant human activin A on FSH beta, as well as LH beta and alpha-subunit mRNA levels. Subunit mRNAs were determined by blot hybridization using alpha, LH beta, and FSH beta cDNA and genomic fragments. Treatment with inhibin for 72 h significantly suppressed alpha and FSH beta mRNA levels with parallel changes in FSH secretion. No change in LH beta mRNA levels was observed. A decrease in FSH beta mRNA to undetectable levels was seen 4 h after inhibin administration. Recombinant human Activin A caused dose-dependent and parallel increases in FSH beta mRNA levels and FSH secretion. This increase was evident at 4 h after activin administration and maintained at longer times. alpha and LH beta mRNA levels remained unchanged. Follistatin addition to cultures for 72 h significantly reduced FSH beta mRNA levels. In a time-course experiment, a reduction in FSH beta mRNA to undetectable levels was observed 24 h after follistatin administration. There were no changes in alpha or LH beta mRNA levels. These data demonstrate that the actions of these gonadal peptides on FSH secretion may be accounted for, at least in part at the level of biosynthesis, by reductions in FSH beta mRNA levels directly at the level of the anterior pituitary gland.     

Mapping of genes for inhibin subunits alpha, beta A, and beta B on human and mouse chromosomes and studies of jsd mice

Inhibin (INH) is a gonadal glycoprotein hormone that regulates pituitary FSH secretion and may also play a role in the regulation of androgen biosynthesis. There are two forms of inhibin that strongly inhibit pituitary FSH secretion. These share the same alpha subunit that is covalently linked to one of two distinct beta subunits (beta A or beta B). However, dimers of two beta subunits are potent stimulators of FSH synthesis and release in vitro. The beta subunits share extensive sequence similarity with transforming growth factor beta. Recently isolated cDNAs for all three inhibin subunits have been used to map their cognate loci on human and mouse chromosomes by Southern blot analysis of somatic cell hybrid DNAs and by in situ hybridization. INH alpha and INH beta B genes were assigned to human chromosome 2, regions q33----qter and cen----q13, respectively, and to mouse chromosome 1. The INH beta A locus was mapped to human chromosome 7p15----p14 and mouse chromosome 13. The region of mouse chromosome 1 that carries other genes known to have homologs on human chromosome 2q includes the jsd locus (for juvenile spermatogonial depletion). Adult jsd/jsd mice have elevated levels of serum FSH and their testes are devoid of spermatogonial cells. The possibility that the mutation in jsd involves the INH alpha or INH beta B gene was investigated by Southern blotting of DNA from jsd/jsd mice, and no major deletions or rearrangements were detected.     

Negative feedback regulation of the secretion and actions of gonadotropin-releasing hormone in males

This minireview considers the state of knowledge regarding the interactions of testicular hormones to regulate the secretion and actions of GnRH in males, with special focus on research conducted in rams and male rhesus monkeys. In these two species, LH secretion is under the negative feedback regulation of testicular steroids that act predominantly within the central nervous system to suppress GnRH secretion. The extent to which these actions of testicular steroids result from the direct actions of testosterone or its primary metabolites, estradiol or dihydrotestosterone, is unclear. Because GnRH neurons do not contain steroid receptors, the testicular steroids must influence GnRH neurons via afferent neurons, which are largely undefined. The feedback regulation of FSH is controlled by inhibin acting directly at the pituitary gland. In male rhesus monkeys, the feedback regulation of FSH secretion is accounted for totally by the physiologically relevant form of inhibin, which appears to be inhibin B. In rams, the feedback regulation of FSH secretion involves the actions of inhibin and testosterone and interactions between these hormones, but the physiologically relevant form of inhibin has not been determined. The mechanisms of action for inhibin are not known.     

Alpha-inhibin gene expression occurs in the ovine adrenal cortex, and is regulated by adrenocorticotropin

Inhibin is a glycoprotein hormone composed of two nonidentical subunits. It is produced by the ovary and testis and plays a vital role in gonadal function by inhibiting the secretion of FSH. More recently, additional activities associated with inhibin peptides have been identified. Inhibin heterodimers (alpha-beta) are reported to act directly on ovarian granulosa cells and inhibit estrogen production induced by FSH. Furthermore, homodimers of beta-inhibin subunits stimulate the secretion of FSH, an activity that is directly opposite to that of inhibin. Each of these inhibin-related activities are concerned with the hypothalamic-pituitary-gonadal axis. We have investigated further the complexity of inhibin activity by determining whether inhibin genes are expressed in nongonadal tissue. RNA hybridization experiments demonstrate that the alpha-inhibin gene is expressed in the sheep adrenal cortex and hybridization histochemistry shows that this gene is expressed in each of the functional zones within the cortex. Dot blot analysis showed that the level of alpha mRNA within the adrenal is influenced by ACTH, one of the major regulators of adrenal cortex function. These observations imply that there are inhibin-related peptides not directly associated with the gonads. beta-inhibin gene expression was not clearly detected in the adrenal and we conclude that if expression occurs then it does so at extremely low levels.     

Effects of bovine follicular fluid inhibin on serum gonadotrophin concentrations in ewes during oestrus

Experiments were conducted with ewes to investigate the effects of an enriched bovine follicular fluid inhibin preparation (INH) on gonadotrophin secretion after the onset of oestrus. Administration of INH (10 mg) 1 h after the onset of oestrus did not significantly alter the preovulatory FSH and LH surges or the second FSH peak. To determine the effects of INH on the second FSH surge, ewes were treated with saline (N = 7) or INH (N = 10) at 4 h (10 mg) and 24 h (5 mg) after the peak of the preovulatory LH surge. The second FSH surge was delayed about 24 h (P less than 0.05) in ewes treated with INH; however, the delay did not alter the interval to the next oestrus. In a third experiment, 16 ewes were assigned to 4 groups in a 2 x 2 factorial with the main effects being ovariectomy at 4 h and INH treatment (10 mg) at 4, 20 and 36 h after the peak of the LH surge. Controls received sham ovariectomy and saline injection as appropriate. Ovariectomy resulted in a rapid increase in serum FSH but not LH and this was delayed (P less than 0.05) by INH treatment. These results indicate that inhibin has a selective inhibitory action on FSH secretion in ewes and suggests that the second FSH surge results from increased basal FSH secretion due to decreased endogenous inhibin levels.     

Regulation of pulsatile gonadotropin secretion by estrogen, inhibin, and follistatin (activin-binding protein) in ovariectomized rats.

The following study was conducted to examine the effects of estrogen and polypeptides, given either alone or in combination, on pulsatile gonadotropin secretion. One week after ovariectomy, rats received s.c. injections of oil or various doses (0.5, 5, 20 micrograms) of estradiol benzoate (EB) followed 1 day later by i.v. administration of 60 micrograms purified porcine follistatin, 10 micrograms recombinant inhibin, or the appropriate vehicle. Four hours after injection of the nonsteroids, blood was collected at 10-min intervals for 2 h, and the effects on pulsatile hormone release were assessed. Administration of EB alone dose-dependently suppressed mean and trough (lowest point between two pulses) FSH levels and all parameters of pulsatile LH release. Both follistatin and inhibin at the doses employed suppressed mean FSH levels to an equivalent extent (40%). Follistatin, but not inhibin, suppressed FSH pulse amplitude, while neither polypeptide alone influenced FSH pulse frequency or any parameter of pulsatile LH release. The effects of follistatin and EB on mean FSH levels were additive at all EB doses, whereas the effects of inhibin and EB were additive only at the middle EB dose. Follistatin in combination with the lowest EB dose significantly suppressed mean LH levels. These studies are the first to demonstrate that combined treatment with estrogen and the nonsteroids follistatin and inhibin is more efficacious in suppressing FSH release than treatment with either agent alone, thereby indicating that both steroids and nonsteroids are probably important in the physiological regulation of FSH secretion in rats. The additive effects of these compounds on FSH secretion could form the basis for exploring novel contraceptive interventions.