Regulation of FSH beta messenger ribonucleic acid levels in the rat by endogenous inhibin.

This study investigated the role of endogenous inhibin in regulating FSH beta mRNA levels subsequent to the gonadotropin surge in the immature, estradiol (E2)-treated female rat. Rats which undergo FSH surges on day 29 have low to undetectable levels of FSH beta mRNA at 0900 h on day 30, whereas those treated simultaneously with E2 and progesterone (P) implants to block these surges have considerably higher levels of FSH beta mRNA. In view of the profound inhibitory effect of inhibin on FSH beta mRNA, we examined the possibility that increased inhibin secretion is responsible for the decline in FSH beta mRNA levels on the morning after the FSH surge by immunoneutralization of endogenous inhibin. Twenty-eight day-old rats which received E2 and blank (B1) or P implants were injected iv with 0.4 ml of a potent anti-rat inhibin serum (anti I alpha, prepared in sheep against rat inhibin alpha (1-26)-Tyr27 coupled to human alpha-globulins) or normal sheep serum at 1700 to 1830 h on day 29 and were killed at 0900 h on day 30. Animals which received the inhibin antiserum showed significantly (P less than 0.001) elevated serum FSH levels (22.9 +/- 1.9 ng/ml [E2 + B1] and 17.1 +/- 0.6 ng/ml [E2 + P]) compared to those which received normal serum (4.4 +/- 0.1 [E2 + B1] and 4.2 +/- 0.1 [E2 + P]). Serum LH was undetectable (less than 0.6 ng/ml) in all groups. Free glycoprotein alpha-subunit was also increased (P less than 0.001) by antiserum to inhibin in E2 + B1-treated rats but was significantly suppressed by P after injection of either normal serum or anti I alpha. Total pituitary RNA was extracted and hybridized to cDNA probes for rat FSH beta, LH beta, and the common alpha-subunit by Northern blot analysis; RNA levels were normalized with beta-actin or cyclophilin probes. As expected, in rats which received normal serum, FSH beta mRNA levels were about 4-fold higher after treatment with E2 + P implants than after treatment with E2 + B1 implants. However, injection with anti-inhibin serum resulted in a striking elevation of FSH beta mRNA levels: 13-fold in animals treated with E2 + B1 implants and 5-fold in animals treated with E2 + P implants. There were no significant differences in levels of LH beta or alpha-subunit mRNAs between rats which received anti-inhibin or normal serum although there was a 30-40% decrease in alpha mRNA after P treatment.(ABSTRACT TRUNCATED AT 400 WORDS)     

Ovarian and peripheral blood inhibin concentrations increase with gonadotropin treatment in immature rats

The effects of PMSG treatment on ovarian and circulating inhibin concentrations in immature female rats has been examined. Sixty-four hours after injection of 10, 20 or 40 IU of PMSG the animals were anesthetized with ether; ovaries, uteri and blood from the abdominal aorta were collected. Steroid-free extracts of ovary and serum samples were prepared and assayed quantitatively for inhibin activity in an in vitro bioassay system. PMSG treatment elevated (p less than 0.001) both uterine and ovarian wt, and ovarian and peripheral concentrations of inhibin. A dose-related increase occurred ovarian wt, and in peripheral and ovarian content of inhibin. Ovarian inhibin concentration increased with dose of PMSG until the highest dose, where a significant decline and luteinization were seen. Peripheral FSH levels were significantly lowered at all doses of PMSG treatment; in contrasts, LH was significantly elevated, due to cross-reaction of PMSG in the LH assay. These results show that both ovarian and circulating levels of inhibin are related to the degree of gonadotropic stimulation, supporting the view that inhibin is involved in folliculogenesis and in the feedback regulation of FSH.     

Neonatal glucocorticoid administration: effect on the diurnal rhythm of serum concentrations of corticosterone, progesterone and LH, and the response to pregnant mare serum gonadotrophin in immature female rats

The effects of neonatal cortisol acetate administration on diurnal changes in serum corticosterone, progesterone and LH and on the response to pregnant mare serum gonadotrophin (PMSG) were examined in immature female rats. Neonatal cortisol treatment (250 micrograms/rat) abolished the diurnal rhythm of serum progesterone in rats at 27-29 days of age, and lowered overall the serum progesterone response to PMSG. Neonatal cortisol also reduced the number of animals ovulating on day 28 after PMSG injection 48 h earlier. This dosage of cortisol did not alter the diurnal rhythm of serum corticosterone in these animals. Serum LH concentrations in control rats at 27-29 days of age did not differ between 09.00 and 18.00 h, and prior treatment with cortisol acetate did not significantly influence serum concentrations of this hormone. Our data suggest that ovarian production of progesterone contributes significantly to diurnal fluctuations of this steroid in the circulation of immature rats. Perinatal exposure to cortisol acetate abolishes the diurnal rhythm of serum progesterone and impairs the ovarian response of the immature female rat to PMSG. The mechanism(s) by which cortisol acetate alters these processes remains to be determined.     

Effect of pregnant mare serum gonadotropin on the induction and degradation of FSH and LH receptors in the granulosa cell of the immature rat

The relative induction of FSH and LH receptors in the granulosa cells of immature rat ovary by pregnant mare serum gonadotropin (PMSG) has been studied. A single injection of PMSG (15 IU) brought about a 3- and 12-fold increase in FSH and LH receptor concentration, respectively, in the granulosa cells. Maximal concentration was reached by 72 h but the receptor levels showed a sharp decline during the next 24-48 h. The kinetic properties of the newly formed FSH receptors were indistinguishable from the pre-existing ones. The induced FSH receptors were functional as demonstrated by an increase in the in vitro responsiveness of the cells to exogenous FSH in terms of progesterone production. Treatment of immature rats with cyanoketone, an inhibitor of delta 5,3 beta-hydroxysteroid dehydrogenase, prior to PMSG injection effectively reduced the PMSG-stimulated increase in the serum estradiol, uterine weight and LH receptors but had no effect on the FSH receptor induction. The ability of PMSG to induce gonadotropin receptors can be arrested at any given time by injecting its antibody, thereby suggesting a continuous need for the hormonal inducer. Estrogen in the absence of the primary inducer was unable to maintain the induced LH and FSH receptor concentration. Inhibition of prostaglandin synthesis using indomethacin aslo had no effect on either the induction or degradation of gonadotropin receptors. Administration of PMSG antiserum, 48 h after PMSG injection, brought about a rapid decline in the induced receptors over the next 24 h, with a rate constant and t 1/2 of 0.078 h-1 and 8.9 h for FSH receptors and 0.086 h-1 and 8.0 h for the LH receptors, respectively.     

In vivo regulation of FSH synthesis by inhibin and activin

The effect of a single sc injection of the gonadal peptide, recombinant human activin A (rhActivin A), on gonadotropin synthesis and secretion was examined in adult and immature male and female rats and the effect of recombinant human inhibin A (rhInhibin A) was examined in adult male rats. Pituitary FSH beta, LH beta and alpha messenger RNA (mRNA) levels were determined by blot hybridization. Trunk blood was collected to measure serum FSH levels. Treatment with rhInhibin A (100 micrograms/kg) resulted in a decrease in FSH beta mRNA to 2% of controls levels 6 h after injection. FSH beta mRNA levels started to rebound at 10 h, but were still significantly lower than vehicle-treated controls. Serum FSH levels were significantly reduced at 2 h and were reduced further at 6 and 10 h. There were no significant changes in alpha and LH beta mRNA levels. RhActivin A, at the highest dose (500 micrograms/kg), in immature male rats had only a modest effect (1.2- and 1.3-fold increase) on FSH beta mRNA levels and FSH secretion, respectively, at 2 h. No increase in FSH synthesis and FSH secretion was observed in adult male rats. In contrast, both immature and adult-ovariectomized E2 implanted females showed a robust response to rhActivin A. In immature females, 2 h after rhActivin A (100 and 500 micrograms/kg) administration, FSH beta mRNA levels were elevated 2.0- and 2.2-fold. At this time serum FSH was also elevated. At 6 and 10 h rhActivin A significantly reduced FSH beta mRNA levels from vehicle-treated controls. In contrast, FSH secretion was elevated at 6 h and returned to baseline at 10 h. Administration of rhActivin A (500 micrograms/kg) to adult, ovariectomized-E2 females resulted in a significant increase in FSH beta mRNA levels and FSH secretion at 2 and 6 h. There were no significant changes in alpha and LH beta mRNA levels in either males or females. Thus, these in vivo studies have shown that rhInhibin A can inhibit FSH beta mRNA levels and FSH secretion in the adult male rat. RhActivin A stimulates FSH synthesis and secretion in the immature and adult ovariectomized-E2 females, but has little or no effect in immature and adult males. Hence, there is a sexual dimorphic response to rhActivin A in vivo in the rat.     

Regulation of inhibin subunit gene expression by FSH and estradiol in cultured rat granulosa cells

Roles of follicle-stimulating hormone (FSH) and sex steroids in regulating the expression of mRNA species encoding the alpha-, beta A- and beta B-subunits of inhibin were studied in cultured granulosa cells from immature rat ovaries. Inhibin subunit mRNAs were detected by Northern blot analysis of total RNA extracted from granulosa cell monolayers which had been incubated for 48 h in serum-free medium containing FSH (100 ng/ml) and/or a steroid (10(-6) M): estradiol (E), testosterone (T) or 5 alpha-dihydrotestosterone (DHT). Levels of mRNA encoding each inhibin subunit in untreated (control) cultures were low. In cultures treated with FSH alone, levels of inhibin alpha-, beta A- and beta B-subunit mRNA were approximately 60-fold, 70-fold and 66-fold greater than control, respectively. In cultures treated with E alone, levels of inhibin alpha- and beta B-subunit mRNA were elevated approximately 4-fold and 2-fold, respectively, but the level of inhibin beta A-subunit mRNA was not measurably affected. Treatment with T or DHT alone had no consistent effect on the levels of any inhibin subunit mRNA. The stimulatory effects of FSH were not consistently altered by the presence of either androgen or estrogen. These results confirm the role of FSH in regulating inhibin alpha-subunit gene expression and provide direct evidence that both inhibin beta-subunit genes are inducible by FSH in granulosa cells. All three inhibin subunit mRNAs followed the same pattern, suggesting that their expression is coordinately regulated by FSH during granulosa cell differentiation.     

Hormonal regulation of gonadotropin receptor mRNA in rat ovary during follicular growth and luteinization.

To investigate the regulation of the follicle-stimulating hormone (FSH) and luteinizing hormone/human chorionic gonadotropin (LH/hCG) receptor genes by gonadotropins, we examined the effect of pregnant mare's serum gonadotropin (PMSG) or PMSG-hCG on the expression of FSH and LH/hCG receptors in rat ovaries. After administration of PMSG, Northern blot analysis using the FSH receptor cDNA probe revealed that a major band of 2400 nucleotides was detected which reached the maximal level on day 3. On the other hand, the level of LH/hCG receptor mRNA, a major mRNA of 5400 nucleotides and minor species of 7500, 3600, 2300 and 1200 nucleotides, increased progressively during 4 days. Treatment with hCG resulted in a decrease of FSH and LH/hCG receptor mRNA levels, and the level of FSH receptor mRNA was completely suppressed. Although the level of LH/hCG receptor mRNA was also suppressed from 3 h to an almost undetectable level at 24 h after hCG injection, it recovered to the control level by 48 h and exceeded this level several fold by 72 h. The reappearance of LH/hCG receptors following desensitization was preceded by an increase in mRNA levels. These studies demonstrate that hormonal regulation of gonadotropin receptor mRNAs on rat ovary reflects the changes in gonadotropin receptor levels.     

The importance of luteinizing hormone in the control of inhibin and progesterone secretion by the human corpus luteum

Serum inhibin levels rise markedly during the luteal phase of the human menstrual cycle and are closely correlated with serum progesterone (P) levels, suggesting that the corpus luteum (CL) secretes inhibin. While FSH is the major regulator of inhibin secretion by the granulosa cells, the control of CL inhibin secretion is unclear. We hypothesized that, like P, CL inhibin secretion would be LH dependent. To examine this possibility, normal women were given the GnRH antagonist [Ac-D2Nal1, D4CL Phe2, D3Pal3, Arg5, DGlu6 (AA), DAla10]GnRH (Nal-Glu antagonist) for 3 consecutive days commencing on day 6-8 of the luteal phase. The daily doses were 2.5 (n = 3), 10 (n = 4), and 25 micrograms/kg (n = 5), sc. Serum LH levels fell 2 h after injection, and the fall was maximal (70-74%) at 6 h; the degree of suppression was not dose dependent. The duration of suppression was dose related, being less than 12 h, between 12, and 24 h, and more than 24 h for the 2.5, 10, and 25 micrograms/kg doses, respectively. Serum FSH levels declined by 22-43%, but the effect was not dose related. Serum P levels fell by 42-45% 8 h after each dose of antagonist. They returned to baseline 24 h after the 2.5 micrograms/kg dose, but after both the 10 and 25 micrograms/kg doses serum P levels continued to fall, and menstrual bleeding commenced within 48-72 h after the first antagonist injection. Serum inhibin levels were not altered relative to normal cycles by the 2.5 micrograms/kg dose, but fell by 48% and 58%, and 62% and 73% respectively, 48 and 72 h after the 10 and 25 micrograms/kg doses, respectively. Serum P and inhibin levels correlated closely in all women. To examine the relative roles of FSH and LH in the control of CL function, Nal-Glu antagonist (25 micrograms/kg, sc) was administered at 0 and 24 h commencing on day 6-8 of the luteal phase, in combination with either human menopausal gonadotropin (hMG; 150 IU, im, every 12 h) or hCG (1500 IU, im, once), both commencing at 0 h. hMG administration led to a rapid (by 2 h) and marked (3- to 9-fold) rise in serum FSH levels, whereas serum LH remained low, similar to antagonist alone treatment cycless.(ABSTRACT TRUNCATED AT 400 WORDS)     

Stimulation of serum inhibin concentrations by gonadotropin-releasing hormone in men with idiopathic hypogonadotropic hypogonadism

Inhibin is a gonadal hormone thought to be important in FSH regulation. We investigated the effects of the hypogonadotropic state and subsequent GnRH-induced increases in gonadotropin levels on inhibin secretion. Serum levels of inhibin, LH, FSH, and testosterone (T) as well as sperm concentrations were measured in 5 men with idiopathic hypogonadotropic hypogonadism (IHH) before (baseline) and during 8 weeks of GnRH therapy (5 micrograms, sc, every 2 h). Baseline and peak inhibin levels were compared to those in a group of 19 normal men. Before GnRH administration, the mean serum inhibin level was significantly lower in the IHH men than in the normal men [166 +/- 56 (+/- SE) vs. 588 +/- 30 U/L; P less than 0.001]. Serum inhibin levels rose after 1 week of GnRH therapy (P less than 0.05) and remained higher than the baseline level thereafter. The mean peak inhibin level during GnRH administration was lower than the mean value in normal men (485 +/- 166 vs. 588 +/- 30 U/L; P less than 0.05). Serum LH and FSH levels rose promptly to the midnormal range or slightly above it. Serum T levels did not significantly increase until 4-5 weeks of GnRH administration and remained in the low normal range. All IHH men were azoospermic throughout the study. These data are consistent with the hypothesis that inhibin is produced by the testis under gonadotropin control. They also suggest the possibility of defective Sertoli and Leydig cell function in men with IHH, since the men's serum inhibin and T levels did not rise to the same extent as did their normalized serum gonadotropin levels during GnRH administration.     

Pachytene spermatocytes in co-culture inhibit rat Sertoli cell synthesis of inhibin beta B-subunit and inhibin B but not the inhibin alpha-subunit

This study investigates the effects of spermatogenic germ cells on inhibin alpha-subunit and beta B-subunit expression, and inhibin alpha-subunit and inhibin B production by rat Sertoli cells in vitro. Sertoli cells isolated from 19-day-old rats were cultured for 48 h at 32 degrees C, in the presence or absence of FSH (2.3-2350 mIU/ml), and in the presence of pachytene spermatocytes, round spermatids or cytoplasts of elongated spermatids purified from adult rat testis by elutriation and density gradient separation. Sertoli cell secretion of inhibin alpha-subunit and inhibin B, as measured by immunoassay, was dose-dependently stimulated by FSH (maximal stimulation 13- and 2-fold, respectively). Round spermatids or cytoplasts co-cultured with Sertoli cells had no effect on basal or FSH-induced secretion of inhibin alpha-subunit or inhibin B. When Sertoli cells were co-cultured with pachytene spermatocytes, inhibin alpha-subunit secretion was unaltered, while inhibin B secretion was suppressed in a cell concentration-dependent manner to reach a maximal suppression of 45% compared with Sertoli cells alone (P<0.01). A similar suppression in inhibin B was still observed (64% of Sertoli cells alone) when the pachytene spermatocytes were separated from Sertoli cells by a 0.45 microm pore membrane barrier in bicameral chambers. Pachytene spermatocytes also suppressed FSH-induced inhibin B levels in Sertoli cell co-cultures and this suppression was attributed to a decrease in basal inhibin B production rather than a change in FSH responsiveness. Quantitation of Sertoli cell inhibin alpha- and beta B-subunit mRNA by quantitative (real-time) PCR demonstrated that pachytene spermatocytes did not alter Sertoli cell alpha-subunit mRNA expression, but significantly (P<0.01) suppressed basal and FSH-induced beta B-subunit mRNA expression to a similar degree to that seen with inhibin B protein levels. It is concluded that pachytene spermatocytes in vitro suppress Sertoli cell inhibin B secretion via factor-mediated suppression of inhibin beta B-subunit expression. These findings support the hypothesis that specific germ cell types can influence inhibin B secretion by the testis independent of FSH regulation.     

Effects of recombinant human inhibin and testosterone on gonadotropin secretion and subunit mRNA in superfused male rat pituitary cell cultures stimulated with pulsatile gonadotropin-releasing hormone.

Effects of recombinant human inhibin (rh inhibin) and testosterone on follicle-stimulating hormone (FSH) and luteinizing hormone (LH) secretion and mRNA levels of gonadotropin subunits were investigated in superfused male rat pituitary cell cultures. During superfusion, the cells were stimulated with gonadotropin-releasing hormone (GnRH) pulses (10 nM, 6 min/h) and exposed to rh inhibin (2 ng/ml) and/or testosterone (10 nM) for up to 20 h. The concentrations of FSH and LH were measured in effluent media by radioimmunoassay (RIA), and subunit mRNAs were determined by Northern blot hybridizations using rat FSH beta, LH beta and alpha genomic and cDNA probes. Rh inhibin suppressed the secretion of FSH (30-40% of control) and the secretion of LH to 50-60% of control, but inhibited only FSH beta mRNA (to non-detectable levels). Testosterone alone suppressed the release of LH to 50% of control, whereas FSH release was increased to 130-160% (P less than 0.05) of control. This increase was due to higher interpulse values without significant changes in the pulse amplitude. Also FSH beta mRNA level was increased (1.5-fold, P less than 0.05) but only after 17-20 h of treatment. On the other hand, testosterone had no effect on LH beta and alpha subunit mRNA levels. Testosterone in combination with rh inhibin showed an inhibitory effect on LH beta mRNA; however, the pattern of LH release was not significantly different from that observed with rh inhibin or testosterone alone. Combined effects of testosterone and rh inhibin on FSH secretion and FSH beta mRNA were similar to those observed with rh inhibin alone.(ABSTRACT TRUNCATED AT 250 WORDS)     

Comparison of the effects of cycloheximide and inhibin on the gonadotropin subunit messenger ribonucleic acids.

Cycloheximide (CHX) has been shown to mimic the action of inhibin on gonadotropin secretion by pituitary cell cultures. We showed previously that suppression of FSH secretion by inhibin is associated with a rapid and profound suppression of FSH beta mRNA levels. The present study was designed to examine the mechanism of action of CHX and to determine whether inhibin's actions involve new proteins synthesis. Pituitary cell cultures were treated with control medium or medium containing inhibin, CHX, or inhibin plus CHX for 2 or 6 h. At 6 h, secretion of FSH was decreased by inhibin (72% of control), CHX (58% of control), and the combined inhibitors (56% of control). LH secretion was not significantly changed, while that of free alpha-subunit was reduced only by CHX (68% of control). Levels of FSH beta, LH beta, and alpha-subunit mRNAs were measured by Northern analysis. At 2 h inhibin decreased FSH beta mRNA to 49% of the control value. CHX alone had no effect, while CHX plus inhibin produced intermediate levels (77% of control). By 6 h, however, inhibin and CHX each decreased FSH beta mRNA to very low levels (12% and 15% of control, respectively), and in cultures treated with both inhibin and CHX, this RNA was barely detectable. To determine the reversibility of the effects of these inhibitors, cells were incubated with fresh control medium after 6 h. Secretion of FSH and free alpha-subunit remained suppressed 4 h later; recovery was complete by 16 h in inhibin treated cultures. FSH beta mRNA returned to control levels by 4 h in inhibin-treated and by 16 h in CHX-treated cultures. Levels of LH beta and alpha-subunit mRNA were comparable to control values at all times. In conclusion, 1) CHX, like inhibin, suppresses FSH beta mRNA levels, although its actions are less rapid and less rapidly reversible; 2) inhibin requires ongoing protein synthesis for full expression of its inhibitory effects; 3) the synthesis and secretion of LH are much less sensitive to inhibition by either inhibin or CHX than are the synthesis and secretion of FSH; and 4) secretion of free alpha-subunit involves a labile protein(s).     

Temporal changes in ovarian ornithine decarboxylase and cyclic AMP in immature rats stimulated by exogenous or endogenous gonadotrophins.

Pregnant mare serum gonadotrophin given intravenously to immature rats caused a maximal (x 70) increase in ornithine decarboxylase activity (ODC) at 3 h; enzyme activity declined to about ten times the control levels by 9 h and a second rise began after about 20 h. Anti-PMSG given 30 min after PMSG reduced the peak response by 70%. Actinomycin D, or cycloheximide, completely prevented an increase in ODC when given with PMSG, but only cycloheximide lowered the enzyme activity when given 18 h later. Ovine FSH plus LH also produced a peak in ODC at 3 h but the activity decreased quickly and by 9 h it was at the control level. Secretion of endogenous FSH and LH, induced by hourly injections of LH releasing hormone (LH-RH) increased ODC to the same extent as did the exogenous hormones; ODC was still higher than in the controls 4 h after the last dose of LH-RH. Increased endogenous levels of FSH and LH did not consistently raise ovarian cyclic AMP content and the increases found were much less than those obtained after injection of PMSG or FSH+LH. The results indicate that increased ODC is induced and maintained by the continual presence of gonadotrophin. The dependence of increased ODC upon increased cyclic AMP cannot be unequivocally determined because of important differences in the timing of the responses and the difficulty in determining biologically significant changes in cyclic AMP.     

Age-associated increases in serum follicle-stimulating hormone levels on estrus are accompanied by a reduction in the ovarian secretion of inhibin

In light of recent data demonstrating age-related alterations in the secretion and production of follicle-stimulating hormone (FSH) during the secondary FSH surge on estrus, the following study was conducted to determine the effects of age on periovulatory inhibin secretion. Ovarian venous blood was collected from groups of ether-anesthetized 3- and 7-month-old rats exhibiting 4-day estrous cycles at the following times: 1200 and 2400 h on proestrus and 1600 h on estrus. Following a 10-min collection period, a terminal blood sample was obtained from the abdominal aorta. Peripheral serum concentrations of luteinizing hormone (LH), FSH, estradiol-17 beta (E2), progesterone (P) and testosterone (T) were measured by RIA. Inhibin activity in ovarian venous serum (OVS) was assessed by the ability of OVS to suppress basal FSH secretion from dispersed pituitary cells during a 24-hour culture period. At 1200 h on proestrus, serum FSH (and LH) levels were higher in 7-month-old rats than in younger rats while the FSH-suppressing activity of OVS did not differ between age groups at this time. Bioassayable inhibin activity substantially declined between 1200 and 2400 h on proestrus in both groups. By 1600 h on estrus, serum FSH levels and inhibin secretion were higher and lower, respectively, in the older age group compared to 3-month-old rats. Significant increases in inhibin secretion between 2400 h on proestrus and 1600 h on estrus were observed only in younger rats.(ABSTRACT TRUNCATED AT 250 WORDS)     

Purified FSH stimulates production of inhibin by the human ovary

Ovarian inhibin production is stimulated by the administration of human menopausal gonadotrophins or following a rise in endogenous LH and FSH. In order to determine whether FSH specifically stimulates inhibin secretion in vivo, immunoassayable serum inhibin levels were measured following the administration of a highly purified preparation of urinary FSH free of significant contamination with LH. Ten anovulatory women underwent a protocol of induction of ovulation with purified FSH and human chorionic gonadotrophin (hCG). During the induction of ovulation, blood samples were taken for radioimmunoassay of FSH, LH, oestradiol, progesterone and inhibin. During the administration of FSH there were increases in plasma concentrations of FSH, oestradiol and inhibin (P less than 0.01) but no significant change in the concentration of LH. Oestradiol and inhibin concentrations rose in parallel and were closely correlated (tau = 0.920, n = 110, P less than 0.001). There was also a direct correlation between the measured level of FSH and inhibin (tau = 0.512, n = 110, P less than 0.05), but there was no correlation between LH and oestradiol, inhibin or FSH. Inhibin (tau- = 0.702, n = 10, P less than 0.01) and oestradiol (tau- = 0.691, n = 10, P less than 0.01) were correlated with the number of follicles seen on ovarian ultrasound. Levels of oestradiol and inhibin reached a peak on the day of hCG administration or on the following day. Inhibin levels then fell over the next 2 days in all cycles. In an ovulatory cycle resulting in conception, inhibin and oestradiol then rose in parallel with progesterone.(ABSTRACT TRUNCATED AT 250 WORDS)     

Regulation of testicular inhibin subunit messenger ribonucleic acid levels in vivo: effects of hypophysectomy and selective follicle-stimulating hormone replacement

To examine the pretranslational regulation of inhibin subunits in the rat testis by FSH, we studied the effects of hypophysectomy with or without selective FSH replacement on testicular inhibin subunit mRNA levels in immature and adult animals. In the first experiment (Exp I), sexually immature (20-23 days old) intact and hypophysectomized male rats were killed 1, 3, and 7 days after surgery, and the testicular content of inhibin subunit mRNAs was determined by filter hybridization. A second group of immature, intact, or hypophysectomized rats was treated with saline or FSH for 7 days as follows: I) intact, saline; II) hypophysectomized, saline; III) hypophysectomized, FSH [0.05 microgram/100 g BW, sc, twice daily (BID)]; IV) hypophysectomized, FSH (0.50 microgram/100 g BW, sc, BID); V) hypophysectomized, FSH (5.0 micrograms/100 g BW, sc, BID); and VI) hypophysectomized, FSH (50.0 micrograms/100 g BW, sc, BID). In the second experiment (Exp II), adult (60 days old) intact or hypophysectomized animals were treated with saline, FSH, and/or testosterone for 7 days as follows: I) intact, saline; II) hypophysectomized; saline; III) hypophysectomized, 22-mm testosterone implant; IV) hypophysectomized, FSH (50.0 micrograms/100 g BW, sc, BID; and V) hypophysectomized, 22-mm testosterone implant plus FSH (50.0 micrograms/100 g BW, sc, BID. The effects of FSH and testosterone on testicular inhibin subunit mRNA levels were measured by filter hybridization. In Exp I, the level of inhibin alpha-subunit mRNA per testis was significantly lower in hypophysectomized rats than in intact controls at all time points after surgery. Replacement of FSH to hypophysectomized immature rats led to a dose-dependent increase in alpha-subunit mRNA per testis. However, hypophysectomy and FSH replacement had no significant effect on beta-B-subunit mRNA. In adult rats (Exp II), hypophysectomy significantly lowered and FSH replacement increased testicular inhibin alpha-subunit mRNA levels. Replacement of testosterone to adult animals, either alone or in combination with FSH, had no effect on expression of inhibin alpha-subunit mRNA. beta-B mRNA levels in adult testis were not significantly altered by any of the treatments. beta-A-Subunit mRNA levels were below the detection threshold of filter hybridization in both Exp I and II. Collectively, these data demonstrate that FSH regulates alpha- but not beta-B-subunit mRNA in the testis of both immature and adult rats in vivo. Differential regulation of inhibin subunits may provide a mechanism for creation and regulation of functional diversity of inhibin-related peptides in the testis.     

Photoperiod-dependent regulation of inhibin in Siberian hamsters: I. Ovarian inhibin production and secretion

Follicle-stimulating hormone (FSH) stimulates ovarian follicle development and the production of protein hormones including inhibin A and inhibin B. The inhibins are dimeric proteins (alpha-beta(A) or alpha-beta(B)) secreted by growing follicles that suppress FSH in a classical endocrine negative feedback loop. Siberian hamsters, Phodopus sungorus, exhibit seasonal variation in FSH levels. Given the role of inhibin in FSH regulation, we hypothesized that ovarian inhibin expression differs between animals reared in long (16 h light:8 h darkness) and short (6 h light:18 h darkness) photoperiods. To examine inhibin expression in animals housed under long or short photoperiods, hamster inhibin alpha-, beta(A)-, and beta(B)-subunits were cloned and used to detect and localize inhibin subunit mRNA in developing follicles. Ovarian inhibin alpha-subunit mRNA levels were significantly higher in long day-exposed (LD) than in short day-exposed (SD) hamsters. In addition, dimeric inhibin, as well as inhibin alpha-, beta(A)-, and beta(B)-subunit protein levels were higher in the LD than in the SD hamster ovaries.     

Antiprogesterone RU486 induces dissociation of LH and FSH secretion in the cyclic rat: effect of anti-inhibin serum.

Administration of the antiprogesterone RU486 to 4-day cyclic rats from metoestrus to pro-oestrus increases serum levels of LH while decreasing levels of FSH. If it is assumed that there is only one gonadotrophin-releasing hormone, there is no direct explanation for the decrease in FSH concentrations. The purpose of these experiments was to investigate the effect of RU486 on gonadotrophin secretion in cyclic rats during periods when the secretion of LH and FSH diverges. RU486 blunted the transient increase in FSH concentration on the afternoon of metoestrus and the compensatory ovarian hypertrophy on the next day of oestrus in unilaterally ovariectomized 4-day cyclic rats. In addition, bilateral ovariectomy reversed the effect of RU486 on the basal secretion of FSH. RU486 induced an increase in basal LH concentrations. Since ovarian inhibin decreases the basal release of FSH, and decreases in peripheral inhibin seem to be responsible for the transient rise in FSH during the oestrus cycle, the effect of RU486 on serum levels of LH and FSH during dioestrus in rats injected with a sheep anti-inhibin serum (AIS) were further evaluated. Treatment with AIS increased FSH levels in oil-treated rats without altering the levels of LH. In contrast, the effects of AIS on FSH secretion were blunted in RU486-treated rats. The results suggest that inhibin might be involved in the RU486-induced decrease of FSH secretion in cyclic rats.