Insulin alters the effects of follicle stimulating hormone on aromatase in bovine granulosa cells in vitro

It is known that follicle-stimulating hormone (FSH) and insulin stimulate estradiol secretion from cultured non-luteinizing granulosa cells. The interaction between these hormones is less well understood. Granulosa cells from small (2-4 mm) bovine follicles were cultured in serum-free medium to determine if cytochrome P450 aromatase activity is regulated by FSH in the presence of different concentrations of insulin. Insulin significantly stimulated aromatase activity in the absence of FSH. There was a significant interaction between insulin and FSH on aromatase activity, such that FSH stimulated activity at low (0.5, 1 and 10 ng/ml) doses of insulin, whereas at higher (100 ng/ml) doses of insulin FSH failed to stimulate aromatase activity. To determine if the lack of a response to FSH with higher doses of insulin is related to gene expression, the effect of FSH on P450 aromatase mRNA levels was measured. An 'uncoupling' of mRNA and enzyme activity was observed for cells cultured with 100 ng/ml insulin, as FSH significantly increased P450 aromatase mRNA abundance without affecting estradiol secretion or aromatase activity. We conclude that in the presence of high doses of insulin, FSH decreases aromatase activity, and an uncoupling of P450 aromatase mRNA and aromatase activity occurs. This may have implications for infertility treatments when there is a risk of hyperinsulinemia.     

Hormonal regulation of activities of 4-ene-5 beta and 5 alpha-reductases and 17 beta-ol-dehydrogenase in immature golden hamster ovary

Diethylstilbestrol (DES) pellets were implanted in female golden hamsters on day 22 after birth. Hamsters with or without the DES pellet were hypophysectomized on day 23. Starting from day 26, the hypophysectomized hamsters were injected daily with 2.3-40 micrograms NIH-LH-S19, 6 or 18 micrograms NIAMD-oFSH-13, 50 micrograms NIAMD-Rat-FSH-B-1, or saline for 3 days. Ovarian homogenates from these hamsters on day 29 were incubated with [14C]-4-androstene-3,17-dione and enzyme activity (nmol/g/h) was estimated. The 5 alpha- and 5 beta-reductase activities decreased significantly following hypophysectomy. In the hypophysectomized hamster ovary, a distinct response to LH but not to FSH or DES in the 5 alpha-reductase activity was found. On the other hand, the 17 beta-ol-dehydrogenase activity was stimulated by FSH but not by LH or DES. The 5 beta-reductase activity was stimulated by DES, FSH or 2.3 micrograms LH but not by 7-40 micrograms LH. In the DES-treated, hypophysectomized hamster ovary, LH and FSH stimulated the 5 alpha-reductase and 17 beta-ol-dehydrogenase activities, respectively, but FSH or LH treatment had no significant effect on the 5 beta-reductase activity. These results show that the 5 alpha-reductase activity is regulated by LH, while the 17 beta-ol-dehydrogenase activity is stimulated by FSH in immature golden hamster ovary. The 5 beta-reductase activity seems to be regulated predominantly by FSH but the effect of FSH is largely mediated by estrogen.     

Changes in inhibin activity, and progesterone, oestrogen and androstenedione concentrations, in rat follicular fluid throughout the oestrous cycle

Follicular fluid was aspirated from all visible surface follicles of rats at selected times of the oestrous cycle. Fluids from a pair of rat ovaries were pooled and assayed for inhibin activity by the rat anterior pituitary cell culture assay. Serum LH, FSH and progesterone as well as follicular fluid progesterone, total oestrogens and androstenedione were also measured. Follicular fluid inhibin activity was relatively constant throughout the oestrous cycle (30.7 +/- 3.4% inhibition of FSH per 0.1 microliter follicular fluid) except for a well defined surge at pro-oestrus (09:00-16:00 h, peak at 14:00 h = 84.0 +/- 7.2% inhibition of FSH per 0.1 microliter follicular fluid). The follicular fluid was not treated with charcoal before assay because a pilot experiment showed that such treatment did not alter the inhibin activity of follicular fluid. Steroids in follicular fluid were generally lowest on the afternoon of oestrus and the morning of dioestrus I and generally elevated during pro-oestrus.     

Follicle-stimulating hormone inhibits granulosa cell 5 alpha-reductase activity. Possible role of 5 alpha-reductase as a steroidogenic pubertal switch.

In order to elucidate the role of 5 alpha-reductase in the ovarian pubertal transition from 5 alpha-reduced to non-5 alpha-reduced steroids, we examined the characteristics and regulation of granulosa cell (GC) 5 alpha-reductase activity. Maximum activity was observed at 37 degrees C and at a pH of 6.5-8.0. Synthetic 4-aza-3-oxosteroids proved to be potent inhibitors (76% inhibition at 0.1 microM) of ovarian 5 alpha-reductase activity, and 20 alpha-DHP was a better substrate than either progesterone or testosterone (4- or 7-fold higher affinity constants, respectively). The Km (20 alpha-DHP) of the enzyme was 0.50 +/- 0.03 microM and 0.75 +/- 0.20 microM in homogenates of whole ovaries and GC, respectively. 17 beta-Estradiol was a non-competitive inhibitor (KI = 6.97 microM). 5 alpha-Reductase activity was 22-fold (immature) to 68-fold (mature) higher in liver than ovary and 4-fold higher in theca-interstitial shells than in isolated GC. Ovarian 5 alpha-reductase activity decreased markedly with age (greater than 60% inhibition in mature, randomly cycling rats as compared to immature rats). In vivo administration of follicle-stimulating hormone (FSH) to immature rats produced a dose-dependent decrease in GC 5 alpha-reductase activity (36 +/- 1.1% and 46 +/- 5.9% inhibition following 12 micrograms and 24 micrograms FSH, respectively). Similarly, the in vitro provision of FSH (100 ng/ml) to cultured GC from immature rats resulted in (36-59%) inhibition in 5 alpha-reduced steroids. Inasmuch as FSH promotes GC development and the advancement of puberty, its ability to "switch-off" ovarian 5 alpha-reductase activity may enhance the formation of biologically potent (i.e. non-5 alpha-reduced) progestins as well as the availability of aromatizable androgens, in the best interests of pubertal steroidogenesis.     

Hormonally active nontransformed human ovarian cell culture from oophorectomy specimens: methods of development and initial characterization

We repeatedly established a nontransformed steroidogenically active human ovarian cell culture derived from oophorectomy specimens. The cells maintained steroidogenic activity for 3-5 passages (6-8 weeks) and responded to stimulation by insulin and gonadotropin. With pregnenolone as substrate, LH stimulated progesterone production up to 124% and FSH up to 121%. Insulin alone stimulated progesterone production up to 135%, in the presence of LH up to 191%, and in the presence of FSH up to 170%. With dehydroisoandrosterone (DHA) as substrate, insulin alone stimulated testosterone production up to 117%, and in the presence of LH (but not FSH) up to 125%. With androstenedione as substrate, insulin alone stimulated estradiol production up to 133%, FSH alone up to 188%, and LH with insulin up to 217%. With progesterone as substrate and in the presence of LH (but not FSH), 17-alpha-hydroxylase activity was stimulated up to 131%. With DHA as substrate and in the presence of LH, 3-beta-hydroxysteroid dehydrogenase (3-beta-HSD) activity was stimulated up to 139%. With androstenedione as substrate, insulin alone stimulated aromatase activity up to 202%, LH up to 208%, and FSH up to 251%. Under the same conditions, in the presence of LH and insulin, aromatase activity was stimulated up to 342%, and in the presence of FSH and insulin, up to 318%. With testosterone as substrate, insulin alone stimulated aromatase activity up to 122%. With testosterone as substrate, in the presence of LH and insulin, aromatase activity was stimulated up to 136%, and in the presence of FSH and insulin, up to 156%. Immunocytochemistry studies directly confirmed presence of aromatase and 3-beta-HSD in these cultured cells. We conclude that a steroidogenically active nontransformed long-term human ovarian cell culture can be repeatedly established from oophorectomy specimens, providing uninterrupted supply of cultured human ovarian cells for a variety of studies of ovarian physiology.     

Presence of subunit structure in bovine follicle-stimulating hormone

Highly purified bovine follicle-stimulating hormone (FSH) potency 164 X NIH-FSH-S-1 by bioassay was estimated to be 210 +/- 4.2 X NIH-FSH-S-1 by radioligant-receptor assay using 125I-bovine FSH as tracer but only 120 +/- 1.8 X NIH-FSH-S-1 when 125I-human FSH tracer was used. The presence of subunit structure in bovine FSH was revealed by SDS-polyacrylamide gel electrophoresis. Furthermore, treatment of bovine FSH with 1 M propionic acid resulted in marked changes of mobilities upon polyacrylamide gel electrophoresis and elution profiles after gel filtration on Sephadex G-100 in addition to loss of biological activity by radioligand-receptor assay. After incubation, the propionic acid-treated bovine FSH recovered about 75% of the receptor-binding activity and regenerated protein bands of identical electrophoretic mobilities as the native hormone.     

Bimodal effects of luteinizing hormone and role of androgens in modifying superovulatory responses of rats to infusion with purified porcine follicle-stimulating hormone

Prepubertal (28-30 days old) female rats were infused s.c. over a 60-h period with a purified porcine pituitary follicle-stimulating hormone (FSH) preparation having FSH specific activity 8.4 times that of NIH-FSH-S1 and luteinizing hormone (LH) specific activity less than 0.005 times that of NIH-LH-S1, based on radioreceptor assays. When the FSH infusion rate of this preparation was increased over the range of 0.5-2 units/day (mg NIH-FSH-S1 equivalent), an all-or-none response was observed, with the threshold dose for superovulation being between 1 and 2 units/day. Eleven of twelve rats receiving the 2 units/day dose ovulated a mean +/- SEM of 67 +/- 8 oocytes on the morning of the third day after the beginning of FSH infusion. Addition of human chorionic gonadotrophin (hCG), as a source of LH activity, to a subthreshold (1 U/day) FSH infusion rate resulted in 20% of rats ovulating at an hCG dosage of 50 mIU/day; increasing the hCG infusion to 200 mIU/day concomitant with the subthreshold FSH infusion rate increased ovulation rate to a mean of 69 +/- 8/rat, with 100% of rats ovulating. To determine the effect of varying both FSH infusion rates and LH:FSH ratios, FSH was infused at several rates, with hCG added to give varying hCG:FSH ratios for each FSH infusion rate. Administration of hCG alone was ineffective in causing ovulation except at the highest infusion rates. Adding hCG to FSH to reach a ratio of 0.2 IU hCG/U FSH significantly increased the superovulatory response to an intermediate, 1 U/day FSH dose, but not to the low, 0.5 U/day dose.(ABSTRACT TRUNCATED AT 250 WORDS)     

Hormonal regulation of a plasma membrane phosphodiesterase in differentiating granulosa cells. Reciprocal actions of follicle-stimulating hormone and a gonadotropin-releasing hormone agonist on cAMP degradation

The activity of a plasma membrane cAMP-phosphodiesterase in cultured ovarian granulosa cells was regulated by follicle-stimulating hormone (FSH) and the gonadotropin-releasing hormone (GnRH) agonist [D-Ala6]des-Gly10-GnRH N-ethylamide (GnRHa). Degradation of cAMP was similar in cultures treated with FSH alone or FSH plus GnRHa when the labeled cyclic nucleotide was added from 24 to 42 h of culture. However, at 48 h and subsequent times of incubation, cAMP phosphodiesterase activity was significantly higher in cells incubated with FSH plus GnRHa. Phosphodiesterase activity was progressively increased by GnRHa concentrations between 10(-13) and 10(-10) M, and was maximally stimulated by 10(-9) M GnRHa. In comparison with control cells, FSH lowered the Vmax of cAMP catabolism by the high (1 microM cAMP substrate) and the low (50 microM) affinity phosphodiesterase, while GnRHa raised enzyme activity toward control levels. These actions of FSH and GnRHa were specific for a plasma membrane phosphodiesterase that was accessible to extracellular cAMP, since extracellular substrate was hydrolyzed, no intracellular uptake of [3H]cAMP was observed, and only a small fraction (10%) of cAMP was catabolized in the incubation medium in the absence of cells. Further, the actions of FSH and GnRHa on the membrane enzyme were the opposite of those observed when total phosphodiesterase activity was measured in cellular sonicates. Hormonal changes in phosphodiesterase activity were not due to leakage of the enzyme from damaged cells since a constant percentage of cAMP hydrolysis in the medium was observed during culture. Analysis of cAMP catabolites in granulosa cells indicated that the phosphodiesterase reaction product, 5'-AMP, was rapidly converted to adenosine by a plasma membrane 5'-nucleotidase, independent of the cellular hormonal status. These results indicate that the opposing actions of FSH and GnRHa upon granulosa cell differentiation include modulation of cAMP degradation at the plasma membrane level.     

Stimulation of FSH release by erythroid differentiation factor (EDF)

The action of erythroid differentiation factor (EDF) on primary culture of rat anterior pituitary cells was examined. EDF stimulates FSH secretion in a dose dependent manner but not of LH secretion. ED50 of EDF for FSH secretion was 5 X 10(-10) M, while ED50 of LHRH for FSH secretion was 5 X 10(-9) M. These data indicate that EDF is a potent agonist for FSH secretion and the biological activity of EDF on anterior pituitary seems to be identical as that of FSH releasing protein (FRP).     

Regulation of steroid and steroid sulfate production and aromatase activity in cultured human granulosa-luteal cells

The regulation of the production of steroids and steroid sulfates and the activity of aromatase in human luteinized granulosa cells were investigated. The cells were cultured for 48 h in the presence or absence of hCG and FSH. Basal production of pregnenolone (Pre, 0.3 +/- 0.03 ng/micrograms protein) and progesterone (P, 19.3 +/- 1.7 ng/micrograms protein) were high compared with that of other steroids beyond P in the steroidogenic pathway. The concentration of 17 alpha-hydroxyprogesterone (17-OHP) was lower 0.17 +/- 0.06 ng/micrograms and that of other steroids in the 4-ene and 5-ene pathways and steroid sulfates less than 0.05 ng/micrograms. Both hCG and FSH (100 ng/ml) stimulated the production of Pre and P 3- to 5-fold, but only minimal stimulation of other steroids and steroid sulfates was observed. Aromatase activity of granulosa-luteal cells was measured from the rate of formation of 3H2O from 1 beta-[3H]androstenedione (1 beta[3H]A) after exposing the cells to hCG, FSH or estradiol (E2) for 48 h. Basal aromatase activity was relatively low, but hCG and FSH stimulated aromatase 8- and 4-fold, respectively. The incubation of granulosa-luteal cells with E2 did not affect basal aromatase activity, but E2 augmented FSH-stimulated aromatase 1.4-fold (P less than 0.025). The results suggest that there is low 17 alpha-hydroxylase and steroid sulfokinase activity in human granulosa-luteal cells. Aromatase activity in these cells is regulated by both hCG and FSH, and intra-ovarian estrogens may regulate granulosa cell aromatase activity.     

Genetic differences in follicular DNA synthesis between two strains of hamsters

This study was designed to compare our previous results on ovarian follicular DNA synthesis by hamsters obtained from Sasco Laboratories with a different breeding colony: Harlan. Follicles from proestrous Harlan hamsters required twice as much [3H] thymidine and a minimum of 4 hr of in vitro exposure to 100 ng of ovine follicle-stimulating hormone (FSH) before a significant increase in DNA synthesis was elicited compared with 30-120 min for the Sasco breed. Peak responsiveness to FSH was observed at 8-hr incubation for the Harlan strain with significant increases in DNA per follicle at 8-12 hr. Both strains increased DNA synthesis with as little as 25 ng of ovine FSH and the response was elicited in all growing follicles, from preantral stages with one to four layers of granulosa cells, lacking theca (Stages 1-4) to mature antral follicles (Stages 8-10). A recombinant bovine FSH, devoid of luteinizing hormone activity, was not as effective as ovine FSH (which has 4% luteinizing hormone contamination) in stimulating DNA synthesis by large preantral and antral follicles. In vitro responsiveness to ovine FSH was abolished in the absence of Ca2+ in the culture medium and 0.05 mM Ca2+ was the optimal amount. For both strains of hamsters, the highest rate of DNA synthesis in response to endogenous gonadotropins was on the morning of estrus--when the second surge of FSH was in progress--and Harlan follicles in vitro also showed maximal stimulation by FSH on this day. Where the two strains differed was that the Harlan strain did not show an increase in follicular DNA synthesis on the afternoon of proestrus--when the preovulatory increase in gonadotropins commenced. When expressed as DNA per follicle, DNA approximately doubled from Stages 1 to 5 and then entered a new growth phase at Stage 6 (large preantral follicles) with a steeper increase. Collectively, these experiments show that strain characteristics can alter the latency and degree of follicular DNA replication in response to endogenous or exogenous FSH.     

Partial purification and characterization of rhinoceros gonadotropins, growth hormone, and prolactin: comparison with the horse and sheep

The rhinoceros is an endangered species related to the horse family. Little is known of its reproductive endocrinology. The objectives of this study were to partially purify rhinoceros pituitary hormones, determine which assays could be used for their assessment, and to ascertain whether rhinoceros LH possesses the intrinsic FSH activity of equine LH. A single pituitary each from a White (1.3 g) and a Black (1.2 g) Rhinoceros was homogenized and extracted (pH 9.5), then subjected to pH and salt fractionation, and ion-exchange chromatography (DEAE and Sephadex SP-C50) to yield partially purified fractions of LH, FSH, growth hormone (GH), and prolactin (PRL). LH was readily measured by a rat Leydig cell assay (0.1-1% x equine LH) and an RIA using a monoclonal antibody to bovine LH (6-11% x equine LH). FSH activity detected in the LH by either an FSH RIA or a calf testis radioreceptor assay (RRA) was extremely low. No FSH activity could be detected in the White Rhinoceros pituitary "FSH" fraction, but was readily detected in the Black Rhinoceros fraction (RIA: 0.2% x equine FSH: RRA: 0.8% x equine FSH). The presence of GH and PRL was determined by SDS-PAGE and Western blots. Results showed a single immunoreactive GH band and multiple immunoreactive PRL bands. Adsorption with Concanavalin A-Sepharose indicated that some of the PRL bands are glycosylated.     

Effect of cAMP and FSH on the production of estrogens by rat fetal gonads cultured in vitro

The regulation of aromatase activity by cAMP and FSH has been demonstrated in the prepubertal rat testis and ovary, and the question posed whether this regulation was already operative at foetal stages. In the present study, testes and ovaries from 17- to 21-day-old rat foetuses were cultured in vitro in the presence of [3H]-testosterone and in the presence or absence of cAMP or FSH. Oestrone and oestradiol formed from [3H]-testosterone were measured by double isotopic dilution and recrystallization to constant specific activity. Aromatase activity was augmented in both gonads by cAMP, but only in the testis by FSH. Thus, the regulation of aromatase activity by FSH begins earlier in the testis than in the ovary.     

Chromatofocusing fails to separate hFSH isoforms on the basis of glycan structure

Follicle-stimulating hormone (FSH) glycosylation is regulated by feedback from the gonads, resulting in an array of glycans associated with FSH preparations derived from pools of pituitary or urine extracts. FSH glycosylation varies due to inhibition of FSHbeta N-glycosylation, elaboration of 1-4 branches possessed by mature N-glycans, and the number and linkage of terminal sialic acid residues. To characterize FSH glycosylation, FSH isoforms in pituitary gland extracts and a variety of physiological fluids are commonly separated by chromatofocusing. Variations in the ratios of immunological and biological activities in the resulting FSH isoform preparations are generally attributed to changes in glycosylation, which are most often defined in terms of sialic acid content. Using Western blotting to assess human FSHbeta glycosylation inhibition revealed 30-47% nonglycosylated hFSHbeta associated with four of six hFSH isoform preparations derived by chromatofocusing. Glycopeptide mass spectrometry assessment of glycan branching in these isoforms extensively characterized two N-glycosylation sites, one at alphaAsn52, the critical glycan for FSH function, and the other at betaAsn24. With two to four N-glycans per FSH molecule, many combinations of charges distributed over these sites can provide the same isoelectric point. Indeed, several glycans were common to all isoform fractions that were analyzed. There was no trend showing predominantly monoantennary glycans associated with the high-pI fractions, nor were predominantly tri- and tetra-antennary glycans associated with low-pI fractions. Thus, differences in receptor binding activity could not be associated with any specific glycan type or location in the hormone. FSH aggregation was associated with reduced receptor binding activity but did not affect immunological activity. However, as gel filtration indicated sufficient heterodimer was present in each isoform preparation to generate complete inhibition curves, the near total loss of receptor binding activity in several preparations could not be explained by aggregation alone, and the mechanism remains unknown.     

Testicular FSH receptor numbers and affinity in bulls of various ages

Bulls (N = 42) ranging in age from 1 day to 5.5 years were used to determine whether a change in the concentration of FSH receptors in the bovine testis occurred as bulls matured. 125I-labelled human FSH was used as the ligand to evaluate binding to bovine testicular membranes. Membrane fractions were collected by centrifugation of testicular homogenates at 120 g and recentrifugation of the 120 g supernatant at 1250 g. Relative binding activity of membrane sedimented at 1250 g was determined after incubation of membranes with 125I-labelled FSH for 16--18h at 25 degrees C, followed by centrifugation (1250 g) to separate bound from free hormone. Specifically bound FSH when expressed as fmol/mg protein was negatively correlated with age (r = -0.73). The association constant (Ka) determined by Scatchard analysis was the same for bulls at all ages with a mean (+/- s.e.m.) Ka = 1.5 +/- 0.3 x 10(9) M-1. Concentration of FSH receptors on a per mg protein basis declined rapidly from birth to 2.5 years of age and remained low up to 5.5 years of age. On a whole testis basis the total number of receptors increased as the bulls matured. After 2.5 years of age total testicular binding did not change.     

Action of LH, FSH and (Bu)2 cAMP on the conversion of [3H]19-hydroxyandrostenedione into oestrogens by foetal and infantile rat ovaries in organ culture

Ovaries from 18-21-day-old foetal as well as from 2-10-day-old infantile rats were cultured in vitro in the presence of [3H]19-hydroxyandrostenedione and in the presence or absence of LH, FSH or (Bu)2 cAMP, and oestrone and oestradiol formed were determined by double isotopic dilution and recrystallization to constant specific activity. In foetal ovaries, the stimulation factor with FSH was 0.9-1.3, which was considered insignificant in comparison with the 8-13-fold stimulation obtained with (Bu)2 cAMP. At infantile stages, aromatase activity was stimulated 1.3-3.5-fold, which was close to the 3.9-fold stimulation obtained with (Bu)2cAMP. LH was ineffective at both foetal and infantile stages.     

Developmental regulation of Sertoli cell aromatase activity and plasminogen activator production by hormones, retinoids and the testicular paracrine factor, PModS.

Testicular peritubular cells produce a paracrine factor termed PModS that has dramatic effects on Sertoli cell function in vitro. The current study was designed to examine the actions of PModS and hormones on Sertoli cell aromatase activity and plasminogen activator production at various stages of pubertal development. Sertoli cells were isolated from 10-, 20-, and 35-day-old rats (ages correspond to prepubertal, midpubertal, and late-pubertal stages of development). Aromatase activity was found to be high and hormone-responsive in prepubertal Sertoli cells and to decline and be nonresponsive to hormones in late-pubertal Sertoli cells. FSH was the only hormone found to influence aromatase activity and estrogen production. PModS alone was not found to affect aromatase activity at any of the developmental stages examined. Interestingly, PModS was found to suppress the ability of FSH to stimulate aromatase activity and estrogen production in midpubertal Sertoli cells. Results imply that PModS may promote Sertoli cell differentiation to a more adult stage of development that is less responsive to FSH in stimulating aromatase activity. In contrast to aromatase activity, plasminogen activator production was found to increase during pubertal development. Production of Sertoli cell tissue-type plasminogen activator (tPa) was stimulated by FSH at each of the developmental stages examined, whereas production of urokinase-type plasminogen activator (uPa) was influenced by FSH only in prepubertal Sertoli cells. Insulin also stimulated uPa and tPa production by prepubertal Sertoli cells, and retinol significantly suppressed uPa production and the ability of FSH to stimulate tPa production by midpubertal Sertoli cells.     

Effect of inhibin-like activity on LH-RH-stimulated release of FSH by pituitary glands from female rats in vitro

During long-term incubation of pituitary glands from intact female rats in the presence of inhibin-like activity, LH-RH-stimulated release of FSH becomes inhibited after 4 h of incubation. However, at the same time inhibition of basal FSH release is included. Therefore, glands were at first incubated for 4 h in the presence of inhibin-like activity to block basal release completely and thereafter LH-RH was added to the medium. It was found that LH-RH still could stimulate FSH release, despite the continuous presence of inhibin-like activity. This means that LH-RH-stimulated release of FSH could be investigated separately from basal release. Using this way of incubation, it was found that part of the action of LH-RH on FSH release was independent of protein synthesis. Also part of LH-RH-stimulated FSH release was independent of the presence of extracellular Ca2+. Furthermore it was found that LH-RH, when added after 4 h of incubation did stimulate FSH synthesis, in the presence as well as absence of inhibin-like activity. The present results indicate that LH-RH-stimulated release of FSH is not affected by inhibin-like activity. Complete inhibition of basal release and synthesis of FSH does not prevent LH-RH from stimulating FSH release and synthesis. It is suggested that two separate releasing mechanisms for FSH could exist in the pituitary gland.     

Direct demonstration of intrinsic follicle-stimulating hormone receptor-binding activity in acid-treated equine luteinizing hormone

After dissociating equine gonadotropins as a function of time at pH 3, we examined them by radioligand assay and sodium dodecyl sulfate polyacrylamide gel electrophoresis under nondissociating conditions (low, 0.1% SDS). Equine follicle-stimulating hormone (FSH) rapidly lost its receptor-binding activity, and low SDS-polyacrylamide gels demonstrated dissociation into subunits. Maximum dissociation occurred after 20–30 min of pH 3 incubation. Equine luteinizing hormone (LH), however, retained most biologic activity and was largely intact after 72 h of pH 3 incubation. Dose-response curves of acid-treated equine LH and FSH and intact equine LH and FSH were compared in five types of radioligand receptor assays. LH and FSH receptor-binding activities of equine LH were unaffected by pH 3. Equine LH showed 19- and 32-times more activity in the rat testis FSH assay than it did in chicken or horse FSH assays, respectively, directly demonstrating the intrinsic FSH receptor-binding activity of equine LH and the relative lack of specificity for these hormone preparations of the rat FSH receptor. Acid-treated equine FSH lost 95% of its biologic activity in FSH assays. In LH assays, the slight (0.2%) activity of equine FSH was relatively unaffected by acid treatment, suggesting that contamination by equine LH accounts for this activity.