6-Mercaptopurine treatment of pregnant mice: effects on second and third generations.

The immunosuppressive drug 6-mercaptopurine is embryotoxic in mice. Of the surviving female offspring of mice treated with low doses of 6-mercaptopurine during pregnancy, despite normal body weight and general appearance, many were either sterile or, if they became pregnant, had smaller litters and more dead fetuses as compared to offspring of mothers that had not received the drug.

Adrenal hypoplasia congenita with hypogonadotropic hypogonadism: evidence that DAX-1 mutations lead to combined hypothalmic and pituitary defects in gonadotropin production.

Adrenal hypoplasia congenita (AHC) is an X-linked disorder that typically presents with adrenal insufficiency during infancy. Hypogonadotropic hypogonadism (HHG) has been identified as a component of this disorder in affected individuals who survive into childhood. Recently, AHC was shown to be caused by mutations in DAX-1, a protein that is structurally similar in its carboxyterminal region to orphan nuclear receptors. We studied two kindreds with clinical features of AHC and HHG. DAX-1 mutations were identified in both families. In the JW kindred, a single base deletion at nucleotide 1219 was accompanied by an additional base substitution that resulted in a frameshift mutation at codon 329 followed by premature termination. In the MH kindred, a GGAT duplication at codon 418 caused a frameshift that also resulted in truncation of DAX-1. Baseline luteinizing hormone (LIT), follicle-stimulating hormone (FSH), and free-alpha-subunit (FAS) levels were determined during 24 h of frequent (q10 min) venous sampling. In patient MH, baseline LH levels were low, but FAS levels were within the normal range. In contrast, in patient JW, the mean LH and FSH were within the normal range during baseline sampling, but LH secretion was erratic rather than showing typical pulses. FAS was apulsatile for much of the day, but a surge was seen over a 3-4-h period. Pulsatile gonadotropin releasing hormone (GnRH) (25 ng/kg) was administered every 2 h for 7 d to assess pituitary responsiveness to exogenous GnRH. MH did not exhibit a gonadotropin response to pulsatile GnRH. JW exhibited a normal response to the first pulse of GnRH, but there was no increase in FAS. In contrast to the priming effect of GnRH in GnRH-deficient patients with Kallmann syndrome, GnRH pulses caused minimal secretory responses of LH and no FAS responses in patient JW. The initial LH response in patient JW implies a deficiency in hypothalamic GnRH. On the other hand, the failure to respond to pulsatile GnRH is consistent with a pituitary defect in gonadotropin production. These two cases exemplify the phenotypic heterogeneity of AHC/HHG, and suggest that DAX-1 mutations impair gonadotropin production by acting at both the hypothalamic and pituitary levels.

Breed differences in clearance of porcine FSH in hypophysectomized rats.

Extracts of anterior pituitary (AP) glands were infused i.v. into hypophysectomized male rats followed by sequential sampling of blood for 120 min. Determination of follicle-stimulating hormone (FSH) concentrations established that FSH from Chinese Meishan males decreased in the circulation of rats more slowly than FSH in extracts of AP from crossbred occidental pigs (P<0.003). Additionally, FSH from AP extracts of castrated males disappeared somewhat more slowly (P<0.06) than FSH from extracts of boars. Evaluation of FSH by bioassay and radioimmunoassay yielded similar concentrations in AP from Meishan and crossbred boars. Serum testosterone concentrations increased with time through 90 min after infusion of AP, but the rate of increase of testosterone was not related to amount of luteinizing hormone (LH) that was administered indicating LH receptor saturation. Unexpectedly, the rate of increase in testosterone was more rapid with AP extracts from boars than with extracts from castrated males. Observations from the current study imply structural alterations of FSH in the AP of Meishan males relative to crossbred males allowing sustained concentrations in the circulation, and this FSH possesses similar activation of the FSH receptor. The amount of LH in the AP extracts saturated the LH receptors of the hypophysectomized male rats, but some factor in extracts of boars differed from those of castrated males.

Testosterone, free testosterone, and free androgen index in women: Reference intervals, biological variation, and diagnostic value in polycystic ovary syndrome.

OBJECTIVE: The objective of our study was to determine reference intervals and biologic variation for testosterone (T), free testosterone (fT), and free androgen index (FAI) in women with accurate methods and to test the discriminative value of these parameters in a polycystic ovary syndrome (PCOS)-population. METHODS: Serum was obtained daily during a normal menstrual cycle from 25 healthy women (677 data-points). A single serum sample was obtained from 44 PCOS-patients. T was measured by LC­MS/MS and by Architect® 2nd generation T Immunoassay. Sex hormone-binding globulin was measured to calculate fT and FAI. Results: Reference intervals which were established in healthy women with an ovulatory menstrual cycle were T = 0.3-1.6 nmol/L and 0.5-2.0 nmol/L, fT = 5.2-26 pmol/L and 7.2-33 pmol/L, and FAI = 0.4-2.9 and 0.6-4.4, by LC-MS/MS and immunoassay, respectively. T, fT and FAI were higher in PCOS patients than in controls (p b 0.0001). The areas under the curve of receiver operator characteristic (ROC) plots were not different for T, fT, or FAI when T was measured by LC­MS/MS versus immunoassay based on prediction of PCOS. FAI and fT were the strongest predictors of PCOS. CONCLUSIONS: When based upon the appropriate reference intervals and ROC analysis, LC-MS/MS and second generation immunoassay have equivalent clinical utility for the diagnosis of PCOS.

Compensatory Increase in Ovarian Aromatase in Older Regularly Cycling Women.

CONTEXT: Serum estradiol (E2) levels are preserved in older reproductive-aged women with regular menstrual cycles despite declining ovarian function. OBJECTIVE: The objective of the study was to determine whether increased granulosa cell aromatase expression and activity account for preservation of E2 levels in older, regularly cycling women. DESIGN: The protocol included daily blood sampling and dominant follicle aspirations at an academic medical center during a natural menstrual cycle. SUBJECTS: Healthy, regularly cycling older (36-45 y; n = 13) and younger (22-34 y; n = 14) women participated in the study. MAIN OUTCOME MEASURES: Hormone levels were measured in peripheral blood and follicular fluid aspirates and granulosa cell CYP19A1 (aromatase) and FSH-R mRNA expression were determined. RESULTS: Older women had higher FSH levels than younger women during the early follicular phase with similar E2 but lower inhibin B and antimullerian hormone levels. Late follicular phase serum E2 did not differ between the two groups. Follicular fluid E2 [older (O) = 960.0 [interquartile range (IQR) 765.0-1419.0]; younger (Y) = 994.5 [647.3-1426.5] ng/mL, P = 1.0], estrone (O = 39.6 [29.5-54.1]; Y = 28.8 [22.5-42.1] ng/mL, P = 0.3), and the E2 to testosterone (T) ratio (O = 109.0 ± 41.9; Y = 83.0 ± 18.6, P = .50) were preserved in older women. Granulosa cell CYP19A1 expression was increased 3-fold in older compared with younger women (P < .001), with no difference in FSH-R expression. CONCLUSIONS: Ovarian aromatase expression increases with age in regularly cycling women. Thus, up-regulation of aromatase activity appears to compensate for the known age-related decrease in granulosa cell number in the dominant follicle to maintain ovarian estrogen production in older premenopausal women.

cis-platinum-mediated decrease in serum testosterone is associated with depression of luteinizing hormone receptors and cytochrome P-450scc in rat testis.

Previously we had shown that cis-platinum decreases testosterone levels in rat serum and that hCG reverses this effect. The purpose of these studies was to determine the biochemical basis of cis-platinum-mediated effects on testicular testosterone production. In the testis of rats treated with cis-platinum (7 mg/kg, iv), the mitochondrial P-450scc concentration and side-chain cleavage activity were depressed by 40%. Also, the microsomal 17 alpha-hydroxylase activity and cytochrome P-450 concentration were decreased. Testicular binding capacity (in vitro) for [125I]hCG was decreased by 75-80%. On the other hand, FSH binding to Sertoli cell membrane receptors was not appreciably changed. hCG (25 IU/100 g daily) in treated rats caused complete occupancy of the remaining 20-25% LH receptors and caused a 20- to 30-fold increase in serum and testicular testosterone, a 2-fold increase in mitochondrial P-450scc, and a 5-fold acceleration of side-chain cleavage activity. 17 alpha-Hydroxylase activity and microsomal cytochrome P-450 were not increased over the control values. In addition to testicular functions, pituitary glycoprotein hormone production was assessed. Treatment of rats with cis-platinum (7 mg/kg, iv) did not change serum LH or FSH, but caused a 50% decrease in serum and testicular testosterone levels. A GnRH challenge test (1.5 micrograms/100 g, in 30 min) of treated rats caused prompt increases of 10- to 15-fold in serum LH and resulted in increases in serum and testicular testosterone. Thus, there was little evidence for cis-platinum effects at the level of hypothalamus or pituitary that could account for the decreased testosterone production. Reversal of the cis-platinum effect on steroidogenesis by hCG or GnRH appears to be due to the induction of suprasaturating levels of LH with full occupancy of remaining Leydig cell LH receptors. This, in turn, would reverse the diminished levels of mitochondrial side-chain cleavage activity and cytochrome P-450scc. These data suggest that cis-platinum causes a depression in serum testosterone, mainly by decreasing the number of LH receptors and inhibiting side-chain cleavage activity.

Analysis of human follistatin structure: identification of two discontinuous N-terminal sequences coding for activin A binding and structural consequences of activin binding to native proteins.

A primary physiological function of follistatin is the binding and neutralization of activin, a transforming growth factor-beta family growth factor, and loss of function mutations are lethal. Despite the critical biological importance of follistatin's neutralization of activin, the structural basis of activin's binding to follistatin is poorly understood. The purposes of these studies were 1) to identify the primary sequence(s) within the N-terminal domain of the follistatin coding for activin binding, and 2) to determine whether activin binding to the native protein causes changes in other structural domains of follistatin. Synthetic peptide mimotopes identified within a 63-residue N-terminal domain two discontinuous sequences capable of binding labeled activin A. The first is located in a region (amino acids 3-26) of follistatin, a site previously identified by directed mutagenesis as important for activin binding. The second epitope, predicted to be located between amino acids 46 and 59, is newly identified. Although the sequences 3-26 and 46-59 code for activin binding, native follistatin only binds activin if disulfide bonding is intact. Furthermore, pyridylethylation of Cys residues followed by N-terminal sequencing and amino acid analysis revealed that all of the Cys residues in follistatin are involved in disulfide bonds and lack reactive free sulfhydryl groups. Specific ligands were used to probe the structural effects of activin binding on the other domains of the full-length molecule, comprised largely of the three 10-Cys follistatin module domains. No effects on ligand binding to follistatin-like module I or II were observed after the binding of activin A to native protein. In contrast, activin binding diminished recognition of domain III and enhanced that of the C domain by their respective monoclonal antibody probes, indicating an alteration of the antigenic structures of these regions. Thus, subsequent to activin binding, interactions are likely to occur between regions of follistatin located in different domains and separated by considerable lengths of linear sequence. Such interactions could have important functional significance with respect to the structural heterogeneity of naturally occurring follistatins.

Electrophoretic purification of radioiodinated follicle-stimulating hormone for radioligand receptor assay and radioimmunoassay.

A method is described for electrophoretic purification of [125I]human (h) FSH after radioiodination that improves radioligand binding to FSH membrane receptors. Lactoperoxidase-iodinated hFSH was separated from reaction products by electrophoresis on 7.5% polyacrylamide tube gels (PAGE). Material eluted from 3-mm gel slices was analyzed for incorporation of 125I and binding to antibody (RIA) or receptor (RRA), and by sodium dodecyl sulfate-PAGE for protein composition. Sodium dodecyl sulfate-PAGE analysis of individual PAGE fractions demonstrated that iodinated proteins, both higher and lower in apparent mol wt than intact FSH, were separated by PAGE, but not by gel filtration chromatography (Sephadex G-25). PAGE purification of radioligand resulted in significantly greater (compared to gel filtration) RRA sensitivity and specificity. Maximum binding of PAGE-purified [125I]hFSH to excess calf tests membrane receptors was 45%, with a specific activity of approximately 26 microCi/micrograms, as determined by the method of self-displacement. Maximum binding to excess hFSH antisera (NIH anti-hFSH 4) was 80-85%. This allowed a useful final dilution of 1:120,000, thereby facilitating development of a sensitive and specific RIA with this antiserum. These data indicate that PAGE separation of intact [125I]hFSH from other iodinated proteins results in improved radioligand binding, assay sensitivity, and assay specificity. In addition, PAGE-purified lactoperoxidase-iodinated hFSH is suitable for use in both RIA and RRA.

Characterization of inhibin/activin subunit, follistatin, and activin type II receptors in human ovarian cancer cell lines: a potential role in autocrine growth regulation.

Although ovarian cancer is the most common gynecological malignancy with a relatively poor 5-yr survival record, the mechanism(s) by which these tumors arise is not well understood. A role for inhibins and activins in regulating this transformation is suggested by the detection of circulating alpha or dimeric inhibin in some patients with ovarian cancer and by the alpha inhibin knockout mouse, in which development of gonadal tumors in 100% of homozygotes is associated with greatly elevated activin levels. To develop diagnostic tools with greater specificity for ovarian cancers, the present study was targeted at characterizing the biosynthetic capacity of the epithelial ovarian cancer cell lines from the American Type Culture Collection with respect to inhibin, activin, the related activin-binding protein follistatin (FS), and activin receptor type II. In addition, the functional capacity of this system was investigated by examining the ability of activin and FS to modulate cellular proliferation. All six cell lines contained abundant messenger RNA (mRNA) for activin receptor type II, but no inhibin alpha-subunit mRNA was detected in any cell line. Two cell lines contained mRNA for activin beta B-subunit (CaOV4 and SKOV3), one cell line contained beta A-subunit mRNA (SW626), and one cell line contained both (ES2); the latter also contained FS mRNA. FS mRNA was detected in another cell line (PA-1) that contained no detectable activin beta-subunit mRNA. Finally, one cell line (CaOV3) contained neither beta-subunit nor FS mRNA. Protein secretion was also examined. Consistent with the mRNA studies, the two cell lines containing FS mRNA secreted FS (PA-1 and ES2 cells), whereas three of the remaining lines secreted activin (A or B). In the cell line containing neither FS nor beta-subunit mRNA, no FS or activin could be detected. Finally, none of the cell lines secreted detectable immunoreactive inhibin. The effects of exogenous activin and FS on cellular proliferation were examined in these cell lines. No response was detected in the two cell lines that secreted FS (PA-1 and ES2). For the four cell lines not synthesizing FS, treatment with activin (1-100 ng/ml) resulted in an increase, whereas FS treatment (1-100 ng/ml) resulted in a decrease in cellular proliferation, as determined by [3H]thymidine incorporation. The response to activin correlated negatively with endogenous activin production, suggesting that autocrine activin production may be involved with cell proliferation. The differential expression and production of inhibin/activin subunits, activin receptors, and follistatin as well as the range of responses to exogenous activin among six ovarian epithelial cancer cell lines suggest that this family of hormones may be important in regulating cell proliferation in the ovary. Whether primary tumors have the same profile and the degree to which these results can be generalized to additional forms of ovarian cancer remain to be determined.

Characterization of unique binding kinetics of follistatin and activin or inhibin in serum.

Serum binding proteins (BPs) have been identified for several peptide and protein hormones, and their presence has significant implications for the biological action of the hormone. Follistatin (FS) has been identified as an activin- and inhibin-BP in tissues, serum, and follicular fluid of several species, including humans. In this study, the binding kinetics of FS for activin and inhibin were characterized in human serum using gel filtration chromatography and compared to those of pure recombinant hormones using chromatography and a new solid phase assay. When complexed with radiolabeled activin or inhibin, FS eluted at a volume corresponding to a mol wt range of 67,000-150,000, an elution volume identical to the lower mol wt BP peak observed in serum. Furthermore, kinetic analyses of recombinant FS binding to activin using a solid phase assay revealed that 1) the FS-activin interaction is of high affinity, similar to or exceeding that estimated for activin binding to its receptor; 2) binding to activin is essentially irreversible at physiological pH; and 3) the potency of inhibin is approximately 500- to 1000-fold lower than that of activin in the FS binding assay. The lack of FS-[125I]activin complex reversibility observed in the solid phase assay was confirmed using a modified gel filtration chromatography protocol. Thus, preincubation of pure FS or serum with unlabeled activin for 2 h eliminated all binding of subsequently added labeled activin despite a much longer incubation period. However, when labeled activin was incubated with FS for 2 h, subsequent addition of unlabeled activin or inhibin was unable to displace labeled activin from FS, again demonstrating a lack of reversibility. Finally, to map this high affinity interaction, overlapping synthetic peptides were used to compete with labeled activin for FS binding. Two potential contact sites between FS and activin were identified, one near the N-terminus (amino acids 15-29) and the other near the C-terminus (amino acids 99-116). Given its apparently irreversible nature, high affinity, and ability to neutralize activin's biological activity, FS is quite different from the typical hormone-BP. These unique properties of FS undoubtedly attest to the potency of activin in many physiological and developmental settings and, therefore, to the importance of BPs, such as FS for regulating activin's bioactivity, distribution, and/or clearance.

Cyclosporin-mediated depression of luteinizing hormone receptors and heme biosynthesis in rat testes: a possible mechanism for decrease in serum testosterone.

The toxic side-effects of the immunosuppressive drug cyclosporin (CsA) include testicular dysfunction and a decline in circulating testosterone. However, mechanisms for the consistently observed CsA-mediated depression of serum testosterone levels are unclear because of conflicting reports concerning circulating gonadotropin levels and incomplete studies of intratesticular steroidogenesis. To elucidate these mechanisms, endocrine-regulated testicular steroidogenesis and heme metabolic parameters were studied in male rats given sc injections of either 25 or 40 mg/kg.day CsA for 6 days and then killed on the seventh day. Consistent with earlier reports, CsA treatment dramatically suppressed serum testosterone levels (less than 20% of control at both CsA doses). Additionally, the intratesticular testosterone content declined with the higher CsA dose. Serum LH and FSH levels were elevated up to 2- to 4-fold after the higher CsA treatment regimen. Measurement of decreases in testicular receptors for LH revealed for the first time that CsA treatment significantly reduced the ability of the testes to respond to normal or elevated circulating levels of LH. In animals receiving higher dose of the drug, cytochrome P-450-dependent mitochondrial cholesterol side-chain cleavage activity, which is the rate-limiting step in steroidogenesis, was markedly reduced to a mere 30% of the control value. Additionally, the activity of the microsomal cytochrome P-450-dependent 17 alpha-hydroxylase was decreased to less than half of the control value. Biotransformation of the prototype drug, benzo(a)pyrene, as well as microsomal cytochrome P450 levels declined significantly after the higher CsA dose, suggesting that CsA has an adverse affect on testicular cytochromes P-450 in general. In addition, CsA treatment altered heme metabolic parameters; significant increases in the activity of uroporphyrinogen-I synthetase and total porphyrin content were noted. Conversely, the activity of ferrochelatase, the enzyme that incorporates iron into porphyrin to form heme molecule, decreased significantly, as did the total heme levels. The latter was reduced to only 61% of control values. The findings suggest the likelihood that the observed inhibition of heme formation may contribute substantially to the reduced levels of microsomal cytochromes P-450 and steroidogenic activities that depend on them. Taken collectively, these data suggest a plausible mechanism by which CsA may induce testicular dysfunction; as the result of a combination of reduction in the number of LH receptors and a suppression of heme formation, the hemoprotein-dependent steroidogenic enzymes activities are compromised, leading to an impairment of normal testicular function.

Follicle-stimulating hormone (FSH) immunoactivity in porcine follicular fluid is not pituitary FSH.

Two inhibitors of FSH binding to receptor have been isolated from porcine follicular fluid and shown to have in vitro biological activity. These inhibitors were distinct separable entities with opposite biological effects (agonist and antagonist) on cultured FSH-responsive Sertoli cells. In light of the fact that the agonist-containing fraction (P4) inhibited [125I]human (h) FSH binding to anti-hFSH antiserum as well as to receptor, characterization of this factor was undertaken to determine its relationship to pituitary FSH. The P4 fraction was further purified by affinity chromatography, which removed a major protein from immunoreactive components. Western blotting of sodium dodecyl sulfate-polyacrylamide gels using polyclonal (anti-hFSH) and monoclonal (anti-hFSH beta) antibodies revealed a major immunoreactive band at 55,000 mol wt (Mr). When electrophoresed under reducing conditions, major immunoreactive proteins at 58,000 and 45,000 Mr were identified. These bands were also observed in extracts from bovine testes and raw porcine follicular fluid after electrophoresis and Western blotting. Whereas the monoclonal antibody used to characterize this inhibitor does not recognize porcine pituitary FSH, the Mr of the immunoreactive proteins are greater than that of pituitary FSH, and the immunoreactive bands do not reduce to subunits, as observed for pituitary FSH under reducing conditions, we conclude that gonadal extracts contain FSH-immunoreactive proteins that are immunologically and biochemically distinguishable from pituitary FSH. While the physiological role of these proteins remains to be determined, their presence in gonadal extracts or fluids vitiates assessment of FSH within the gonad by RIA using antiserum against hFSH.

Porcine follicular fluid contains both follicle-stimulating hormone agonist and antagonist activities.

Several fractions were prepared from porcine follicular fluid, each having FSH receptor binding inhibitory activity. All were soluble in acidic acetone (pH 3.5) and insoluble in ether (pH 10.5), and could be separated on the basis of charge, using anion exchange HPLC. The effect of these fractions on aromatization of androstenedione to estradiol (basal levels or FSH stimulated) was studied in vitro using Sertoli cells from immature rat testes. Agonist activity, defined as the ability to stimulate secretion of estradiol in the absence of FSH, was present in one fraction weakly retained by the anion exchange column but eluted with a linear gradient between 0.2 and 0.5 M acetate, pH 5.0. In addition to agonist activity, this fraction inhibited binding of [125I]human (h) FSH to hFSH antiserum and to receptor. Another fraction with FSH binding inhibitory activity was more strongly retained by the anion exchange HPLC column and was eluted with 1.0 M acetate, pH 3.0. This fraction demonstrated antagonist activity, as defined by its ability to inhibit FSH-stimulated, but not basal, conversion of androstenedione to estradiol in vitro. Although it inhibited [125I]hFSH binding to receptor, no immunoreactivity could be demonstrated in this fraction. These observations demonstrate that inhibition of [125I]hFSH binding to receptor can reflect either agonist or antagonist activity, and that the latter activities are present in separate and distinct fractions derived from porcine follicular fluid.

Precursors of alpha-inhibin modulate follicle-stimulating hormone receptor binding and biological activity.

Although several forms of monomeric alpha-inhibin have been isolated from follicular fluid, no biological function has yet been ascribed to these posttranslationally processed forms of the alpha-subunit precursor protein. Moreover, previous studies of a FSH receptor binding competitor (FRBC) isolated and characterized from porcine follicular fluid (pFF) suggested certain biochemical similarities between this protein and alpha-inhibin precursors. We, therefore, investigated the hypothesis that alpha-inhibin and/or its precursors might represent autocrine and/or paracrine modulators of FSH action in the ovary, accounting for some of this FRBC activity and thereby exerting some degree of regulation over follicular maturation. Three separate sources of alpha-inhibin proteins were investigated for FRBC activity, including pFF, human FF (hFF), and a 293 cell line into which the full-length human alpha-inhibin cDNA had been stably transfected. Conditioned medium from these transfected cells contained several forms of alpha-inhibin precursors as well as mature alpha-inhibin, but no beta-subunit or intact inhibin. alpha-Inhibin proteins from all three sources, purified by a variety of methods, including immunoaffinity chromatography on an anti-alpha-inhibin column, inhibited FSH binding to both natural tissue FSH receptors as well as recombinant rat FSH receptors expressed in 293 cells. Furthermore, dimeric inhibin and activin, medium from untransfected 293 cells, and non-alpha-inhibin-containing purification fractions were inactive in either assay. In addition, purified recombinant alpha-inhibin proteins were partial in vitro FSH antagonists in a bioassay in which cAMP generation from 293 cells expressing the recombinant FSH receptor is used as an index of FSH biological activity. These same fractions of hFF containing FRBC activity did not bind to LH receptors, thereby demonstrating receptor specificity for this activity. Using sodium dodecyl sulfate-polyacrylamide gel electrophoresis and Western blotting with alpha-inhibin or FRBC antisera, a 57,000 mol wt protein was identified in FRBC-active fractions from all three sources, suggesting that the active moiety was the full-length alpha-inhibin precursor protein or a large mol wt fragment, but not mature alpha-inhibin. Lastly, all FRBC activity from all three sources was extracted by an alpha-inhibin immunoaffinity column and was recoverable upon elution. These results demonstrate that proteins derived from the alpha-inhibin precursor modulate FSH binding to its receptor as well as its biological activity.(ABSTRACT TRUNCATED AT 400 WORDS)

Activin inhibits basal and androgen-stimulated proliferation and induces apoptosis in the human prostatic cancer cell line, LNCaP.

LNCaP cells, derived from an androgen-sensitive cell line widely employed as an in vitro model of human prostate cancer, have been shown to express activin receptors. Activin is a local regulator of cellular growth, appears to play a key role in mesoderm induction and differentiation during development, and has been implicated in gonadal tumorigenesis. Follistatin, a monomeric glycoprotein that specifically binds and neutralizes activin, is often coexpressed with activin and, thus, modulates the autocrine/paracrine biological activity of this potent growth factor. We tested the hypothesis that LNCaP growth is modulated by the activin/follistatin system. Recombinant human activin A inhibited [3H]thymidine incorporation in a dose-dependent fashion with an ED50 of approximately 0.43 +/- 0.3 nM. Activin (0.1-3 nM) also inhibited dihydrotestosterone (DHT)-stimulated [3H]thymidine incorporation in LNCaP cells. Similarly, recombinant human inhibin A inhibited LNCaP proliferation, but was only 1/100th as potent as activin. Furthermore, activin (3 nM) induced a 3-fold increase in the extent of labeling of low mol wt DNA fragments typical of apoptosis. Activin-induced apoptosis was also indicated by an increase in the number of cells with reduced DNA content, as measured by flow cytometry of activin-treated cells. Both activin-mediated inhibition of cell proliferation and induction of apoptosis could be completely blocked by recombinant human follistatin. Based upon these results using an in vitro model, we speculate that activin functions locally to oppose androgen-driven cell proliferation and, thus, is a key factor controlling prostate growth. Reduced activin biosynthesis, increased follistatin secretion, or signaling defects in the activin receptor system should be further investigated in future studies as potential mechanisms underlying enhanced androgen-independent growth of human prostate cancer cells.

Low molecular weight follicle-stimulating hormone receptor binding inhibitor in sera from premature ovarian failure patients.

Ovarian insensitivity to FSH, as observed in some patients suffering premature ovarian failure (POF), could conceivably involve abnormal regulation of local factors that modulate FSH action. Low molecular weight FSH receptor-binding inhibitor (FRBI) has been identified in ovarian follicular fluid and shown to be an antagonist of FSH action. Thus, we undertook these studies to test the hypothesis that elevated FRBI can account for the high serum levels of FSH as measured by RRA relative to RIA values in some POF patients. In order to accomplish this, 2 POF patients were selected from a group of 27 from whom serum FSH had been measured by RIA and RRA. Using a recently developed and validated RRA, FSH was 430 IU (second IRP-78/549)/L and 182 IU/L for serum from patients 1 and 2, respectively. FSH quantitated by RIA was 96 and 136 IU/L in these same serum samples. Thus, the RRA/RIA values for these patients were 4.48 and 1.34. These ratios are: 1) higher than observed for normal cycling women (0.62); 2) higher than observed for normal, postmenopausal women (0.65); and 3) at least 2 SD higher than the mean RRA/RIA ratio of the 27 patients screened. FRBI was separated from FSH in serum from both these patients. FRBI accounted for most of the elevated FSH measured in serum by RRA. The HPLC chromatographic behavior and binding inhibitory activity of FRBI isolated from a large volume of serum from patient 2 were virtually identical to previously observed characteristics of FRBI isolated from porcine follicular fluid. These observations demonstrate that FRBI can account for elevated FSH measured by RRA relative to that measured by RIA. Furthermore, the inhibitor can be biochemically separated from FSH and quantitated by RRA in order to study its postulated relationship to POF. Expanded studies to identify causal relationships between FRBI and ovarian insensitivity to FSH seem warranted at this time.

Inhibin A and inhibin B responses to gonadotropin withdrawal depends on stage of follicle development.

Previous studies demonstrate that inhibin A and B are differentially secreted across the menstrual cycle. To test the hypothesis that the responses of inhibin A and inhibin B to partial gonadotropin withdrawal are influenced by the stage of follicular development, a maximally suppressive dose of the Nal-Glu GnRH antagonist (150 microg/kg) was administered to normal cycling women during the midfollicular (MFP; n = 8), late follicular (LFP; n = 6), and midluteal phase (MLP; n = 5) to assess ovarian responsiveness over a broad range of developmental stages. Administration of the GnRH antagonist resulted in a significant decrease in LH (75 +/- 5%, 63 +/- 3%, and 84 +/- 7%; P < 0.05) and FSH (23 +/- 9%, 32 +/- 5%, and 39 +/- 6%; P < 0.04) during the MFP, LFP, and MLP, respectively. During the MFP, partial withdrawal of gonadotropins resulted in disappearance of the dominant follicle on ultrasound accompanied by a decrease in estradiol (E2; 64.9 +/- 11.4 to 23.9 +/- 3.3 pg/mL; P < 0.02) and inhibin B levels (121.6 +/- 14.8 to 28.4 +/- 4.8 pg/mL; P < 0.002) from baseline to near the limit of detection. Inhibin A was near the limit of detection in this cycle stage (0.8 +/- 0.1 IU/mL). When gonadotropins were withdrawn during the LFP, the size of the dominant follicle remained stationary in four of five subjects, and inhibin B (84.1 +/- 14.1 to 22.2 +/- 3.4 pg/mL; 71 +/- 5%; P < 0.02), inhibin A (4.4 +/- 1.1 to 1.3 +/- 0.5 IU/mL; 71 +/- 7%; P < 0.02), and E2 (236.8 +/- 48.2 to 95.6 +/- 39.0 pg/mL; 61 +/- 12%; P < 0.02) decreased similarly. Time to ovulation was shorter in association with higher inhibin A (r = -0.67; P < 0.02) and E2 (r = -0.79; P < 0.003), but there was no relation to inhibin B. During the MLP, decreased gonadotropin levels resulted in the disappearance of corpus luteum function with a significant decrease in inhibin A (9.0 +/- 0.4 to 0.7 +/- 0.1 IU/mL; 92 +/- 1%; P < 0.0001) in combination with decreased E2 (150.4 +/- 22.9 to 23.8 +/- 4.2 pg/mL; 83 +/- 3%; P < 0.005) and progesterone (12.6 +/- 2.6 to 0.9 +/- 0.2 ng/mL; 92 +/- 2%; P < 0.01). Administration of a GnRH antagonist at precise stages of the menstrual cycle provides further evidence that differential regulation of inhibin A and inhibin B is critically dependent on the stage of follicular development. Inhibin B secretion is exquisitely sensitive to gonadotropin withdrawal during the MFP when inhibin A has not yet risen. Inhibin A and inhibin B decrease equally after GnRH antagonist administration during the LFP. However, before antagonist administration, the positive correlation between estradiol and inhibin A and time to ovulation and the lack of such a correlation with inhibin B suggest that the source of inhibin B secretion is different from that of inhibin A and E2. The decrease in inhibin A secretion after antagonist administration during the luteal phase confirms gonadotropin-dependent secretion of dimeric inhibin A by the corpus luteum.

Serum follistatin levels in women: evidence against an endocrine function of ovarian follistatin.

Follistatin is a monomeric protein first identified in and isolated from ovarian follicular fluid. Evidence that follistatin might be an ovarian endocrine hormone functioning in a negative feedback fashion to modulate pituitary FSH production is based primarily on in vitro experiments. To examine the possible role of follistatin as an endocrine agent in vivo, we sought to relate circulating levels of follistatin to ovarian activity in women. Therefore, we developed a specific and sensitive homologous RIA using antiserum generated against recombinant human follistatin for the measurement of total follistatin in the presence or absence of activin. Follistatin was measured quantitatively (106 +/- 6% recovery) using calibration standards ranging from 0.4-25 ng/tube and up to 400 microL/tube serum. Furthermore, all of the endogenous follistatin measured in human serum could be removed by adsorption to activin-coated plates. Using this homologous RIA, human follicular fluid (100-600 ng/mL; n = 75) contained 3-150 times more follistatin than serum (4-35 ng/mL), an observation consistent with the notion that serum follistatin originates from the gonad. However, further studies of follistatin levels across the normal menstrual cycle (mean +/- SE, 8.09 +/- 0.73; n = 72 daily samples from 4 women), in pregnant women (17.49 +/- 1.34; n = 8), in daily samples from 20 women undergoing ovarian stimulation by exogenous FSH (9.90 +/- 0.62; n = 119), in postmenopausal women including two ovariectomized individuals (9.57 +/- 0.43; n = 8), and in GnRH-deficient women (9.85 +/- 0.50; n = 6) failed to support the hypothesis that serum levels of follistatin reflect ovarian activity in women. Levels of follistatin measured in serum collected across normal menstrual cycles did not fluctuate. However, the roughly nanomolar concentrations of follistatin measured suggest a physiological role for this protein. Follistatin at nanomolar concentrations may be capable of binding and inactivating circulating activin and perhaps in this way limiting the biological activity of activin to local autocrine or paracrine mechanisms. Measurement of peripheral levels of follistatin apparently represents only a first, albeit crucial, step in the study of the physiological significance of this protein in human reproduction.

Relatively low levels of dimeric inhibin circulate in men and women with polycystic ovarian syndrome using a specific two-site enzyme-linked immunosorbent assay.

The endocrine feedback role of dimeric inhibin on FSH secretion from the pituitary has been well established in many species; however, evidence that inhibin is an important endocrine regulator of FSH in the human is more tenuous. One potential explanation for the equivocal data may be that the inhibin immunoassay used most widely in the human is a heterologous assay with an antiserum that exclusively recognizes the inhibin alpha-subunit in both its monomeric form and in inhibin dimers. The aim of the present study was to quantify serum inhibin levels in a variety of fertile and infertile men and women using a new ultrasensitive enzyme-linked immunosorbent assay that is specific for the dimeric form (alpha/beta) only. The specificity of the present assay was demonstrated by the absence of significant cross-reactivity with Mullerian inhibiting substance, transforming growth factor-beta, activin, FSH, LH, hCG, TSH, and hCG alpha and with the alpha-subunit of inhibin. The assay was sensitive to 1 pg/mL, and serial dilutions of human male and female serum samples paralleled the recombinant 32-kilodalton (kDa) dimeric inhibin standard curve. Complete recovery of exogenous recombinant 32-kDa inhibin added to serum was obtained. Mean serum inhibin levels ranged from a low of 5.7 +/- 0.6 pg/mL in the early follicular phase to 49.0 +/- 11.2 pg/mL in the midluteal phase of the normal menstral cycle and were elevated during ovulation induction (1250 pg/mL) and pregnancy (500 pg/mL). Interestingly, mean levels of dimeric inhibin in women with polycystic ovarian syndrome (PCOS) were indistinguishable from normal follicular phase. The most striking observation was the extremely low mean inhibin levels (< 2 pg/mL) found in normal men, GnRH-deficient men before any pulsatile GnRH treatment, and men with Klinefelter's syndrome, all of which were indistinguishable from levels observed in postmenopausal women. These observations in the male raise the possibly that 1) some forms of circulating and bioactive inhibin in the human are not detected by this assay due to either their conformation or the presence of a unique binding protein for endogenous inhibin that does not bind to recombinant 32-kDa inhibin; or 2) dimeric inhibin is not a major endocrine regulator of FSH in the human male. In addition, the relatively high dimeric inhibin levels at midcycle and in the luteal phase of the normal menstrual cycle, after gonadotropin stimulation, and during pregnancy suggest that dimeric inhibin is predominantly produced by dominant follicles, corpora lutea, and placental tissues.

Multiple molecular weight forms of immunoreactive alpha-inhibin in human seminal plasma.

The purpose of these studies was to determine whether the total immunoreactive alpha-inhibin protein concentration in seminal plasma correlated with serum gonadotropin levels or semen characteristics and to identify the forms of alpha-inhibin present in seminal plasma. Thirty-eight serum samples from men being evaluated for infertility were selected for study based on their serum hormone profiles and semen parameters. Serum LH and testosterone levels were normal, but FSH levels ranged from normal to hypergonadotropic (> 20 IU/L). Most semen parameters were within normal ranges, but germ cell numbers ranged from normal to azoospermic. Thus, seminal plasma from these men provided a unique opportunity to examine the antigenic forms of alpha-inhibin in individuals in whom strong correlations between inhibin and FSH levels might be predicted because of the observed ranges of FSH levels and germ cell numbers. Seminal plasma alpha-inhibin was characterized by RIA or Western blotting, using an antiserum directed against the N-terminal of the alpha-subunit of mature [32,000 mol wt (M(r))] inhibin. The antiserum recognized the alpha-subunit of dimeric inhibin as well as free alpha-inhibin and alpha-inhibin precursor proteins. Total immunoreactive alpha-inhibin ranged from 8.21-43.99 nmol/L in seminal plasma. However, alpha-inhibin levels were not statistically correlated with serum FSH levels or any of the measured semen parameters (including germ cell number). In contrast, the immunoreactive alpha-inhibin concentration in seminal plasma was negatively correlated (P < 0.01) with the serum LH level. Western blot analyses revealed that multiple forms of immunoreactive alpha-inhibin are present in seminal plasma. The majority of immunoreactivity was associated with monomeric proteins (ranging from 58,000-95,000 M(r)) that were larger than the alpha-subunit (21,000 M(r)) predicted for mature dimeric human inhibin (32,000 M(r)). The relative amounts of individual forms of immunoreactive alpha-inhibin varied among the patients studied, but could not be correlated with other serum or seminal parameters measured. Our observations demonstrate that various monomeric alpha-inhibin proteins are present in human seminal plasma. It is unlikely that these proteins alone or combined with inhibin beta-subunit proteins have identical biological activities. Thus, until assays specific for each of the various forms of immunoreactive alpha-inhibin are developed, their role as well as that of inhibin in the endocrine or local modulation of testicular function cannot be deduced from RIA data alone.