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Inhibin is a potential tumour suppressor gene product in the gonads. While inhibin gene products may have a role in tumourigenesis, serum inhibin levels can be used as a marker for ovarian tumours derived from granulosa cells. Tumours derived from Sertoli cells, testicular counterparts of granulosa cells, are rare. To assess whether inhibin could be used as a human Sertoli cell tumour marker, serum inhibin and activin levels and inhibin subunit mRNA expression in the testis were studied. Northern blot and in situ hybridization revealed abundant expression of inhibin alpha, beta A, and beta B subunit mRNAs in large cell calcifying Sertoli cell tumours found in a 12-year old boy with Carney complex. The tumours were multifocal and bilateral. Serum inhibin levels were clearly elevated at the time of the diagnosis, decreased by 50% after one of the testes was removed, and were low or undetectable after the second orchidectomy six weeks later. Activin was undetectable before the orchidectomies, while a low concentration of activin-A was measured after them. Follicle stimulating hormone (FSH) concentration increased from normal pubertal value to castration level as expected. Normal seminiferous tubules also showed inhibin subunit alpha and beta B mRNA expression, whereas inhibin beta A mRNA was expressed in normal Leydig cells. These data suggest that serum inhibin reflects Sertoli cell activity and can be used as a human tumour marker.

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Inhibin and activin are related proteins thought to be potential paracrine regulators of testicular development and maintenance of spermatogenesis. Messenger RNA and proteins immunologically related to both factors have been identified in the adult testis. However, the role(s) of these factors in paracrine regulation of testicular function is poorly understood. To identify potential targets for inhibin and activin in immature and adult testis, we used in situ binding of [125I]-labeled ligands to localize and describe the distribution of binding sites for inhibin and activin in testes of 15-, 18-, 21-, 30-, 45-, and 60-day-old rats. Nonspecific binding was defined as that occurring in the presence of a 1000-fold excess of unlabeled recombinant human (rh) inhibin or activin. [125I]-Inhibin was found to bind to interstitial cells throughout development. Inhibin binding was shown to co-localize with cells that showed positive staining for 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD). Competition studies demonstrated that this binding was indeed specific for inhibin. In contrast, [125I]-activin showed two distinct patterns of binding. First, [125I]-activin was shown to bind in a non-stage-dependent manner to cells located in the basal compartment of the seminiferous tubules in testis obtained from animals of all ages studied. Binding of [125I]-activin in the periphery of the tubule could be inhibited entirely by coincubation with excess unlabeled activin and partially with excess unlabeled inhibin. The ability of inhibin to compete with activin for binding appeared to be more pronounced in younger animals. In 45- and 60-day-old animals, a second stage-dependent component of [125I]-activin binding was also apparent. This binding was localized to spermatids found in stage VII-VIII tubules and was inhibited by the presence of excess activin, but not inhibin. These results indicate that inhibin can bind specifically to testicular interstitial cells throughout development and may be an important regulator of Leydig cell testosterone production or interstitial cell function. In contrast, activin appears to bind in a specific and stage-dependent manner to receptors or high-affinity binding proteins on spermatids as well as to sites on the periphery of all seminiferous tubules. These results support the hypothesis that both activin and inhibin may act at several levels to regulate proliferation or differentiation of germ and Sertoli cell function as well as to modulate interstitial cell activity.

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The inhibin-related peptides are present in the testis from early gestation through adulthood. They are produced from multiple testicular sites in a highly regulated manner, suggesting important paracrine roles. Similarly, receptors for these peptides are located in specific stages of the seminiferous tubule and on particular cell types, and an additional level of control is afforded by specific binding proteins, such as follistatin, which may regulate bioavailability. The actions of these factors include the modulation of interstitial cell function and the increase of spermatogonial proliferation in vitro. It thus appears that activin and inhibin are significant factors in the local control of testicular function.

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The high affinity activin-binding protein, follistatin, has recently been shown to block activin-stimulated activities in several in vitro systems. In the present study we sought to extend these observations and investigate the effects of follistatin on the activity of activin in stimulating the re-aggregation of Sertoli cell monolayers and proliferation of testicular germ cells, as measured by incorporation of [3H]-thymidine in vitro. Germ-Sertoli cell cocultures prepared from 21 day old rats were treated with media alone or media containing recombinant human (rh) activin A or rh activin B with or without follistatin, the low affinity activin-binding protein, alpha 2 macroglobulin, or a monoclonal antibody (mAB) known to block activin B activity. Follistatin blocked the ability of activin A to stimulate reaggregation of Sertoli cell monolayers when present at a 2-fold ratio (wt/wt) to activin. However, in these same cultures, follistatin had no effect on the ability of activin A to stimulate [3H]-thymidine incorporation. In activin B-treated cultures, both responses could be blocked by the addition of a neutralizing mAB directed against activin B. These results suggest that follistatin can modulate activin action in a cell-type specific fashion, and that this protein may play an important role in regulating the bioavailability of activin.

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The roles of recombinant human inhibin A (rh-inhibin A) and rh-activin A in regulating the pituitary and ovary of the adult female rat were examined. Serum and pituitary FSH and LH and serum estradiol and progesterone concentrations were evaluated at 1, 2, and 6-12 h after sc hormone administration on metestrus and on proestrus. A second study examined the effect of the hormones 24 h after injection at 1000 h on each day of the cycle. Rh-inhibin A inhibited FSH secretion 60 min after injection on proestrus but did not alter serum FSH concentration on metestrus. FSH remained low for the 12 h examined during the evening of proestrus and on the morning of estrus. Serum LH concentration, pituitary FSH content, and pituitary LH content were not significantly changed under any experimental condition. Rh-inhibin A did not regulate estradiol concentration on metestrus or on proestrus; however, it did cause a rise in serum estradiol in animals treated on metestrus and diestrus and examined 24 h later. This suggests that inhibin may participate in regulating follicular maturation in a subset of developing follicles. Last, after rh-inhibin A treatment, the duration of the proestrus progesterone surge was shortened. Serum FSH concentration rose by 6 h after rh-activin A administration on proestrus and both FSH and LH rose by 6 h after hormone administration on metestrus. Rh-activin A significantly increased serum estradiol through 6 h of treatment on proestrus. Progesterone levels were significantly greater in animals treated on metestrus and killed 24 h later. The increased length of the midcycle progesterone surge may be the result of increased LH on metestrus. These studies suggest that rh-inhibin A and rh-activin A may regulate ovarian and pituitary function in a cycle dependent manner. Specifically, rh-inhibin A can acutely regulate FSH and progesterone on proestrus and estradiol during follicular development. Rh-activin A acutely regulates FSH on both proestrus and metestrus and LH on metestrus. Whether circulating endogenous inhibin or activin participate physiologically in these functions is under investigation.

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A polyclonal chicken antiserum against purified 32-kilodalton (kDa) recombinant inhibin-A (rh-InhA) and two monoclonal antibodies (mAb) against either rh-InhA (11B5) or 28-kDa recombinant activin-A (rh-ActA; 9A9) were used to develop three sensitive InhA enzyme-linked immunosorbent assays (ELISAs). The sensitivity of an ELISA using affinity-purified chicken anti-rh-InhA (Ck) for both coat and capture (Ck/Ck) averaged 78 +/- 3 pg/ml, while the mAb/Ck ELISAs (11B5/Ck or 9A9/Ck) averaged 100 +/- 6 pg/ml in a 10% serum matrix, with intra-and interassay coefficients of variation of 2-5% and 8-10%, respectively, for all assays. The ELISA formats did not cross-react with purified rh-ActA or recombinant human transforming growth factor-beta 1 or detect any immunoreactive proteins in medium conditioned by cell lines expressing rh-ActA or recombinant human transforming growth factor-beta 1. The Ck/Ck ELISA detected significant amounts of immunoreactivity in medium from cells expressing the free alpha-subunit of inhibin and recombinant inhibin-B (rh-InhB). In contrast, the mAb/Ck ELISAs showed no cross-reactivity to medium conditioned by these two cell lines. All three ELISA formats detected rh-InhA added to either human or rat serum in vitro or serum from rats injected with rhInhA. The Ck/Ck and 9A9/Ck ELISAs successfully quantitated inhibin in sera from patients undergoing ovulation induction and in rats (with or without sc administration of pregnant female serum gonadotropin). The 11B5/Ck ELISA appeared to be specific for the 32-kDa form of inhibin, while the 9A9/Ck ELISA was useful in quantitating inhibin-A in biological fluids, with little cross-reactivity to free alpha-chain or inhibin-B.

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The serum pharmacokinetics of recombinant human inhibin A (rh-inhibin A) and rh-activin A were examined in immature female Sprague Dawley-derived rats after iv and sc injection of the drugs. After iv administration of rh-inhibin A (120 micrograms/kg), the serum concentrations were described by a biexponential equation. The weight-normalized clearance was 21.3 ml/min.kg, and the initial (t1/2 alpha) and terminal (t1/2 beta) half-lives were 2.9 min and 37.9 min, respectively. Subcutaneous administration of 120 micrograms/kg rh-inhibin A resulted in a peak serum concentration of 10.6 ng/ml at 30.8 min after injection. Approximately 24% of the sc administered material was absorbed. Serum concentrations of rh-activin A also declined biexponentially after iv injection of the drug (120 micrograms/kg). The clearance of rh-activin A was 5.1 ml/min.kg, the t1/2 alpha was 6.1 min, and the t1/2 beta was 46.3 min. The peak serum concentration of rh-activin A (104.7 ng/ml) was achieved 24.7 min after sc delivery of the drug. The bioavailability of the sc dose was 38%. Iodinated rh-inhibin A and rh-activin A were used to examine the serum forms and metabolites of the drugs. [125I]rh-inhibin A and [125I]rh-activin A associated with two serum-binding proteins. Within 2 min of iv injection, the labeled hormones bound follistatin and alpha-2-macroglobulin. Even though rh-inhibin A and rh-activin A are structurally similar and appear to bind to the same serum proteins, their disposition in the immature rat differ.

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Inhibins and activins are produced by a variety of tissues and may have important endocrine and paracrine roles in development, reproduction, and hematopoiesis. However, little is known regarding the physical properties or concentrations of inhibin and activin in biological fluids. Binding proteins for inhibin or activin in serum or at production or target sites may have important implications for restricting the bioactivity of these hormones and may alter the immunoreactivity of these molecules in biological fluids. The objective of this study was to identify inhibin- and activin-binding proteins in human serum (HS) and follicular fluid (hFF) and determine the ability of these proteins to alter biological or immunological activity. In HS, [125I]activin and inhibin bound to a protein identified as alpha 2-macroglobulin (alpha 2M) using three criteria: 1) [125I]inhibin and activin bind purified alpha 2M, but not several other serum proteins tested; 2) complexes formed by [125I]inhibin and activin in HS and in the presence of purified alpha 2M elute with similar retention times on HPLC; and 3) preadsorption of HS with alpha 2M antiserum inhibits inhibin and activin binding to this protein while antiserum directed against follistatin or other serum proteins had no effect. A small amount of a lower mol wt [125I]activin-follistatin complex was also found in HS. This complex eluted with a retention time similar to that of activin bound to purified porcine follistatin. Binding of inhibin to follistatin could not be detected in HS. In contrast, follistatin was the major binding protein of both activin and inhibin in hFF. Concentrations up to 100 micrograms/ml purified alpha 2M had no effect on the bioactivity or immunoreactivity of either inhibin or activin. In contrast, follistatin inhibited both activin-stimulated pituitary FSH release and K562 hemoglobin production as well as antiserum binding in a specific activin-A immunoassay. Follistatin did not interfere with inhibin immunodetection. These data indicate that two inhibin- and activin-binding proteins are present in different relative amounts in HS and hFF, alpha 2M, the primary binding protein in HS, did not alter inhibin or activin bio- or immunoactivity under the conditions of these experiments, while follistatin, the major binding protein in hFF, may mask activin's bio- and immunoactivities.

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Previous in vivo studies from our laboratory suggested that glucocorticoids antagonize estrogen-dependent actions on LH secretion. This study investigated whether corticosterone (B) may have similar actions on gonadotropin biosynthesis and secretion in vitro. Enzymatically dispersed anterior pituitary cells from adult female rats were cultured for 48 h in alpha-modified Eagle's medium containing 10% steroid-free horse serum with or without 0.5 nM estradiol (E2). The cells were then cultured for 24 h with or without B in the presence or absence of E2. To evaluate hormone release, 5 x 10(5) cells were incubated with varying doses of GnRH (0, 10(-11)-10(-7) M) or pulsatile GnRH (10(-9) M; 20 min/h) for 4 h. Cell and medium LH and FSH were measured by RIA. To evaluate LH biosynthesis, 5 x 10(6) cells were incubated for an additional 24 h with 10(-10) M GnRH, 60 microCi 3H-glucosamine (3H-Gln), 20 microCi 35S-methionine (35S-Met), and the appropriate steroid hormones. Radiolabeled precursor incorporation into LH subunits was determined by immunoprecipitation, followed by SDS-PAGE. Continuous exposure to GnRH stimulated LH release in a dose-dependent manner, and this response was enhanced by E2. B by itself had no effect on LH release, but inhibited LH secretion in E2-primed cells at low concentrations of GnRH (10(-10) M or less). Total LH content was not altered by GnRH or steroid treatment. Similar effects of B were observed in cells that were given a pulsatile GnRH stimulus. In contrast to LH, E2 or B enhanced GnRH-stimulated FSH release at the higher doses of GnRH, while the combination of E2 and B increased basal and further augmented GnRH-stimulated release. Total FSH content was also increased in the presence of B, but not E2 alone, and was further augmented in cells treated with both steroids. There were no effects of the steroids on the magnitude of FSH release in response to GnRH pulses, but the cumulative release of FSH was greater in the E2 + B group compared to controls, indicating an increased basal release. Independent of E2, B suppressed the incorporation of 3H-Gln into LH by more than 50% of control, with only subtle effects on the incorporation of 35S-Met.(ABSTRACT TRUNCATED AT 400 WORDS)

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In vivo and in vitro evidence indicates that FSH is a primary regulator of testicular inhibin production. However, recent reports suggest that LH may also promote inhibin secretion in vivo. To investigate whether LH regulates inhibin subunit messenger RNA (mRNA) expression as well, we examined the effects of hypophysectomy and LH replacement on the testicular content of inhibin alpha and beta-B subunit mRNAs in sexually immature and adult rats. Twenty- and 60-day-old intact and hypophysectomized rats received saline or 0.25, 2.5, 25.0, or 250 micrograms ovine LH/100 g body wt sc, twice daily for 7 days beginning on the day after hypophysectomy (n = 5/group in three separate experiments). The inhibin subunit mRNA content of each testis was measured for statistical analysis by dot-blot hybridization, and experimental results were confirmed by northern analysis of poly(A) RNA from each sample. In immature animals, the testicular content of both inhibin subunit mRNAs was decreased after hypophysectomy; inhibin alpha and beta-B mRNA levels were decreased to 6.9 +/- 0.9% and 31.7 +/- 2.7% of intact control values, respectively. In adult animals, hypophysectomy resulted in a more modest decrease in inhibin alpha subunit mRNA per testis (44.9 +/- 3.1% of controls) but had no effect on beta-B subunit mRNA. Replacement of LH to immature hypophysectomized animals did not alter levels of mRNA for either inhibin subunit. However, in adults LH restored testicular inhibin alpha subunit mRNA content in testes of hypophysectomized animals to levels seen in intact, saline-treated control animals. LH replacement also slightly but consistently decreased testicular beta-B subunit mRNA content compared to levels seen in hypophysectomized, saline-treated rats. These results indicate that although the response of inhibin subunit mRNAs to pituitary input decreases as a function of sexual maturation, LH may play an important role in regulation of inhibin subunit mRNA expression in adult but not immature testes. The mechanism(s) of LH action on testicular inhibin subunit gene expression is currently unknown, but may involve either direct actions of LH on Leydig cell inhibin subunit mRNAs or indirect actions of interstitial cell factors on Sertoli cell inhibin subunit gene expression.

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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.

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In order to elucidate the putative role of inhibin in regulation of spermatogenesis, expression of inhibin subunits was examined at defined stages of the cycle of the rat seminiferous epithelium. Twenty 2-mm segments of seminiferous tubules at stages XIII-I, II-VI, VII-VIII, and IX-XII were dissected using the transillumination technique and subunit specific messenger RNAs (mRNAs) were quantitated by filter hybridization. The alpha and beta-B subunit mRNAs varied significantly in different stages, the highest levels of both alpha and beta-B subunit expression were seen in stages XIII-I and the lowest in stages VII-VIII. The hybridization signals obtained with beta-actin probe were not significantly different between different stages indicating that the differences in the quantities of subunit mRNAs in different stages were not due to different amounts of RNA blotted. beta-A subunit mRNA levels were below the detection limit of the filter hybridization method. These data demonstrate that expression of inhibin alpha and beta-B subunits in the rat testis is stage dependent and suggest a paracrine role for inhibin-related peptides in regulation of spermatogenesis.

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The purpose of this study was to evaluate the direct effects of testosterone (T) on LH subunit apoprotein synthesis, glycosylation, and release by the male pituitary. Cells from 1-week castrate rats were cultured for 48 h in steroid-free medium, followed by 48 h in medium with or without 10 nM T. The cells were then incubated for 2, 4, 6, 8, or 12 h in medium containing [35S]methionine (35S-Met) or [3H]glucosamine (3H-Gln), with or without 1 nM GnRH (Exp 1) or in medium containing precursors with or without 10 nM T and/or 1 nM GnRH (Exp 2). Radiolabeled precursor incorporation into LH subunits was determined by immunoprecipitation, followed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. In Exp 1, precursor incorporation into total protein (TP) and LH subunits increased linearly over time for at least 8 h. GnRH did not affect precursor incorporation into total protein or 35S-Met labeling of LH subunits, but stimulated a linear time-dependent accumulation of 3H-Gln into total (cells plus media) LH subunits and release of radioimmunoassayable LH into the medium. Based on these results, the effects of T on LH subunit biosynthesis (with or without GnRH) were studied during an 8-h incubation. In Exp 2, GnRH enhanced total 3H-Gln (but not 35S-Met) incorporation into both LH subunits. GnRH stimulated the release of 35S-Met LH alpha and 3H-Gln LH subunits and increased the relative glycosylation of secreted LH subunits without altering the relative glycosylation of intracellular LH subunits. T inhibited radioimmunoassayable LH release and incorporation of both precursors into total and secreted LH subunits (with or without GnRH). However, only the relative glycosylation of secreted LH alpha was reduced by T (with or without GnRH). These data indicate that T acts directly at the pituitary to inhibit LH subunit apoprotein synthesis and selectively inhibit LH alpha glycosylation. Further, these data support the hypothesis that changes in LH glycosylation may be one of the ways by which GnRH and T regulate LH release.

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The purpose of this study was to investigate the effects of lowering the extracellular calcium concentration on GnRH-stimulated LH glycosylation and LH translation, as measured by the incorporation of [3H]glucosamine (3H-Gln) and [35S]methionine (35S-Met) into immunoprecipitable LH. Cultured anterior pituitary cells, previously exposed to estradiol (5 X 10(-10) M) to maximize precursor incorporation were incubated for 4 h in normal calcium (2.5 mM) or low calcium medium (less than 15 microM) containing radiolabeled precursors with or without 1 nM GnRH. In the presence of normal calcium, GnRH significantly increased 3H-Gln-labeled LH in the medium (278%) and cells (290%), as well as total (cells plus medium) 3H- Gln LH (280%) compared to the control value (no GnRH). GnRH also significantly increased the 35S-Met LH released into the medium (164%) and total 35S-Met LH (186%) over control values. Depletion of extracellular calcium completely inhibited GnRH-stimulated 3H-Gln LH and 35S-Met LH production. Total immunoreactive LH (iLH), as measured by RIA, was also increased significantly by GnRH treatment in the presence of calcium, but this response was prevented by removal of calcium from the medium. Lowering extracellular calcium had no effect on cellular uptake or incorporation of 3H-Gln or 35S-Met into total trichloroacetic acid-precipitable protein. Approximately 80% of newly synthesized LH was released into the medium in all treatment groups independent of whether calcium or GnRH was present. The specific activity (disintegrations per min/microgram iLH) of radiolabeled LH released into the medium was significantly reduced by treatment with GnRH due to the large amount of unlabeled iLH released into the medium. However, when the cells were incubated in low calcium, the SA of 3H-Gln LH and 35S-Met LH in the medium was unaltered by GnRH, whereas GnRH-stimulated iLH release was inhibited. We conclude that GnRH stimulation of LH glycosylation and LH apoprotein synthesis involves extracellular calcium-dependent events, and the release of newly synthesized LH is closely coupled to LH biosynthesis and is less dependent on extracellular calcium, whereas the GnRH-stimulated release of previously synthesized, stored LH is dependent on extracellular calcium.

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It is known that acute ovariectomy (OVX) greatly attenuates the pituitary luteinizing hormone (LH) response to gonadotropin-releasing hormone (GnRH) in vitro. The present study evaluated possible quantitative and/or qualitative differences in the biosynthesis and secretion of LH in pituitaries from proestrous and acutely (72 h) OVX rats. Paired anterior pituitary glands were incubated for 4 h in a medium containing +/- 10 nM GnRH. Pituitary and secreted LH were measured by radioimmunoassay with differences in total LH (tissue plus medium) +/- GnRH being indicative of GnRH-stimulated LH synthesis. Qualitative changes in LH were evaluated by isoelectrofocusing (IEF). The results show that the major form of LH stored in and released from the pituitaries consisted of LH molecules with an isoelectric point (pI) in the alkaline pH range (alkaline LH), and a lesser amount (approximately 30%) of LH molecules in the acidic pH range (acidic LH). The ratio of alkaline/acidic LH observed in the pituitary and medium was similar in the proestrous and OVX groups, although the amount of alkaline and acidic LH release in response to GnRH was 2-3 times greater in the proestrous group. In both groups, the alkaline/acidic LH ratio of secreted LH was higher in the presence of GnRH than in its absence. Alkaline LH synthesis was increased by GnRH in both groups, with the response being greater in the proestrous than in the OVX group; GnRH-stimulated acidic LH synthesis was observed only in the proestrous group. In both groups, the amount of LH synthesized was about 60% of the amount released, which suggests that LH synthesis does not fully account for differences in GnRH-stimulated LH release. Treatment of pituitary extracts with neuraminidase decreased acidic LH, and proportionately increased alkaline LH. These results suggest that the quality of LH stored in and secreted from pituitaries of proestrous and OVX rats is similar, and that there is a preferential release of the major alkaline LH isoform in response to GnRH. The ovarian steroid environment, presumably estradiol, proportionately increases the amount of alkaline and acidic LH released, and differentially affects the amounts of the various isoforms synthesized in response to GnRH. The charge heterogeneity of alkaline and acidic LH may be related to the sialic acid content of the LH molecule.

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