UMLS:C0432222 - FACTA Search

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Our research programs required the preparation of hypophysectomized and orchidectomized rhesus monkeys. This afforded us the possibility to characterize and compare levels of the gonadotropin and inhibin subunit mRNAs in pituitaries from intact and castrate monkeys. Eighteen adult male monkeys, four of which had been bilaterally orchidectomized 5-9 months previously, were used in this study. Plasma concentrations of LH and FSH were, respectively, 188.5 +/- 5.3 and 246.8 +/- 25.2 ng/ml in the castrate monkeys and 25.8 +/- 4.5 and 4.1 +/- 1.1 ng/ml (mean +/- SEM) in the intact animals. Total pituitary RNA was hybridized to cDNA probes for cynomolgus monkey gonadotropin subunits (FSH beta, LH beta, and the common alpha-subunit) and for human inhibin subunits (alpha, beta B, and beta A) by Northern blot analysis, and mRNA levels were normalized by subsequent hybridization to cyclophilin. Each of the gonadotropin subunit probes hybridized to a single RNA species with the approximate sizes of 1.6 kilobases (kb; FSH beta), 0.7 kb (LH beta), and 0.8 kb (alpha). Levels of LH beta and alpha-subunit mRNAs in pituitaries from castrate monkeys were about 5- and 2-fold higher, respectively, than those in pituitaries from intact monkeys. FSH beta mRNA, on the other hand, was elevated about 27-fold in castrate monkeys [mean +/- SEM, 3176 +/- 408 cpm bound (n = 4 castrate) and 116 +/- 30 cpm bound (n = 8 intact]). Inhibin beta B-subunit mRNA was present in the monkey pituitary as a doublet of about 5 kb, and it was approximately twice as abundant in intact pituitaries as in castrate pituitaries. Hybridizations involving inhibin beta A cDNA revealed a faint band in the region expected for monkey beta A mRNA (6.5 kb) in three of six RNA samples from intact monkeys and a 0.3- to 0.4-kb mRNA species. mRNA encoding the inhibin alpha-subunit was undetectable by Northern blot hybridization. These results indicate that the postpubertal testis imposes an inhibition on the expression of the genes encoding FSH beta, LH beta, and glycoprotein hormone alpha-subunit and that this suppression of the FSH beta gene in the monkey is much greater than that in the rat. In addition, the monkey pituitary may be a source of activin, which may act locally to modulate FSH gene expression and secretion.
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PMID:Effects of orchidectomy on gonadotropin and inhibin subunit messenger ribonucleic acids in the pituitary of the rhesus monkey (Macaca mulatta). 153 90

Rat pituitary cells express messenger RNA for the activin-binding protein, follistatin (FS), and rat and bovine pituitary cell cultures secrete FS into the medium. In the present study, a previously validated, heterologous RIA for ovine FS was employed to investigate FS synthesis, secretion, and regulation in cultures of ovine anterior pituitary cells. The validity of the RIA was confirmed by the finding that FS immunoreactivity in ovine pituitary cell culture-conditioned medium diluted in parallel with purified bovine FS, and fractionation of the conditioned medium resulted in the coelution of activin-binding activity with the FS immunoactivity. The concentration of endogenous ovine FS achieved in the culture medium (0.08-0.6 nM) was in the range over which bovine FS suppresses FSH secretion in these cultures (IC50 = 0.5 nM). To characterize the relationship between endogenous FS and FSH secretion, dispersed ovine pituitary cells were preincubated with 10% fetal bovine serum for 2 days, then cultured between days 2-5 in the presence of a chemically defined serum substitute. Under these conditions, FS was continuously secreted at a rate of 12.1 +/- 1.8 ng/10(6) cells.day (mean +/- SEM; n = 18), whereas FSH was secreted at 64 +/- 13 ng/10(6) cells.day (n = 7). The secretion of FS and FSH changed in a reciprocal way as culture conditions were altered either by maintaining exposure of the cells to fetal bovine serum or by plating the cells at a 6- to 10-fold higher seeding density. Under the latter circumstance, for instance, FS secretion during the 3-day test period decreased to 47 +/- 14% (n = 10) and FSH secretion increased to 137 +/- 6% (n = 6) of the respective values in cultures of dispersed cells. FS secretion was increased nearly 3-fold (P < 0.05) in a dose-dependent manner by continuous exposure of ovine pituitary cells between days 2-5 to recombinant human activin A (1-10 nM), which concomitantly increased FSH secretion. Recombinant human inhibin A (0.003-10 nM); the synthetic glucocorticoids, RU28362 and dexamethasone (each 1-100 nM); the sex steroids, testosterone (1-100 nM), 17 beta-estradiol (0.001-5 nM), and progesterone (4-2500 nM); and the vitamin A derivative, retinoic acid (0.3-32 microM), each inhibited FSH secretion from these cultures, but only the last agent significantly (P < 0.05) increased FS secretion. Inhibin prevented the stimulation of FSH secretion by activin A without affecting its stimulation of FS secretion.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Ovine anterior pituitary production of follistatin in vitro. 766 60

In primary cultures of rat pituitary cells, inhibin and follistatin reduce steady state levels of FSH beta mRNA to less than 10% of control within 4-6 h, while activin increases this mRNA 2- to 3-fold after 2-4 h of treatment. The effects of these three gonadal polypeptide hormones on the LH beta and common alpha-subunit mRNAs are more gradual and of lesser magnitude. The present study was designed to determine whether inhibin, activin, and/or follistatin act at the posttranscriptional level by altering the stability of the gonadotropin subunit mRNAs. To determine the decay rates of FSH beta, LH beta, and alpha-subunit mRNAs, primary pituitary cell cultures were treated for 1-24 h with either of two transcriptional inhibitors, actinomycin-D or 5,6-dichloro-1-beta-ribofuranosyl benzimidazole (DRB), in the presence or absence of recombinant human inhibin-A, recombinant human activin-A, or purified bovine follistatin. The decay of preexisting gonadotropin subunit mRNAs was followed by Northern blot analysis. Levels of LH beta and alpha-subunit mRNAs remained constant or increased during the 24-h exposure to transcriptional inhibitors; therefore, it was not possible to calculate their half-lives. The stability of these mRNAs was not altered by inhibin, activin, or follistatin. In contrast, FSH beta mRNA turned over rapidly: the estimated half-life was 2.6 +/- 0.19 h (mean +/- SEM of eight determinations) after actinomycin-D treatment and 1.9 +/- 0.14 h (mean +/- SEM of 12 determinations) after DRB treatment. When new RNA synthesis was blocked by either actinomycin-D or DRB, there were no significant effects of inhibin, activin, or follistatin on the stability of FSH beta mRNA (n = 2-4 for each hormone). The decay of FSH beta mRNA in the presence of inhibin or follistatin alone, however, was even more rapid than that determined after the administration of transcriptional inhibitors (P < 0.005). After an initial lag of 1-2 h, the half-life of FSH beta mRNA was 0.88 +/- 0.15 h (n = 4) or 0.62 +/- 0.11 h (n = 3), in the presence of inhibin or follistatin, respectively. The most likely interpretation of these results is that inhibin/follistatin reduces steady state levels of FSH beta mRNA by inducing a labile protein that accelerates the degradation of this mRNA species, and the synthesis of this protein is blocked by actinomycin-D or DRB treatment. It is not clear at present whether inhibin, follistatin, and activin have additional effects on transcription of the gonadotropin subunit genes.
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PMID:Decay of follicle-stimulating hormone-beta messenger RNA in the presence of transcriptional inhibitors and/or inhibin, activin, or follistatin. 768 52

The aims of these studies were to determine which types of bovine ovarian tissue contain mRNA for inhibin/activin subunits and whether administration of GnRH influences concentration of these mRNAs. In experiment (exp.) one, cows in the luteal phase of the estrous cycle were given prostaglandin F2 alpha (PGF2 alpha) to induce luteal regression and injected after 40 hr with saline (n = 5) or 100 micrograms GnRH (n = 6). Ovaries were removed 6 hr later. In exp. two, unilaterally ovariectomized (OVX) heifers (n = 33) in the luteal phase of their estrous cycle were given PGF2 alpha to induce luteal regression. Twelve heifers were OVX without injection of GnRH at 24 (n = 6) or 40 hr (n = 6) after PGF2 alpha. The remaining heifers (n = 21) were given 100 micrograms GnRH at 40 hr after PGF2 alpha injection and OVX 8 (n = 4), 16 (n = 5), 24 (n = 6) or 48 (n = 6) hr after GnRH injection. Total cellular RNA was isolated from large follicles (exp. one and two), small-medium follicles and stromal tissue (SMS) and corpora lutea (CL; exp. one) tissues and analyzed by dot blot and Northern blot techniques by hybridizing with cDNA probes for human inhibin/activin alpha- and beta A-subunits. Large follicles were classified as steroidogenically active (EA) if follicular fluid (FF) concentration of estradiol-17 beta (E2) was greater than progesterone (P4), or if P4 and E2 concentrations in FF were greater than 100 ng/ml, and estrogen inactive (EI) if FF concentration of E2 and P4 did not satisfy these criteria. In exp. one, mRNA for the alpha-subunit was primarily expressed in EA follicles, and detectable in EI follicles, SMS, and CL while beta A-subunit mRNA was detected only in large EA follicles and a few SMS samples. The mRNA (x +/- SEM fmoles/mg DNA) for both subunits of inhibin/activin was higher (P < .05) in EA follicles from GnRH-treated cows (alpha = 210.2 +/- 38.6; beta A = 376.9 +/- 41.0) than in EA follicles from control cows (alpha = 102.5 +/- 28.6; beta A = 170.8 +/- 57.6). Concentration of mRNA for the alpha-subunit of inhibin in other ovarian tissues was not different (P > .10) between saline and GnRH treatments.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Detection of mRNA for inhibin alpha- and beta A-subunits in bovine ovarian tissues and the effect of in vivo administration of GNRH. 825 41

The expression of the mRNA for the inhibin/activin subunits (alpha and beta A) in the granulosa layer of the five largest preovulatory follicles of the hen was investigated. Total RNA from the granulosa layer of the F5 (the fifth largest) to F1 (the largest) follicles was extracted and analyzed by Northern blot analysis using homologous chicken inhibin alpha and beta A subunit cDNA probes. RNA loading was quantified by a cDNA probe of bovine 18S rRNA. Results showed that for the chicken inhibin alpha subunit mRNA signals (n = 3), the mean relative intensity for the F1, F2, F3, and F4 follicles was 0.50 +/- 0.10 ( +/- SEM,), 0.52 +/- 0.08, 0.59 +/- 0.06, and 0.81 +/- 0.04, respectively, compared to a mean relative intensity of 1.00 (p < 0.05) for the F5 follicle. For the beta A subunit mRNA signals (n = 3), the mean relative intensity for the F5, F4, F3, and F2 follicles was 0.25 +/- 0.06, 0.28 +/- 0.15, 0.40 +/- 0.17, and 0.48 +/- 0.10 (p < 0.05) for the F1 follicle. The inhibin alpha subunit was also estimated to be more abundantly expressed among follicles in the granulosa layer than was the beta A subunit. Our data indicate that the expression of inhibin alpha and beta A subunits is differentially regulated in the hen granulosa layer during follicular development. Expression of the alpha subunit is reduced with follicular development whereas inhibin beta A subunit expression is dramatically enhanced. In addition, the granulosa layer of the large preovulatory follicles may produce more inhibin alpha subunit than beta A subunit, and the F1 follicle may be the primary source of the beta A subunit for dimeric inhibin and/or activin in the hen.
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PMID:Expression of inhibin alpha and inhibin/activin beta A subunits in the granulosa layer of the large preovulatory follicles of the hen. 882 54

We developed and validated a RIA for measuring serum activin A. The least detectable value of this assay was 0.1 micrograms/L, and the antibody used cross-reacted slightly with bovine inhibin (3.2%) and porcine activin AB (10.0%) but not with porcine activin B (< 0.5%). Serum activin A was extracted with acetonitrile and trifluoroacetic acid to get rid of the interaction with possible binding proteins in serum. As a result of this extraction procedure, the dose-response curve of serum extract was parallel to the standard curve and a single immunoreactive (ir-) peak was demonstrated on gel chromatographic analysis with constant recovery rates over 80%. Serum ir-activin A level in healthy adults was 1.27 +/- 0.03 micrograms/L (mean +/- SEM, n = 180); being 1.38 +/- 0.05 micrograms/L (n = 90) in male, and 1.16 +/- 0.05 micrograms/L (n = 90) in female subjects, with a tendency to increase with age. Serum ir-activin A level during pregnancy showed a marked increase with the advance of gestation; 1.65 +/- 0.41 micrograms/L (n = 7) in the early, 4.50 +/- 1.13 micrograms/L (n = 21) in the middle, and 16.32 +/- 2.25 micrograms/L (n = 26) in the late trimester, with a rapid decline after delivery. On the other hand, serum ir-activin A level was elevated in patients with hyperthyroidism (1.91 +/- 0.37 micrograms/L, n = 31), liver cirrhosis (2.03 +/- 0.71 micrograms/L, n = 10), chronic renal failure (3.41 +/- 0.34 micrograms/L, n = 41), and advanced solid cancer (2.24 +/- 0.52 micrograms/L, n = 67). These findings indicate that serum ir-activin A level varies with physiological conditions such as aging and pregnancy, and that it may reflect the altered production and metabolism of activin A in certain diseased conditions.
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PMID:Serum immunoreactive activin A levels in normal subjects and patients with various diseases. 896 39

Activin-betaA subunits are expressed by the human placenta and extraplacental membranes at term and preterm. The regulation of activin-A production by these tissues has not been characterized to date, however. To determine the effects on activin-A production of pro-inflammatory cytokines, amnion, decidual and placental cells were isolated by enzyme dispersion and treated in primary culture with interleukin-1beta (IL-1beta) and tumour necrosis factor-alpha (TNF-alpha). Activin-A production (determined by ELISA) by amnion, decidual and placental cultures was 1.2 +/-0.27, 31.1+/-9.9, and 50.7+/-28.5 pg/microg protein/16 h, respectively (mean+/-SEM; n=5-7 experiments). Both IL-1beta and TNF-alpha stimulated activin-A production in a concentration-dependent fashion in all cultures; maximal stimulation was achieved at 0.25-1.0 ng/ml IL-1beta and 25-50 ng/ml TNF-alpha, respectively. In amnion, decidual and placental cultures IL-1beta stimulated activin-A production to 747+/-274, 190+/-11, and 254+/-60.2 per cent of controls, while TNF-alpha stimulated production to 312+/-81.5, 194+/-22.5, and 193+/-12.5 per cent, respectively (mean+/-SEM; n=5; P<0.05 by ANOVA). These studies show for the first time that pro-inflammatory cytokines are potent stimulators of activin-A production by intrauterine tissues. This may provide an explanation for the elevated concentrations of activin-A measured in the sera of some women in preterm labour.
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PMID:Regulation of activin-A production by human amnion, decidua and placenta in vitro by pro-inflammatory cytokines. 969 65

Follistatin is a specific binding protein which controls bioavailability of activins and inhibins which have an important role in fetal development. In the first trimester of pregnancy bioactive dimeric inhibins are found at high concentrations in the extra-embryonic coelomic fluid, but the distribution of follistatin and activins is not known. We have used recently developed immunoassays for follistatin, activin A and activin AB to determine their presence in the intrauterine compartments during early pregnancy. Follistatin was present in highest concentrations in the extra-embryonic coelomic fluid (11.72 +/- 1.70 ng/ml; median +/- SEM), with less in maternal serum (6.35 +/- 4.58) and lowest amounts in amniotic fluid (0.97 +/- 0.52). Follistatin concentrations in extra-embryonic coelomic fluid were highly correlated with both dimeric inhibin isoforms. Activin A was present in only barely detectable amounts in some samples of extra-embryonic coelomic fluid (41% of samples) and maternal serum (26%) and was undetectable in all amniotic fluid samples. Activin AB was undetectable in all compartments. The presence of follistatin in the amniotic and extra-embryonic coelomic fluids may regulate the availability of bioactive activins and inhibins which are released into the intrauterine compartments during the development of the fetus and placenta in early pregnancy.
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PMID:Follistatin and activin A in extra-embryonic coelomic and amniotic fluids and maternal serum in early pregnancy. 980 96

We previously reported that mutation of the transforming growth factor-beta3 (TGF-beta3) gene caused cleft palate in homozygous null (-/-) mice. TGF-beta3 is normally expressed in the medial edge epithelial (MEE) cells of the palatal shelf. In the present study, we investigated the mechanisms by which TGF-beta3 deletions caused cleft palate in 129 x CF-1 mice. For organ culture, palatal shelves were dissected from embryonic day 13.5 (E13.5) mouse embryos. Palatal shelves were placed singly or in pairs on Millipore filters and cultured in DMEM/F12 medium. Shelves were placed in homologous (+/+ vs +/+, -/- vs -/-, +/- vs +/-) or heterologous (+/+ vs -/-, +/- vs -/-, +/+ vs +/-) paired combinations and examined by macroscopy and histology. Pairs of -/- and -/- shelves failed to fuse over 72 hours of culture whereas pairs of +/+ (wild-type) and +/+ or +/- (heterozygote) and +/-, as well as +/+ and -/- shelves, fused within the first 48 hour period. Histological examination of the fused +/+ and +/+ shelves showed complete disappearance of the midline epithelial seam whereas -/- and +/+ shelves still had some seam remnants. In order to investigate the ability of TGF-beta family members to rescue the fusion between -/- and -/- palatal shelves in vitro, either recombinant human (rh) TGF-beta1, porcine (p) TGF-beta2, rh TGF-beta3, rh activin, or p inhibin was added to the medium in different concentrations at specific times and for various periods during the culture. In untreated organ culture -/- palate pairs completely failed to fuse, treatment with TGF-beta3 induced complete palatal fusion, TGF-beta1 or TGF-beta2 near normal fusion, but activin and inhibin had no effect. We investigated ultrastructural features of the surface of the MEE cells using SEM to compare TGF-beta3-null embryos (E 12. 5-E 16.5) with +/+ and +/- embryos in vivo and in vitro. Up to E13.5 and after E15.5, structures resembling short rods were observed in both +/+ and -/- embryos. Just before fusion, at E14.5, a lot of filopodia-like structures appeared on the surface of the MEE cells in +/+ embryos, however, none were observed in -/- embryos, either in vivo or in vitro. With TEM these filopodia are coated with material resembling proteoglycan. Interestingly, addition of TGF-beta3 to the culture medium which caused fusion between the -/- palatal shelves also induced the appearance of these filopodia on their MEE surfaces. TGF-beta1 and TGF-beta2 also induced filopodia on the -/- MEE but to a lesser extent than TGF-beta3 and additionally induced lamellipodia on their cell surfaces. These results suggest that TGF-beta3 may regulate palatal fusion by inducing filopodia on the outer cell membrane of the palatal medial edge epithelia prior to shelf contact. Exogenous recombinant TGF-beta3 can rescue fusion in -/- palatal shelves by inducing such filopodia, illustrating that the effects of TGF-beta3 are transduced by cell surface receptors which raises interesting potential therapeutic strategies to prevent and treat embryonic cleft palate.
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PMID:Pathogenesis of cleft palate in TGF-beta3 knockout mice. 1043 15

We recently demonstrated that the number of primordial follicles was significantly reduced in the ovaries of near-term baboon fetuses deprived of estrogen in utero and restored to normal in animals administered estradiol. Although the baboon fetal ovary expressed estrogen receptors alpha and beta, the mechanism(s) of estrogen action remains to be determined. It is well established that inhibin and activins function as autocrine/paracrine factors that impact adult ovarian function. However, our understanding of the expression of these factors in the primate fetal ovary is incomplete. Therefore, we determined the expression of alpha-inhibin, activin beta(A), activin beta(B), and activin receptors in fetal ovaries obtained at mid and late gestation from untreated baboons and at late gestation from animals in which fetal estrogen levels were reduced by >95% by maternal administration of the aromatase inhibitor CGS 20267 or restored to 30% of normal by treatment with CGS 20267 and estradiol benzoate. Immunocytochemical expression of alpha-inhibin was minimal to nondetectable in fetal ovaries from untreated baboons. In contrast, in baboons depleted of estrogen, alpha-inhibin was abundantly expressed in pregranulosa cells of interfollicular nests and granulosa cells of primordial follicles. Thus, the number (mean +/- SEM) per 0.08 mm2 of fetal ovarian cells expressing alpha-inhibin, determined by image analysis, was similar at mid and late gestation and increased approximately 8-fold (P < 0.01) near term in baboons treated with CGS 20267 and was restored (P < 0.01) to normal in baboons treated with CGS 20267 plus estradiol. Activin beta(A) was detected in oocytes and pregranulosa cells at midgestation and in oocytes and granulosa cells of primordial follicles at late gestation. Activin beta(B) was also expressed in pregranulosa cells and granulosa cells at mid and late gestation, respectively, but was not detected in oocytes. Neither the pattern nor the apparent level of expression of activin beta(A) or beta(B) were altered in fetal ovaries of baboons treated with CGS 20267 or CGS 20267 and estrogen. Activin receptors IA, IB, IIA, and IIB were detected by Western blot analysis in fetal ovaries at mid and late gestation, and expression was not altered by treatment with CGS 20267 or CGS 20267 and estrogen. Activin receptors IB and IIA were localized to oocytes and pregranulosa cells at midgestation and to granulosa cells and oocytes of primordial follicles at late gestation. Thus, the decrease in the number of follicles in the primate fetal ovary of baboons deprived of estrogen in utero was associated with increased expression of alpha-inhibin. Therefore, we propose that estrogen regulates fetal ovarian follicular development by controlling alpha-inhibin expression and, thus, the intraovarian inhibin:activin ratio.
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PMID:Up-regulation of alpha-inhibin expression in the fetal ovary of estrogen-suppressed baboons is associated with impaired fetal ovarian folliculogenesis. 1260 24

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