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The hormonal regulation of inhibin production by cultured granulosa cells from immature hypophysectomized, estrogen-treated rats was examined using a specific RIA which detects the N-terminal portion of the inhibin alpha-chain. The RIA measured bioactive inhibin of Mr about 32,000 in granulosa cell conditioned media fractionated by fast protein liquid chromatography. In the presence of 10(-7) M androstenedione, FSH stimulated inhibin production in a dose-dependent manner during a 2-day culture. Inclusion of a phosphodiesterase inhibitor decreased the EC50 for FSH from 2.6 to 0.8 ng/ml (n = 3). The stimulatory effect of FSH could be mimicked with forskolin (an adenyl cyclase activator) and with a cAMP analog, (Bu)2cAMP, consistent with FSH action mediated through a cAMP dependent pathway. Intracellular levels of inhibin were unmeasureable, suggesting that inhibin is not stored to any great extent by the granulosa cells. This finding was consistent with in vivo studies which showed that whereas FSH treatment for 2 days doubled serum inhibin levels when compared with basal levels, there was no increase in the concentration of extractable inhibin in ovarian tissue. Granulosa cells which had been exposed to 20 ng/ml FSH for 2 days to induce LH receptors produced inhibin in response to both LH and human CG during the subsequent 2-day culture, with the levels of inhibin equalling the amount inducible by FSH. In contrast, neither PRL nor terbutaline, a beta 2-adrenergic agonist, had any effect on inhibin production even though receptors for these hormones are also induced by FSH. GnRH was found to inhibit the FSH-stimulated production of inhibin (IC50, 10(-7) M), consistent with previous observations that GnRH can act at the ovarian level to inhibit granulosa cell differentiation. This inhibition by GnRH could be reversed by inclusion of a specific GnRH antagonist. On the other hand, another regulatory peptide, vasoactive intestinal peptide, slightly stimulated inhibin production. The effect of several growth factors was also tested. Insulin-like growth factor I raised not only FSH-stimulated inhibin levels, but basal levels as well. Insulin was also effective, but only at 100-fold higher concentration. Epidermal growth factor inhibited FSH-stimulated inhibin production (IC50 = 0.1 ng/ml), whereas fibroblast growth factor had no effect. Thus, granulosa cell inhibin secretion is regulated by FSH and LH but not by PRL, presumably via a cAMP-mediated pathway.(ABSTRACT TRUNCATED AT 400 WORDS)

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Hormonal regulation of inhibin production by cultured Sertoli cells

Bicsak

Vale

Vaughan

et al. 1987

Molecular and Cellular Endocrinology

136

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Inhibin Production by Primary Sertoli Cell-Enriched Cultures: Regulation by Follicle-Stimulating Hormone, Androgens, and Epidermal Growth Factor*

et al. 1988

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Inhibin levels in the serum-free media of primary Sertoli cell-enriched (SCE) cultures were studied as a function of time and hormonal treatment. SCE cultures were established from 20-day-old rats and maintained in SF media supplemented with insulin, transferrin, epidermal growth factor (EGF), and bacitracin. Radioimmunoassayable inhibin was measured using an antibody directed against a synthetic porcine inhibin-a (pla) and measured using this same synthetic peptide as well as a highly purified ovine inhibin standard. Results of these determinations are expressed in terms of a synthetic peptide as femtomoles of pIa-(l-26)-G-Y-per ml/10 6 cells. Inhibin levels (±SEM) that accumulated at this rate in media from control cultures were 184.9 ± 6.1 and 167.4 ± 5.2 on days 0-4 and 4-8, respectively. When FSH (oFSH 17; 1-1000 ng/ml) was added, a dose-dependent increase in inhibin levels was significant at all time points beyond the initial 24 h. The simultaneous addition of 2 X 10" 7 M testosterone (T) with low doses of FSH suppressed the inhibin response to FSH, but when T was combined with 300 ng/ml FSH, there was no effect of T on inhibin levels compared to FSH alone, regardless of time in culture. In spite of the modest effect of T, androstenedione (A; 2 X 10" 13 to x 10 5 M) produced a dose-dependent suppression of inhibin levels. This inhibition was also observed at all doses of FSH. The action of A was not due to its conversion to estrogens, as 17/3-estradiol had no effect on inhibin production by SCE cultures in either the presence or absence of FSH. The effect of EGF, a component of the basal serum-free medium, was next examined; it produced a 1.5-fold higher level of inhibin (188.7 ± 9.5) compared to cultures without EGF (135.6 ± 5.0). When SCE cultures were plated with FSH plus EGF, the stimulation of inhibin levels was additive. We conclude that in Sertoli cell cultures established from immature rats (1) the accumulation of inhibin in medium declines from 90 fmol/10 6 cells-day (initial 24 h) to 40-50 fmol/10 6 cells-day (over the first 48 h) and continues to accumulate in the medium for 8 days of culture; (2) FSH regulates the production of inhibin by Sertoli cells; the best dose response is observed over a 3-day period; (3) has a more marked suppressive effect on inhibin accumulation than does T; and (4) EGF stimulates basal inhibin production, and its effects are additive with those of FSH. (Endocrinology 122: [717][718][719][720][721][722][723][724][725] 1988)

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Scott Cappel

Hormonal Regulation of Granulosa Cell Inhibin Biosynthesis*

Hormonal regulation of inhibin production by cultured Sertoli cells

Inhibin Production by Primary Sertoli Cell-Enriched Cultures: Regulation by Follicle-Stimulating Hormone, Androgens, and Epidermal Growth Factor*

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