Hormone interactions in the sertoli cells

Summary The effects of follicle-stimulating hormone (FSH) and testosterone in rat Sertoli cells were investigated in vitro by means of isolated cell populations. The Sertoli cells selectively bind FSH, and respond to FSH stimulation with increased accumulation of endogenous cyclic AMP and secretion of androgen-binding protein (ABP). FSH binding and cyclic AMP response in the Sertoli cells change dramatically during sexual maturation. Cyclic AMP response decreases despite an increase in FSH-binding receptors per cell. Evidence has been provided for the existence of cytoplasmic and nuclear androgen receptors and chromatin acceptor-sites that specifically bind the androgen-receptor complex in the Sertoli cells. A model has been proposed for the hormonal interactions in the seminiferous tubule and the possible role of Sertoli cells in mediating the hormonal effects on spermatogenesis. Presented in the formal symposium on Sexual Differentiation in Vitro and in Vivo at the 29th Annual Meeting of the Tissue Culture Association, Denver, Colorado, June 4–8, 1978. This work was supported by Grant P50 HD08338 from the NICHHD. Dr. barbara M. Sanborn is a recipient of Research Career Development Award 1-K04-HD00126 (NIH).     

LH and FSH stimulation of cyclic AMP in specific cell types isolated from the testes.

The direct effect of LH and FSH on cyclic AMP levels in specific cell types, isolated from the rat testes, was investigated in vitro. LH significantly stimulated cyclic AMP production in isolated interstitial cells and had only a slight effect on the isolated germ cells. FSH significantly stimulated cyclic AMP production in isolated seminiferous tubules, organ cultures of testes explants, and isolated Sertoli cells, with only a small response elicited in the germ cells. FSH had no effect on the cyclic AMP levels in interstitial cells and either freshly isolated or cultured peritubular cells. These data indicate that the Sertoli cells and interstitial cells are the main cell types in the testes which respond to FSH and LH respectively with increased cyclic AMP production. A possible slight effect of either hormone on the cyclic AMP level in the germ cells has not be ruled out.     

Isolation and culture of FSH responsive Sertoli cells.

Methods for the isolation and culture of enriched populations of Sertoli cells from 20-60 day old rats are described. The identity of the Sertoli cells was verified by bright light and electron microscopy. Freshly isolated Sertoli cells specifically bound follicle stimulating hormone (FSH) but not luteinizing hormone (LH) and responded to FSH stimulation with dramatic increase in cyclic AMP level. Isolated Sertoli cells, maintained in culture for 11 days, showed no evidence of proliferation but retained their characteristic ultrastructural features and FSH binding ability. Incubation of cultured cells with FSH resulted in a significant stimulation of cyclic AMP and androgen binding protein (ABP). Since the freshly isolated or cultured cells were predominantly (greater than 80%) Sertoli cells, these results provide direct evidence that the Sertoli cells represent a primary target site for FSH activity in the testes. The culture method also provides a valuable in vitro model for the study of chronic effects of various agents on the Sertoli cell.     

The role of calcium in follicle-stimulating hormone signal transduction in Sertoli cells.

Sertoli cells are hormonally regulated by follicle-stimulating hormone (FSH) acting upon a G-protein-linked cell surface FSH receptor. FSH increases intracellular cyclic AMP but the involvement of other signal transduction mechanisms including intracellular calcium in FSH action are not proven. Using freshly isolated rat Sertoli cells we measured cytosolic free ionized calcium levels by dual-wavelength fluorescence spectrophotometry using the calcium-sensitive fluorescent dye Fura2-AM. The cytosolic calcium concentration in unstimulated Sertoli cells was 89 +/- 2 nM (n = 151 experiments) and was markedly increased by either calcium channel ionophores (ionomycin, Bay K8644) or plasma membrane depolarization consistent with the presence of voltage-sensitive and -independent calcium channel in Sertoli cell membranes. Ovine FSH stimulated a specific, sensitive (ED50, 5.0 ng of S-16/ml), and dose-dependent (maximal at 20 ng/ml) rise in cytosolic calcium commencing within 60 s to reach levels of 192 +/- 31 nM after 180 s and lasting for at least 10 min. The effect of FSH was replicated by forskolin, cholera toxin, and dibutyryl cyclic AMP, suggesting that cyclic AMP may mediate the FSH-induced rise in cytosolic calcium. The FSH-induced rise in cytosolic calcium required extracellular calcium and was abolished by calcium channel blockers specific for dihydropyridine (verapamil, nicardipine), nonvoltage-gated (ruthenium red) or all calcium channels (cobalt). Thus FSH action on Sertoli cells involves a specific, rapid, and sustained increase in cytosolic calcium which requires extracellular calcium and involves both dihydropyridine-sensitive, voltage-gated calcium channels and voltage-independent, receptor-gated calcium channels in the plasma membranes of rat Sertoli cells. The replication by cyclic AMP of the effects of FSH suggests that calcium may be a signal-amplification or -modulating mechanism rather than an alternate primary signal transduction system for FSH in Sertoli cells.     

Influence of follicle-stimulating hormone on glucose transport by cultured Sertoli cells

Transport of 3-O-methyl-D-[14C]glucose by Sertoli cells cultured in plastic dishes, is competitively inhibited by glucose (Ki 4 microM). The glucose analogue was therefore used to study glucose transport in these cells in which it is not metabolized. Addition of follicle-stimulating hormone (FSH) (10 micrograms/ml) or dibutyryl cyclic AMP (1 mM) to the cells, increases transport of methylglucose by Sertoli cells. The increased transport results from increased influx and involves decrease in Km without change in Vmax. These changes in the kinetics of transport are seen with both FSH and dibutyryl cyclic AMP. FSH does not stimulate transport of methylglucose in peritubular fibroblasts nor in germ cells. In view of the importance of lactate as a substrate for spermatids (Mita and Hall, 1982) it is proposed that stimulation of the transport of glucose by Sertoli cells in response to FSH is important in the increased production of lactate by these cells in response to FSH and hence is one mechanism by which the tropic hormone enables the Sertoli cell to promote spermatogenesis.     

Expression of the enkephalin precursor gene in rat Sertoli cells. Regulation by follicle-stimulating hormone

Searching for somatic cells expressing the preproenkephalin (A) gene in the testis, we have isolated Sertoli cells from the testes of 20-day-old rats. Cultured Sertoli cells contained a single species (about 1.5 kb) of preproenkephalin mRNA, and follicle-stimulating hormone (FSH) transiently increased the mRNA abundance to a maximum (about 30 molecules per cell) at 12 h. Various compounds that activate the cyclic AMP system in Sertoli cells similarly increased the abundance of preproenkephalin mRNA. Moreover, FSH increased intracellular Met-enkephalin immunoreactive peptides in Sertoli cells. Thus, the preproenkephalin gene expression in Sertoli cells is positively regulated by FSH through the cyclic AMP system.     

Temporal sequence of cell shape changes in cultured rat sertoli cells after experimental elevation of intracellular cAMP

The ability of FSH and pharmacological agents to induce changes in the shape of cultured rat Sertoli cells has been studied by using time-lapse phase-contrast microscopy and scanning electron microscopy (SEM). Morphological studies were combined with an immunocytochemical method for the localization of cAMP in Sertoli cells and the results correlated with determinations of protein-bound cAMP in Sertoli cells. A variable number of Sertoli cells were converted from a flat, epithelial-like morphology into a stellate morphology after exposure to FSH, isobutyl-methylxanthine (MIX), dibutyryl cyclic AMP (db-cAMP) and an FSH-MIX mixture. The morphological changes followed a time- and biological agent-dependent alteration and recovery pattern. While a 120 min exposure to FSH induced shape changes in 38% of the cells, MIX, db-cAMP and FSH-MIX effected shape changes in 75 % of cells. The morphological conversion induced by MIX, db-cAMP and FSH-MIX persisted as long as these biological agents were present in the medium, whereas the effects induced by FSH alone were transient. The flat-to-stellate transition was preceded by an increase in intracellular protein-bound cAMP, a form of cyclic nucleotide which may account for cAMP immunoreactivity observed in morphologically responsive and non-responsive Sertoli cells. From these data and from previous experimental findings of androgen-binding protein (ABP) immunoreactivity in the cytoplasm of responsive and non-responsive Sertoli cells, we conclude that a surge of cAMP triggers a still undefined mechanism by which Sertoli cells modify their shape in coincidence with a progressive depletion of cytoplasmic secretory granules.     

On the mechanism of action of lead in the testis: in vitro suppression of FSH receptors, cyclic AMP and steroidogenesis

Previous evidence has shown that prenatal and neonatal exposure to low levels of Pb result in decreased FSH binding and steroidogenesis in the testes at the onset of puberty. The purpose of the present study was to determine by in vitro methods, if Pb acts by interfering directly with hormone binding, cyclic AMP production and steroidogenic enzyme activity. Sertoli cells were isolated from testes of prepubertal rats and cultured in the presence of 2.64 x 10(-4)M of either NaAc (control) or PbAc for 1, 4, 24, 48, 96 or 144 hr. There was no reduction in FSH binding and in FSH-induced cyclic AMP after a 1-4 hr exposure to Pb. After a 24-hr exposure to Pb, the cells exhibited a 10-20% decrease in FSH binding and cyclic AMP production and after 96 hr there was a 75% decrease in these 2 parameters. The inhibition was greater in cells from 16 day old than from 20 day old rats, so that in the former, after a 144 hr exposure the FSH-induced cyclic AMP of the Pb exposed cells was only 3% of the amount produced by the NaAc exposed cells (i.e. a 97% inhibition). After in vitro exposure to Pb for 48 hr, the steroidogenic activity (progesterone conversion to steroid metabolites) of Sertoli cells was significantly reduced and their steroidogenesis was no longer stimulated by FSH. A crude testicular enzyme preparation containing 3 beta-hydroxysteroid dehydrogenase (3 beta-HSD) exhibited approximately 25% reduction in activity if the assay buffer contained PbCl2 instead of the equivalent in NaCl. Prolonged in vivo exposure to Pb resulted in approximately 50% reduction in 3 beta-HSD activity. This is the first indication that in the testis Pb may act directly (immediate effect) by suppressing enzyme activities, and indirectly (long term effect) by reducing gonadotropin-receptor binding and the resultant cyclic AMP production.     

Changes in responsiveness of rat granulosa cells to prostaglandin E2 and follicle-stimulating hormone during culture

The changes in responsiveness of granulosa cells to either FSH or prostaglandin E2 (PGE2), during culture of the cells, have been examined. In freshly isolated cells, FSH and PGE2 stimulated both cyclic AMP and progesterone production in a dose-dependent manner. In these cells, FSH stimulated cyclic AMP production to a greater extent than did PGE2. After the cells had been cultured for 2 days, neither FSH nor PGE2 stimulated progesterone production to any detectable extent. In these cells the ability of FSH to stimulate cyclic AMP was decreased, and that of PGE2 was increased markedly, such that PGE2 was far more effective than FSH in stimulating cyclic AMP. After culture of the cells for a further 2 days (4 days total), the FSH stimulation of cyclic AMP returned to that seen in freshly isolated cells, whereas the stimulation by PGE2 remained elevated. The acute stimulation of progesterone production could be restored by chronic exposure of the cells to either FSH or PGE2. These results demonstrate that dramatic changes in responsiveness of granulosa cells take place during culture. The results also suggest that some stimulating factor must be present to maintain the steroidogenic capabilities of the cells. Without this, although the cells are able to produce cyclic AMP in response to FSH, they cannot produce progesterone.     

Studies on the mechanism of follicle-stimulating hormone-induced desensitization of Sertoli cell adenylyl cyclase in vitro

When Sertoli cells were cultured in the presence of follicle-stimulating hormone (FSH), a time-and concentration-dependent desensitization of FSH-responsive adenylyl cyclase (AC) was observed. Maximal desensitization (80%) was attained after 6-9 h of incubation with FSH (10 micrograms/ml; NIH-FSH-S12). During 24 h of incubation the concentration of FSH causing a half-maximal desensitization was about 100 ng/ml. Removal of the hormone from the culture medium was associated with a gradual reappearance of the FSH response. Follicle-stimulating hormone-induced desensitization of Sertoli cell AC was specific for homologous hormone, since AC activation by isoproterenol was unaffected. Furthermore, AC activity of control and FSH-desensitized cells was equally activated by GTP and fluoride, showing that the interaction of the guanyl nucleotide regulatory (N) component with the catalytic subunit is not affected during FSH-induced desensitization. A loss in specific FSH binding was detected after 9 and 24 h of exposure to FSH, but not at shorter times of incubation. Desensitization of Sertoli cell AC to both FSH and isoproterenol stimulation could also be achieved by dibutyryl cyclic AMP (dbcAMP); however, a 30-40% desensitization required a high nucleotide concentration (1 mM) and a long incubation time (24 h). These results show that desensitization of Sertoli cell AC by FSH is associated with normal function of the N component, and precedes any significant loss in specific FSH binding sites. Furthermore, exogenous addition of dbcAMP (1 mM) did not cause the same effects on Sertoli cell AC as did FSH.     

Effects of FSH on cyclic nucleotide accumulation in testes of rats of various ages.

The accumulation of cyclic AMP in rat testis in response to FSH is much greater in immature rat compared to adult. Addition of 3-isobutyl-1-methylxanthine (MIX), a potent in vitro inhibitor of cyclic nucleotide phosphodiesterase activity, potentiates the effects of FSH but does not restore the cyclic AMP response of adult rat to that of immature rat testis. The apparent substrate affinities for cyclic AMP and cyclic GMP hydrolysis are similar in immature and mature testis. Developmental changes in cyclic AMP and cyclic GMP phosphodiesterase specific activities fail to account for the reduced responsiveness of adult testis to FSH. These results suggest a defect in synthetic rather than hydrolytic mechanisms in FSH-responsive cells.     

Regulation by FSH and dibutyryl cyclic AMP of the formation of androgen-binding protein in Sertoli cell-enriched cultures.

Sertoli cell-enriched preparations from testes of 20-day-old rats were cultured in a defined medium in the presence and absence of FSH or dibutyryl cyclic AMP (dcAMP). Androgen-binding activity was assayed in the culture medium, and related to testicular androgen-binding protein (ABP). The production and secretion of ABP by the Sertoli cell-enriched preparation was increased after FSH or dcAMP treatment of the primary culture. It is concluded that ABP is produced by Sertoli cells. The possibility of involvement of other cell types in the testis in ABP production is discussed.     

In vitro regulation of pig Sertoli cell growth and function: effects of fibroblast growth factor and somatomedin-C

The effects of insulin, somatomedin-C (Sm-C), epidermal growth factor (EGF), fibroblast growth factor (FGF), vitamin E, and retinoic acid on growth and function of immature cultured pig Sertoli cells were investigated. All these factors, except vitamin E, stimulated Sertoli cell DNA synthesis and proliferation. The mitogenic effects of insulin observed only at micromolar concentrations were similar to those induced by nanomolar concentrations of Sm-C or EGF, but significantly less than those induced by FGF. The effects of EGF and Sm-C were almost additive, whereas those of Sm-C and FGF were synergistic. After a 6-day treatment, FGF and retinoic acid induced a significant increase in the number of follicle-stimulating hormone (FSH) receptors per cell, and in FSH-induced cyclic adenosine 3',5'-monophosphate (cAMP) production. Sm-C, which alone had no effect on these two parameters, potentiated FGF action. Basal plasminogen activator activity was enhanced after the 6-day treatment with EGF plus insulin and, particularly, with FGF plus insulin. Similarly, the response of the latter group to FSH was significantly higher than in any other group of cells. FGF was also able to stimulate cell multiplication and enhanced the FSH receptor number of Sertoli cells isolated from 15- and 26-day-old rats. Thus, FGF is the most potent known mitogenic factor for cultured Sertoli cells, and it stimulates the phenotypic expression of these cells.     

Regulation of C－Fos mRNA Expression in Sertoli Cells by cAMP，Ca~（＋＋），and protein Kinase C－mediated Pathways

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Rat testis 17 beta-estradiol: identification by gas chromatography-mass spectrometry and age related cellular distribution

The aromatization of testosterone into 17 beta-estradiol (E2) was assessed in purified Leydig and Sertoli cells from rats aged 10-80 days. E2 was identified by gas chromatography-mass spectrometry (GC-MS) and measured both by radioimmunoassay (RIA) and GC-MS associated with stable isotope dilution. A potent competitive inhibitor of the aromatase activity, 4-hydroxyandrostenedione (4-OH-A) was used to test the enzymatic specificity. The basal aromatase activity was present in both cell types whatever the age of the animals. The basal E2 levels did not vary in Sertoli cells while a gradual increase was noted in Leydig cells until day 40, followed by a slight decrease in mature rats. In 10-day old animals, the aromatase activity was localized in Sertoli cells and highly stimulated by FSH; on day 20, both Sertoli and Leydig cells synthesized E2 although E2 from Sertoli cell origin was still predominant. Starting on day 20 until adulthood, the aromatase activity was under LH control in Leydig cells with a maximum around 40 days. The FSH and LH effects were mediated by cyclic AMP.     

Study of the superactivity of equine follicle-stimulating hormone in in vitro stimulation of rat Sertoli cells

We have previously shown that equine follicle-stimulating hormone (FSH) stimulates plasminogen activator secretion in Sertoli cells at much lower concentrations than would be expected from its relative binding activity. We have introduced the term 'superactivity' to designate this particular behavior. In the present study, we show that equine FSH triggers a long-lasting (20 h) plasminogen activator secretion, whereas rat, porcine and ovine FSH as well as equine LH and equine choriogonadotropin (CG) provoke a short-term response (2.5 h). Moreover, equine FSH was also shown to be superactive in the stimulation of estradiol secretion and cyclic AMP production. This indicates that the step responsible for the long-term stimulation by equine FSH is not located beyond cAMP accumulation. Equine and porcine FSH were found to be equally stable during incubation with the cells demonstrating that equine FSH superactivity was not due to higher stability. Besides, phosphodiesterase inhibition led to a similar increase in the responses to both hormones. This rules out the possibility that equine FSH superactivity is due to less stimulation of phosphodiesterase activity. All these data strongly suggest that equine FSH exhibits superactivity in rat Sertoli cells by stimulating adenylate cyclase activity for a much longer period of time than do all other gonadotropins. The molecular mechanism of this outstanding behavior remains to be elucidated.     

Levels of binding proteins for retinoids in cultured Sertoli cells: effect of medium composition

The levels of cellular retinol-binding protein (CRBP) and cellular retinoic acid-binding protein (CRABP) have been measured in Sertoli cells maintained under different cultural conditions. Sertoli cells were isolated from prepubertal rats and cultured in a chemically defined medium without or with follicle-stimulating hormone (FSH), insulin, retinol or testosterone added individually or in combinations. The additions were made at the beginning of the culture or 24 h before the cells were subjected to determinations of CRBP and CRABP by radioimmunoassay. No differences were observed either after 1 or 4 days of treatment. The results obtained indicated that the levels of the two retinoid-binding proteins were unchanged in Sertoli cells in response to hormone and/or retinol administration. To rule out the possibility that the Sertoli cells used in our study were unresponsive to the hormones, lactate production by the cells cultured in the presence of FSH or insulin was measured. The amount of lactate produced under hormonal stimulation was significantly higher than the amount produced in absence of the hormones, thus indicating the ability of our Sertoli cells to respond to the hormonal stimulation.