EC:3.1.4.1 - FACTA Search

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Query: EC:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Phosphodiesterase activity was studied in cultures derived from 19-day-old rats and enriched with Sertoli cells. Pretreatment of such cultures with follicle-stimulating hormone or L-isoproterenol increased cAMP-phosphodiesterase activity 5.2 and 2.0 times, respectively. cGMP-phosphodiesterase activity was not affected. Similar effects were observed in freshly isolated cells. The stimulatory effect was enhanced by the phosphodiesterase inhibitor 3-isobutyl-1-methylxanthine and was mimicked by cholera toxin and dbcAMP. Increased activity was observed after a latent period of 1 h. Stimulation was blocked by cycloheximide and actinomycin D. The enzyme had an apparent Km for cAMP of 1.4 micro M. Its activity was enhanced by Mg2+ but not by Ca2+. It is concluded that phosphodiesterases play an important role in the hormonal control of Sertoli-cell function and may contribute to the refractory state of these cells after stimulation with various agonists.
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PMID:Hormonal control of phosphodiesterase activity in cultured rat Sertoli cells. 627 46

We confirm that basal rates of formation of plasminogen activator by cells in cultured tubule segments at stages of the cycle associated with spermiation (stages VII and VIII) are higher than those by cells in tubule segments at any other stages of the cycle of the seminiferous epithelium. We demonstrate that addition of cAMP derivatives or follicle-stimulating hormone in the presence of a phosphodiesterase inhibitor results in a large stimulation of plasminogen activator formation by tubule segments at all stages of the cycle. The greatest percentage increase (approximately 100-fold) is observed in cells in tubule segments having lowest basal rates of plasminogen activator formation (stages IX-VI). Even under stimulated conditions, however, the amounts of plasminogen activator produced by cultured tubule segments at stages VII and VIII remain greater than those produced by cultured tubule segments at other stages of the cycle, and these differences persist during organ culture for 48 h. Insulin and testosterone do not alter rates of formation of plasminogen activator. We conclude that Sertoli cells, the primary source of formation of plasminogen activator in the testis, are metabolically heterogeneous in the seminiferous tubule and that the germ cell association patterns in various stages of the cycle modulate Sertoli cell functions. We discuss the data in relation to the tissue restructuring within the seminiferous tubule which occurs during spermatogenesis and the possible role of plasminogen activator in these processes.
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PMID:Hormonal influences on formation of plasminogen activator by cultured testis tubule segments at defined stages of the cycle of the seminiferous epithelium. 631 51

The activity of a plasma membrane cAMP-phosphodiesterase in cultured ovarian granulosa cells was regulated by follicle-stimulating hormone (FSH) and the gonadotropin-releasing hormone (GnRH) agonist [D-Ala6]des-Gly10-GnRH N-ethylamide (GnRHa). Degradation of cAMP was similar in cultures treated with FSH alone or FSH plus GnRHa when the labeled cyclic nucleotide was added from 24 to 42 h of culture. However, at 48 h and subsequent times of incubation, cAMP phosphodiesterase activity was significantly higher in cells incubated with FSH plus GnRHa. Phosphodiesterase activity was progressively increased by GnRHa concentrations between 10(-13) and 10(-10) M, and was maximally stimulated by 10(-9) M GnRHa. In comparison with control cells, FSH lowered the Vmax of cAMP catabolism by the high (1 microM cAMP substrate) and the low (50 microM) affinity phosphodiesterase, while GnRHa raised enzyme activity toward control levels. These actions of FSH and GnRHa were specific for a plasma membrane phosphodiesterase that was accessible to extracellular cAMP, since extracellular substrate was hydrolyzed, no intracellular uptake of [3H]cAMP was observed, and only a small fraction (10%) of cAMP was catabolized in the incubation medium in the absence of cells. Further, the actions of FSH and GnRHa on the membrane enzyme were the opposite of those observed when total phosphodiesterase activity was measured in cellular sonicates. Hormonal changes in phosphodiesterase activity were not due to leakage of the enzyme from damaged cells since a constant percentage of cAMP hydrolysis in the medium was observed during culture. Analysis of cAMP catabolites in granulosa cells indicated that the phosphodiesterase reaction product, 5'-AMP, was rapidly converted to adenosine by a plasma membrane 5'-nucleotidase, independent of the cellular hormonal status. These results indicate that the opposing actions of FSH and GnRHa upon granulosa cell differentiation include modulation of cAMP degradation at the plasma membrane level.
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PMID:Hormonal regulation of a plasma membrane phosphodiesterase in differentiating granulosa cells. Reciprocal actions of follicle-stimulating hormone and a gonadotropin-releasing hormone agonist on cAMP degradation. 631 58

Although luteinizing hormone (LH) is known to down-regulate its own receptor in several gonadal cell types, the mechanisms underlying this process are poorly understood. To elucidate these mechanisms we have examined the role of cAMP and progesterone in LH-stimulated down-regulation of the LH receptor, using cultured granulosa cells as a model. LH receptors were induced by culturing the cells with follicle-stimulating hormone for 2 days, and once induced, could be down-regulated by a brief exposure to LH. Down-regulation also occurred when cells were cultured with activators of adenylate cyclase, inhibitors of phosphodiesterase, or analogues of cAMP. Cholera toxin and N6,O2'-dibutyryladenosine 3':5'-cyclic monophosphate, like LH, decreased the number of LH receptors, without affecting affinity for 125I-human chorionic gonadotropin (hCG). The extent of receptor loss after treatment with LH plus cholera toxin was no greater than that caused by LH alone. LH, hCG, and deglycosylated hCG, which binds to the LH receptor but has little bioactivity, caused down-regulation, and their relative capacity to cause down-regulation was highly correlated with their relative capacity to stimulate cAMP production. Indirect evidence suggested that maximal down-regulation requires activation of adenylate cyclase for at least 3 h. Consistent with this idea, a 3-h exposure to dibutyryl cAMP caused near-maximal down-regulation. Progesterone secretion was enhanced by all agents that caused down-regulation of the LH receptor; however, there was little correlation between progesterone secretion and down-regulation. Furthermore, maximal down-regulation occurred when progesterone secretion was inhibited greater than 99% with cyanoketone. These data indicate that cAMP, but not progesterone, plays a central role in LH receptor down-regulation in the granulosa cell and that elevation of intracellular cAMP levels for 3 h is both necessary and sufficient to trigger maximal down-regulation.
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PMID:A central role for cyclic AMP, but not progesterone, in luteinizing hormone receptor down-regulation in the granulosa cell. 631 88

Differentiation and luteinization of granulosa cells are induced by gonadotrophic hormones and other substances elevating intracellular levels of cyclic AMP (cAMP). We have investigated the correlation between the potency of these substances to enhance steroidogenesis and to induce apoptosis in primary granulosa cell cultures obtained from rat preovulatory follicles. The cAMP analog, 8-Br cAMP, induced apoptosis in more than 90% of the cell population within 15 h of incubation at 37 degrees C in serum-free medium. The physiological stimulants of these cells, follicle-stimulating hormone (FSH) and luteinizing hormone (LH), which caused a moderate cAMP response in these cells, followed by a desensitization period, increased progesterone production by fourfold with no apparent effect on cell death. In contrast, forskolin, a potent activator of adenylate cyclase, stimulated both the cAMP and steroidogenic response by an order of magnitude greater than the gonadotropin stimulation, concomitantly with a pronounced increase in cell death (25%). Moreover, blocking of the cellular phosphodiesterase activity in forskolin-stimulated cells by isobutylmethylxanthine (IBMX), which maintains high levels of intracellular cAMP, led to further enhancement of cell death following 40 h of incubation (50%). Basic fibroblast growth factor (bFGF) and gonadotropin-releasing hormone (GnRH), which stimulated steroidogenesis in these cells in a cAMP-independent manner, did not promote cell death. Moreover, costimulation of the cells with forskolin and bFGF led to a substantial decrease in the incidence of apoptosis relative to forskolin alone. In order to examine whether the expression of tumor suppressor genes is involved in granulosa cell differentiation and apoptosis induced by cAMP, we examined the effect of cAMP in SV40 transformed granulosa cells, in which T-antigen expression is expected to block the activity of p53 as well as of the retinoblastoma gene product (pRB) and its related proteins. Cultures of three different cell lines established by SV40 transformation demonstrated resistance to 8-Br-cAMP- or forskolin plus IBMX-induced apoptosis, in contrast to the severe apoptotic response in primary cells. We suggest that stimulation of primary granulosa cells by high levels of cAMP catalyzes programmed cell death, while stimulation of the cells by gonadotropic hormones, which result in a moderate cAMP response, followed by desensitization to further stimulation, can prolong the lifespan of the luteinized granulosa cells. Moreover, one or more tumor suppressor proteins may mediate the cAMP generated signal leading to cell death.
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PMID:cAMP-mediated signals as determinants for apoptosis in primary granulosa cells. 753 93

The present study examines the effects of 12-O-tetradecanoylphorbol-13-acetate (TPA) on agonist-regulated 3',5'-cyclic adenosine monophosphate (cAMP) formation and cAMP-mediated effects in cultured Sertoli cells from immature rats. Concentration-dependent stimulation of cAMP levels by follicle-stimulating hormone (FSH) was inhibited dramatically by the coaddition of 100 nmol/l TPA, which exerted a similar inhibition of glucagon- and isoproterenol-stimulated cAMP production. These results show that protein kinase C (PKC) activation by TPA attenuates Gs-protein-mediated agonist activation of cAMP production. (-)-N6(R)-Phenylisopropyladenosine (L-PIA), an A1-adenosine receptor agonist, inhibited cAMP stimulation by FSH in a concentration-dependent manner. When L-PIA was added in increasing concentrations simultaneously with 100 nmol/l TPA, the L-PIA still inhibited FSH-stimulated cAMP production in a concentration-dependent manner. In the presence of TPA, the half-inhibitory concentration (IC50) for L-PIA inhibition of cAMP formation was reduced by more than one order of magnitude, indicating that PKC activation by TPA increases the sensitivity of Sertoli cells to Gi-protein-mediated agonist inhibition of cAMP production. The inhibitory effects of TPA on FSH-stimulated cAMP production were still observed when cAMP phosphodiesterase activity was inhibited by 1 mmol/l methylisobutylxanthine or when the activity of G alpha i-protein was eliminated by pretreatment with 100 micrograms/l pertussis toxin. Taken together, the results indicate that PKC activation inhibits agonist-dependent stimulation of cAMP production by phosphorylation of components common to all the activating agonists used, and not via stimulation of G(i)-protein activity or degradation of cAMP by cAMP phosphodiesterase activity.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Protein kinase C activation and positive and negative agonist regulation of 3',5'-cyclic adenosine monophosphate levels in cultured rat Sertoli cells. 768 9

The products of two phosphodiesterase (PDE) genes (ratPDE3/IVd and ratPDE4/IVb) are present in the rat Sertoli cell in culture, and their expression is under the control of the gonadotropin follicle-stimulating hormone (Swinnen, J.V., Tsikalas, K.E., and Conti, M. (1991) J. Biol. Chem. 266, 18370-18377). To understand the basis of the sequence heterogeneity found in the 5'-region of the different cDNAs thus far characterized, the structure of the coding region of these two cAMP PDE genes was investigated. Analysis of five ratPDE3/IVd and ratPDE4/IVb genomic clones showed that the coding region of these genes expressed in the Sertoli cell is divided into 11 exons distributed over 35-45 kilobases of genomic DNA. The intron/exon boundaries agreed, with some exceptions, with the established consensus sequences and were located in the same position in the coding region of the two genes. Also present were similarities to the exon composition of the Drosophila melanogaster "dunce" gene, the ancestor of these mammalian cAMP PDEs. Multiple AUG codons and short open reading frames were present at the 5'-untranslated end of the ratPDE4/IVb mRNA, but not in the ratPDE3 mRNA. By using polymerase chain reaction amplification or Northern analysis, it was determined that at least two forms of ratPDE3/IVd mRNA are present in rat Sertoli and FRTL-5 thyroid cells, but not in the brain. These mRNA variants are generated by inclusion or removal of an intron sequence that produces a frameshift affecting the position of the initiation AUG codon. Both mRNA species were efficiently translated into cAMP PDE proteins with different molecular masses in a transient transfection assay in COS cells. Polymerase chain reaction amplification demonstrated that heterogeneity of ratPDE4/IVb mRNAs was present in the same location as in the ratPDE3/IVd mRNA. Two ratPDE4/IVb mRNAs with different 5'-ends were expressed in Sertoli and FRTL-5 cells and in the brain. This heterogeneity is caused by the presence of an intron promoter that controls the transcription of this mRNA in Sertoli and FRTL-5 cells, but not in the brain. Upstream exons and additional promoters are probably present and necessary to generate the brain-specific mRNAs. These findings demonstrate that the cAMP-specific PDE genes have complex structure and that cAMP PDE proteins with different amino termini are derived from these genes.
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PMID:Structure of two rat genes coding for closely related rolipram-sensitive cAMP phosphodiesterases. Multiple mRNA variants originate from alternative splicing and multiple start sites. 827 18

Initial biosynthetic radiolabelling experiments with cultured granulosa cells revealed the presence of an oligosaccharide-phosphatidylinositol (glycosyl-phosphatidylinositol; (Ose)nPtdIns) structurally related to (Ose)nPtdIns-lipids isolated from other cell types. Prolactin (PRL) stimulated [3H]glucosamine-(Ose)nPtdIns turnover and the rapid generation of [3H]myristoyl-diacylglycerol in cultured follicle-stimulating hormone-(FSH)-primed granulosa cells endowed with PRL receptors. In parallel experiments performed with [3H]myo-inositol-labelled granulosa cells, treatment with PRL stimulated (Ose)nPtdIns hydrolysis in a similar manner, whereas no effect on phosphoinositide (PtdIns, PtdInsP and PtdInsP2) turnover could be observed. These results strongly suggest that the cleavage of (Ose)nPtdIns by phosphodiesterase followed by the subsequent generation of diacylglycerol and a soluble phosphoinositol-oligosaccharide (inositol-phosphoglycan; (Ose)nInsP) moiety could be part of the signal-transduction mechanism linking PRL receptors to their biological effects in granulosa cells. To test this hypothesis, we examined the effect of PRL and purified (Ose)nInsP moiety (from rat liver membranes) on granulosa cell 3 beta-hydroxysteroid dehydrogenase/delta 5-4 isomerase (3 beta-HSD) enzyme activity. Results presented show that, in FSH-primed granulosa cells, PRL (40 nM) and (Ose)nInsP (5 microM) prevented gonadotropin-stimulated 3 beta-HSD activity. Furthermore, in undifferentiated granulosa cells where PRL receptors are absent, no effect of the hormone on 3 beta-HSD activity could be observed, whereas (Ose)nInsP (1-10 microM) inhibited enzyme activity in a dose-dependent manner.
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PMID:Does oligosaccharide-phosphatidylinositol (glycosyl-phosphatidylinositol) hydrolysis mediate prolactin signal transduction in granulosa cells? 840 93

Earlier studies in immature porcine granulosa cells cultured in serum-free medium showed dual actions of the protein kinase C activator 12-O-tetradecanoylphorbol-13-acetate (TPA). In cells incubated for 24 h, TPA inhibited follicle-stimulating hormone (FSH)-stimulated cytochrome P450 cholesterol side-chain cleavage (P450scc) mRNA accumulation. In contrast, at 4 h, TPA increased P450scc mRNA concentration in the absence and presence of FSH or 8-bromo-cAMP; in addition, TPA augmented FSH-stimulated cAMP accumulation. The actions of TPA were then examined in the presence of the phosphodiesterase (PDE) inhibitor, 3-isobutyl-1-methylxanthine (IBMX). With IBMX present, TPA caused a smaller relative augmentation of cAMP accumulation during a 4-h incubation period, suggesting that TPA may both increase cAMP synthesis and inhibit its degradation. The stimulatory effect of FSH or 8-bromo-cAMP on P450scc mRNA concentration was not modified by IBMX. However, TPA no longer augmented the FSH- or 8-bromo-cAMP-stimulated P450scc mRNA accumulation when IBMX was present. In cells treated with FSH for 24 h, IBMX augmented progesterone production, but paradoxically accentuated the inhibitory effect of TPA on steroidogenesis. These results indicate that IBMX converts TPA from a stimulatory into an inhibitory agent by an action unrelated to cAMP, and points to the need for caution in interpreting experiments with this drug.
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PMID:Paradoxical effect of 3-isobutyl-1-methylxanthine on cytochrome P450 cholesterol side-chain cleavage mRNA accumulation in porcine granulosa cells. 873 81

Follicular Xenopus oocytes possess a novel receptor where both adenosine and ATP activate a cAMP-dependent, nonrectifying K+-current. Five compounds, alpha,beta-methylene ATP (alpha, beta-meATP), 8-(p-sulfophenyl)theophylline (8-SPT), theophylline, 2, 2'-pyridylisatogen tosylate (PIT) and suramin, were tested as antagonists of adenosine- and ATP-activated K+-currents. The descending order of activity (pIC50 values) against adenosine responses was: alpha,beta-meATP (6.72) = 8-SPT (6.68) > theophylline (5.32) > PIT (4.58), whereas suramin was relatively inactive. The blocking actions of alpha,beta-meATP and alkylxanthine compounds were reversible with washout, whereas blockade by PIT was irreversible. These antagonists showed similar blocking activity against ATP responses, except for PIT which was more effective at ATP responses than at adenosine responses. The selectivity of antagonists was tested against cAMP-dependent K+-currents evoked by forskolin and follicle-stimulating hormone (FSH). 8-SPT and theophylline did not inhibit but instead augmented forskolin and FSH responses; this augmentation may be caused by inhibition of phosphodiesterase activity inside follicle cells. On the other hand, alpha,beta-MeATP and PIT inhibited forskolin and FSH responses; both compounds apparently are nonselective antagonists. Thus, only alkylxanthine derivatives (8-SPT and theophylline) were selective antagonists of the novel adenosine/ATP receptor in Xenopus oocytes, whereas alpha,beta-meATP and PIT were nonselective in their blocking actions and suramin was relatively inactive.
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PMID:Antagonism of an adenosine/ATP receptor in follicular Xenopus oocytes. 961 1

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