EC:2.7.11.13 - FACTA Search

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Query: EC:2.7.11.13 (protein kinase C)
49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The testis is a complex organ in which local control is achieved by signalling between its constituent cells. Herein we describe the responses of cultured rat testicular cells and a mouse Sertoli cell-line to stimulation by endothelin and ATP, and elsewhere we have shown that rat peritubular myoid cells possess phosphoinositidase C-coupled V1a-vasopressin receptors identical to those of liver (Howl, J. et al, 1995, Endocrinology 136: 2206-2213). 1. Peritubular myoid cells from pre-pubertal rats responded through ETA receptors with PtdIns(4,5)P2 hydrolysis [EC50 for endothelin-1 (ET-1) approximately 0.4 nM], elevation of intracellular [Ca2+], and tyrosine phosphorylation of a variety of cellular proteins. They also showed enhanced adenylate cyclase activity, with an EC50 for ET-1 of approximately 3 nM, also through ETA receptors. Pharmacological elevation of [cAMP] did not immediately change the ET-1-stimulated formation of inositol phosphates, but attenuated the response after several hours. 2. Pre-pubertal rat Sertoli cells showed no detectable responses to ET-1, but responded to FSH with elevated [cAMP] and to ATP with PtdIns(4,5)P2 hydrolysis. PtdIns(4,5)P2 hydrolysis was equally responsive to ATP and UTP, and so appears to be activated by P2U-purinergic receptors. This response was enhanced by protein kinase C inhibition and attenuated by PKC activation. 3. Despite its lack of effect on rat Sertoli cells in primary culture, ET-1 provoked PtdIns(4,5)P2 hydrolysis in the TM4 murine Sertoli cell line (EC50 approximately 0.6 nM), and this response was negatively regulated by protein kinase C activation. 5. No receptor-stimulated activation of phosphoinositase C was detected in 'germ cell' populations, but the non-specific G protein activator A1F4-provoked inositol phosphate accumulation in these cells, so demonstrating their potential to respond through yet to be identified G protein-coupled receptors with phosphoinositidase C activation. 6. Immunoblotting studies showed the presence in rat testis of phosphoinositidase C-beta 1 and the alpha-subunits(s) of the G-protein(s) Gq and/or G11. These studies show that testicular myoid and Sertoli cells use at least three G protein-coupled receptors (V1a-vasopressins, ETA-endothelin and P2U-purinergic) to signal through phosphoinositidase C activation, that ET-1 can activate multiple signalling pathways in myoid cells, and that the ET-1-stimulated phosphoinositidase C responses of myoid and Sertoli cells have different regulatory characteristics.
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PMID:Inositol lipid-mediated signalling in response to endothelin and ATP in the mammalian testis. 856 25

The role of second messenger pathways, cyclic AMP, calcium, and protein kinase C (PKC) in the transcriptional regulation of c-fos protooncogene expression in rat Sertoli cells was investigated. c-fos expression was monitored by Northern blot analysis. Although the action of FSH on Sertoli cells is considered to be mediated by cAMP, dibutyryl cAMP (dbcAMP), a potent membrane permeable analog of cAMP, induced much less c-fos mRNA expression than FSH ( < 50%) suggesting that additional cAMP-independent mechanisms may mediate the effect of FSH on c-fos. Specific intracellular inhibitors of PKC decreased c-fos induction in response to FSH by more than 50%. Ionomycin, which increases intracellular free calcium concentration, induced c-fos expression significantly. These data demonstrate that Sertoli cell c-fos mRNA expression is under multifactorial regulation by cAMP, calcium, and PKC.
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PMID:Regulation of c-fos mRNA expression in Sertoli cells by cyclic AMP, calcium, and protein kinase C mediated pathways. 870 75

1. The decapeptide neurohormone gonadotropin releasing hormone (GnRH) is the first key hormone of the reproductive system. Produced in the hypothalamus, GnRH is released in a pulsatile manner into the hypophysial portal system to reach the anterior pituitary and stimulates the release and synthesis of the gonadotropin hormones LH and FSH. GnRH, a Ca2+ mobilizing ligand, binds to its respective binding protein, which is a member of the seven transmembrane domain receptor family and activates a G-protein (Gq). 2. The alpha subunit of Gq triggers enhanced phosphoinositide turnover and the elevation of multiple second messengers required for gonadotropin release and biosynthesis. 3. The messenger molecules IP3, diacylglycerol, Ca2+, protein kinase C, arachidonic acid and leukotriene C4 cross-talk in a complex networks of signaling, culminating in gonadotropin release and gene expression.
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PMID:Signal transduction of the gonadotropin releasing hormone (GnRH) receptor: cross-talk of calcium, protein kinase C (PKC), and arachidonic acid. 871 39

Primary cultures of gonadal cells from chicken embryos were used to explore the paracrine role of inhibin and activin during gonadal development. Fetal testicular and ovarian cells secreted high amounts of immunoactive inhibin. FSH caused a dose-related increase of cAMP and immunoactive inhibin concentrations in testicular cell cultures. Postreceptor signalling through the protein kinase A (PKA) pathway was confirmed by additional experiments with 8-bromo-cAMP, 3-isobutyl-1-methyl-xanthine (MIX), prostaglandins, forskolin, and choleratoxin. The relative ability of these agonists to stimulate cAMP production did not always correlate with their ability to stimulate inhibin secretion. Experiments with phorbol 12-myristate 13-acetate suggested that the regulation of immunoactive inhibin secretion also involves the protein kinase C (PKC) pathway. In addition, it was shown that recombinant human (rh)-inhibin increases the conversion of pregnenolone to androgens whereas rh-activin has the opposite effect. Recombinant human follistatin, an activin-binding protein, antagonized the actions of rh-activin and to a lesser extent those of rh-inhibin. In conclusion, these results show that during the development of the chicken embryo, gonadal inhibin secretion may be regulated by hormones and by local factors such as prostaglandins. Cross talk between the PKA and PKC pathways may be involved in this regulation. Recombinant human inhibin and rh-activin may have antagonistic roles in the paracrine control of gonadal steroidogenesis.
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PMID:Inhibin and activin have antagonistic paracrine effects on gonadal steroidogenesis during the development of the chicken embryo. 872 49

Immunoreactive activin A (ir-activin A) release from cultured rat anterior pituitary cells was examined by measuring ir-activin A in culture medium by a specific radioimmunoassay. Ir-activin A release into the medium increased over 1-18 days, and reached a maximal level at 12-15 days. The basal levels of ir-activin A in the culture media were 0.70 +/- 0.10 (mean +/- SD), 1.30 +/- 0.36 and 1.83 +/- 0.44 ng/10(6) cells, when cultured for 6 days with 0, 2 and 10% fetal calf serum, respectively. LHRH induced an approximate 1.4-fold increase in ir-activin A release in contrast to a 40-60% inhibition with FSH, but LH did not affect the activin A release. In the presence of 12-o-tetradecanoylphorbol acetate (TPA), iractivin A release was enhanced, but no significant effect was induced by forskolin. Activin A was distinctly immunostained in cultured rat anterior pituitary cells. These results suggested that activin A release from the pituitary is modified by FSH and LHRH, and that the activation of protein kinase C may be involved in the action of LHRH.
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PMID:Regulation of immunoreactive activin A secretion from cultured rat anterior pituitary cells. 873 50

Sertoli cells in the testis and granulosa cells in the ovary convert androgen to estrogen under the primary control of FSH. Insulin-like growth factor I (IGF-I) markedly augments FSH-stimulated estrogen production in the rat granulosa cell. In this study we examined the regulation of aromatase by FSH and characterized the effects of IGF-I on FSH-induced estrogen production by Sertoli cells cultured from the testes of 16-day-old rats. FSH stimulated aromatization of androstenedione in Sertoli cell culture and achieved maximal effectiveness by 12 h of treatment. Analysis of aromatase mRNA by reverse transcription-polymerase chain reaction indicated a marked induction by FSH within 3 h of treatment that was dependent on FSH concentration. IGF-I inhibited FSH-stimulated aromatization dose-dependently; inhibition was approximately 50% by 6 h of cotreatment (p < 0.01). IGF-I was ineffective if added more than 3 h after addition of FSH. Aromatase mRNA was reduced by IGF-I (37 +/- 12%, p < 0.01), coincident with the decrease in estrogen production. To further address the mechanism of IGF-I inhibition, potential interactions with the cAMP and protein kinase C (PKC) signaling pathways were examined. IGF-I inhibited aromatase activity induced by dibutyryl cAMP and inhibited FSH-stimulated estrogen production in the presence of 3-isobutyl-1-methylxanthine, suggesting that IGF-I action was independent of cAMP production. Phorbol-12-myristate-13-acetate (PMA) and IGF-I were additive in their inhibition of FSH. However, down-regulation of PKC prevented PMA inhibition of FSH but not inhibition by IGF-I. We conclude that IGF-I specifically inhibits FSH-induced aromatization in the Sertoli cell in marked contrast to the effects of IGF-I on rat granulosa cells. Although IGF-I and PMA both inhibit aromatase induction, the independence of the IGF-I effect from PKC down-regulation suggests that the initial action of IGF-I is independent of PKC. As IGF-I treatment similarly alters FSH stimulation of both estrogen production and aromatase mRNA, it is likely that the effect of IGF-I on estrogen production in the Sertoli cell is a result, at least in part, of a decrease in aromatase mRNA.
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PMID:Insulin-like growth factor I inhibits aromatization induced by follice-stimulating hormone in rat sertoli cell culture. 878 98

Prolonged stimulation of gonadotropin receptors in granulosa cells leads to desensitization of the cellular response to gonadotropic hormones which is evident by decrease in cAMP formation. In order to explore the mechanism of desensitization and to examine whether protein phosphorylation may play a role in this phenomenon, we have studied the effect of various stimulators and inhibitors of protein phosphorylation on FSH-induced cAMP formation in the FSH-responsive cell line, GFSHR-17, recently established in our laboratory. Both ovine and human FSH activated the hormone sensitive adenylate cyclase in a dose-dependent manner with an ED50 of 0.5 nM. This stimulation was followed by a sharp decrease in cAMP formation after 30 min incubation of the cell with the hormone. When cells were preincubated for 60 min with staurosporine, cAMP accumulation during 20 min of FSH stimulation was elevated about 500%, compared to cells stimulated by FSH alone. Staurosporine alone showed a negligible effect on cAMP accumulation in these cells. In cells stimulated with forskolin, a non-specific activator of adenylate cyclase, or with cholera toxin (CT), an inhibitor of GTPase activity associated with Gs of adenylate cyclase, preincubation with staurosporine increased cAMP formation in these cells by only 50-70 or 80-120%, respectively. Preincubation of cells with the protein kinase C (PKC) inhibitors chelerythrine and GF109203X increased FSH-stimulated accumulation of cAMP by 50 and 30%, respectively. These drugs exhibit a similar effect on forskolin-stimulated cells. Preincubation of cells for 60 min with a PKC stimulator, TPA, suppressed FSH-mediated cAMP response in these cells by 40%. Tyrosine kinase inhibitors such as AG18, AG33 and genistein exhibit a modest inhibitory effect of up to 20% on FSH-stimulated cAMP accumulation. All the above results were obtained both in the presence and absence of IBMX, a potent inhibitor of the cellular phosphodiesterases. Upon prolonged incubation with FSH (3 h) cells pretreated with staurosporine exhibited a much slower rate of decline in intracellular cAMP levels. Moreover, in desensitized cells, following 1 or 2 h of continuous stimulation with FSH, staurosporine could markedly enhance cAMP formation in the presence of FSH. Our data suggest that staurosporine-sensitive phosphorylation of serine or threonine in the FSH receptor-cyclase system may be responsible for desensitization of the FSH coupled activation of cAMP formation, while reactivation of the system can be achieved by protein dephosphorylation at these specific sites. Because specific inhibition of PKC could not mimic the staurosporine effect on FSH-stimulated cAMP formation, nor could activation of kinase C antagonize it, it is suggested that a specific staurosporine-sensitive receptor kinase may be responsible for modulation of the coupling between the gonadotropin receptor and the adenylate cyclase system.
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PMID:Activation of FSH-responsive adenylate cyclase by staurosporine: role for protein phosphorylation in gonadotropin receptor desensitization. 882 63

We have studied the changes in membrane potential induced by LH in cumulus and granulosa cells isolated from sheep antral follicles. The investigation was carried out by using a non-invasive technique based on the use of a membrane potential sensitive probe, bis-oxonol. The membrane potential of mural granulosa cells was totally unaffected by LH, while that of cumulus or corona cells showed a marked depolarisation, starting 2-3 min after the addition of the hormone and plateauing after 5-10 min. None of the cells tested reacted to FSH. In the second part of the experiment the role of protein kinase A (PKA) and protein kinase C (PKC) in mediating the effect of LH was studied. The selective activation of PKA or PKC induced in cumulus-corona cells a rapid hyperpolarisation due to increased Cl and K conductance respectively. By contrast, the simultaneous activation of the two kinases induced a rapid membrane depolarisation due to the progressive decrease in K conductance. The activation of each kinase or their combined stimulation did not induce any change in the membrane potential of mural granulosa cells. These data demonstrated that LH has a depolarising effect regionally circumscribed to cumulus-corona cells and that this depolarisation depends on a reduction of K conductance caused by the activation of PKA and PKC.
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PMID:Activation of protein kinase A and protein kinase C mediates the depolarising effect of LH in ovine cumulus-corona cells. 888 63

Follistatin (FS) is the specific binding protein of activin; it has a broad tissue distribution and is also found in serum. The ovary has the highest level of FS expression, but ovariectomy does not cause a permanent reduction in the serum FS level. Therefore, the source of FS in serum is still elusive. As a regulatable, nongonadal source of serum FS could influence ovarian and pituitary-derived hormone secretion and thus reproductive function, we searched for a source of extragonadal FS expression that might contribute to the FS protein level in serum. We found that endothelial cells from blood vessels express FS messenger RNA (mRNA) and protein; therefore, we studied the regulation of steady state levels of FS mRNA in porcine endothelial cells from aorta (AEC) and brain microvessels (BMVEC) in tissue culture. For detection of FS mRNA, a specific 32P-radiolabeled antisense probe and a S1-nuclease protection assay were used. FS steady state levels of AEC decreased with time in culture, i.e. postconfluent AEC had lower FS mRNA levels than confluent cultures, which, in turn, had lower FS mRNA levels than subconfluent cell cultures. FS mRNA levels in AEC were induced by increasing concentrations of FCS and stimulated by 30 micrograms/ml endothelial cell growth supplement. FS mRNA levels in AEC and BMVEC increased approximately 20-fold within 4 h during incubation of the cells with 100 nM phorbol 12-myristate, 13-acetate, whereas 0.5 nmol/ml forskolin tested in AEC for between 4-48 h had no significant effect. Furthermore, 0.1 microM ocadaic acid, an inhibitor of serine/threonine phosphatases 1 and 2A, caused a significant increase in FS mRNA levels. FS mRNA levels in AEC were not significantly affected by various concentrations of porcine FSH, epidermal growth factor, or retinoic acid for between 4-48 h. Treatment of the cells with 0.01-10 micrograms/ml bacterial lipopolysaccharides (LPS) caused a dose-dependent increase (up to 10-fold) in FS mRNA steady state level in AEC, whereas 1-1000 nM RU 28362, a synthetic glucocorticoid, inhibited FS mRNA steady state levels in a dose-dependent manner. The induction of FS mRNA with 1 microgram/ml LPS was completely blocked by 100 nM RU 28362, and the stimulatory effects of LPS were only visible after 4 h of treatment, not after 24 or 48 h. The same effects were observed with BMVEC. We, furthermore, analyzed FS protein secretion of AEC by Western blotting and demonstrated that FS proteins were secreted into the culture medium upon stimulation with LPS. None of these treatments had an obvious effect on the ratio of the two different forms of FS mRNA (FS 344:FS 317). Besides the expression of FS mRNA in AEC and BMVEC, FS mRNA is also expressed in uncultured plexus choroideus epithel and meninges, and FS protein is found in human cerebrospinal fluid. From this study it is concluded that 1) endothelial cells from different tissues produce FS mRNA; 2) the FS mRNA levels of AEC and BMVEC are subjected to regulation by FCS, endothelial cell growth supplement, bacterial LPS, and the glucocorticoid RU 28362; 3) phosphatases and the protein kinase C-dependent, but not the protein kinase A-dependent, pathway are involved in regulating the steady state levels of FS mRNA in AEC and BMVEC; and 4) endothelial cells produce and secrete FS protein and are thus a likely source of FS in serum.
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PMID:Production of follistatin in porcine endothelial cells: differential regulation by bacterial compounds and the synthetic glucocorticoid RU 28362. 889 65

To address a possible role of type 1 and 2A serine/threonine protein phosphatases (PP1 and PP2A) in regulating granulosa cell hormonal responses, we investigated the effects of okadaic acid (OA) on FSH- and cAMP-induced steroidogenesis in these cells. When added alone (0.01-1 nmol/l), the cell-permeant phosphatase inhibitor did not affect progesterone and 3 beta-hydroxysteroid dehydrogenase/delta 5-4 isomerase (3 beta-HSD) enzyme activity, whereas when added with FSH it dose-dependently augmented (minimal effective dose, 0.1 nmol/l) gonadotropin-stimulated steroidogenesis in cultured granulosa cells. A similar stimulatory effect of the toxin was observed in cells cultured for 48 h with the cell-permeant analogue dibutyryl cAMP (1 mmol/l), or when granulosa cells were stimulated with the cAMP-inducing agents cholera toxin (1 microgram/ml), forskolin (15 mumol/l) or 1-methyl-3-isobutyl-xanthine (0.1 mmol/l). The observed effect of OA on FSH-supported granulosa cell steroidogenesis was not a consequence of increased cAMP generation, and time course experiments also revealed that a minimal time period of 12 h was necessary for OA (0.1 and 1 nmol/l) to significantly enhance FSH-induced progesterone and 3 beta-HSD enzyme activity. Since OA also inhibits the dephosphorylation of protein kinase C (PKC) substrates, we also compared the effect of OA and the PKC activator 12-O-tetradecanoylphorbol-13-acetate (TPA) on FSH-induced granulosa cell steroidogenic activity. While activation of the PKC pathway with the tumor promoter TPA (10 nmol/l) inhibited progesterone and cAMP accumulation in FSH-stimulated granulosa cells, treatment with OA augmented steroidogenesis and did not affect gonadotropin-induced cAMP generation. Collectively these results suggest that PP1 and PP2A may be important in regulating the phosphorylation state of proteins implicated in the cAMP-protein kinase A-stimulated steroidogenic activity of these cells.
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PMID:Effect of the protein phosphatase inhibitor okadaic acid on FSH-induced granulosa cell steroidogenesis. 901 48

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