EC:2.7.11.1 - FACTA Search

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Query: EC:2.7.11.1 (protein kinase)
81,284 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gonadotropes respond to GnRH with LH synthesis and release, desensitization, changes in GnRH receptor number, and GnRH receptor synthesis. Activation of protein kinase-C (PKC) appears to be involved in LH beta gene expression, but is not required for acute LH release, desensitization, or receptor down-regulation. The present studies were conducted to determine whether PKC mediates GnRH-stimulated receptor synthesis. We have adapted the density shift technique to measure the synthesis of GnRH receptors in pituitary culture. Pituitary cells from female weanling rats were exposed to medium containing treatments, dense amino acids (greater than 95% 13C, 15N, and 2H), dialyzed horse serum (10%, vol/vol), and fetal calf serum (2.5%, vol/vol). Treatments consisted of medium alone, phorbol myristate acetate (PMA), phorbol dibutyrate (PdBu), or GnRH. To deplete cells of PKC, cultures were exposed for 8-16 h to 1 microM PMA. Short term treatment with PKC activators (PMA or PdBu, 1 microM) or GnRH (0.1 nM) was given for 30 min. After treatment, GnRH receptors were covalently linked to [125I]Tyr5-azidobenzoyl-D-Lys6-GnRH and solubilized. Newly synthesized (densely labeled) GnRH receptors were separated from normal receptors by velocity sedimentation (156,000 X g; 24 h; 0-20% sucrose) and quantified by gamma-spectroscopy. Treatment with GnRH significantly stimulated the synthesis of GnRH receptors. Treatment of pituitary cell cultures with PMA (8-16 h) also stimulated the synthesis of GnRH receptors, although to a lesser extent than that observed after GnRH treatment. The synthesis of GnRH receptors in response to 0.1 nM GnRH was not different in cells with a normal complement of PKC compared to those depleted of PKC activity. This indicates that the ability of GnRH to stimulate the synthesis of its own receptor is not mediated by PKC. Short term treatment of cell cultures with 1 microM PMA or PdBu (30 min) stimulated GnRH receptor synthesis similar to treatment with 0.1 nM GnRH. When PMA and GnRH were administered simultaneously, GnRH receptor synthesis was stimulated to a greater extent than with either agent alone, suggesting differing mechanisms of action. These results indicate that although activators of PKC can stimulate the synthesis of GnRH receptors, PKC does not mediate the effects of GnRH on homologous receptor synthesis.
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PMID:Protein kinase-C activation stimulates synthesis of gonadotropin-releasing hormone (GnRH) receptors, but does not mediate GnRH-stimulated receptor synthesis. 165 76

GnRH stimulates secretion of pituitary LH by increasing intracellular calcium. Increased calcium may result from activation of phospholipase-C, since there is an increase in inositol phosphates and diacylglycerol, and a redistribution of protein kinase-C (PKC) from cytosolic to a particulate cell fraction in GnRH-stimulated pituitary cultures. A GTP-binding protein (G-protein) may mediate GnRH actions, since GTP stimulates LH release in permeabilized gonadotropes and decreases receptor affinity for a GnRH analog. In the present study we have used sodium fluoride, an exogenous activator of G-proteins, to investigate the possibility of a G-protein link between GnRH receptor activation, phospholipase-C activity, and LH release. Treatment of primary pituitary cell cultures from immature female rats with sodium fluoride stimulated the release of 20% total cellular LH and increased inositol phosphate accumulation. Sodium fluoride-stimulated LH release was insensitive to cholera toxin and pertussis toxin. Sodium fluoride-stimulated LH release was additive with a maximally effective concentration of phorbol 12-myristate 13-acetate and was not inhibited by depletion of cellular PKC, suggesting that PKC does not mediate sodium fluoride effects. Treatment of cultures with 3 mM EGTA and 10 nM GnRH for 5 and 16 h reduced pituitary responsiveness to subsequent treatment with GnRH, but had no effect on sodium fluoride-stimulated LH release. Although the precise mechanism of sodium fluoride-stimulated LH release remains to be described, our results support a role for a G-protein in regulation of LH release by the releasing hormone.
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PMID:Stimulation of luteinizing hormone release by sodium fluoride is independent of protein kinase-C activity and unaffected by desensitization to gonadotropin-releasing hormone. 215 31

To further characterize the subcellular mechanisms by which inhibin suppresses GnRH-stimulated gonadotropin release, anterior pituitary cells from adult male Sprague-Dawley rats were treated on day 2 of culture with or without purified 31-kDa bovine inhibin (1-300 pM) for a further 3 days. On day 5, the pretreated cells were washed and incubated in the absence or presence of various secretagogues for 4 h. At the end of the stimulation, the media were saved, and cells were lysed for measurement of both extracellular and intracellular FSH and LH by specific RIAs. Released hormone was expressed as the proportion of total (released plus intracellular) hormone that was available for release in each case. This manipulation of the data corrects for the differential effect of the inhibin pretreatments to suppress intracellular FSH before the stimulation period. Pretreatment for 3 days with inhibin suppressed the proportions of FSH and LH released during 4 h in response to 1) phorbol 12-myristate 13-acetate (100 nM), an activator of protein kinase-C, by maxima of 48% and 53% with inhibin median inhibitory concentrations (IC50) of 17 and 18 pM, respectively; 2) mezerein (100 nM), another type of activator of protein kinase-C, by maxima of 49% and 50% with inhibin IC50 of 19 and 20 pM, respectively; 3) high extracellular K+ (60 mM) by 42% (P less than 0.01) and 38% (P less than 0.01), respectively, with 130 pM inhibin; 4) the calcium ionophore, A23187 (100 microM) by maxima of 54% and 56% with IC50 of 18 and 17 pM, respectively; and 5) GnRH (10 nM) by maxima of 52% and 53% with IC50 of 18 and 19 pM, respectively. However, inhibin had no effect on the proportional release of gonadotropin induced by melittin, an activator of phospholipase-A2. Finally, inhibin had no effect on ACTH release either under basal conditions or in response to CRF (10 nM), phorbol 12-myristate 13-acetate (100 nM), or A23187 (100 microM). We conclude that inhibin suppresses the stimulated release of hormones from gonadotrophs in part by a mechanism common to both gonadotropins that is independent of the previously described inhibitory effect of inhibin on the GnRH receptor. The results are consistent with an action at a site(s) beyond the GnRH receptor, such as protein kinase-C and calmodulin.
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PMID:Effect of inhibin on activators of protein kinase-C and calcium-mobilizing agents which stimulate secretion of gonadotropins in vitro: implication of a postgonadotropin-releasing hormone receptor effect of inhibin on gonadotropin release. 216 51

The ability of GnRH to modulate protein kinase-C (PKC) activity was examined in perifused rat pituitary cell cultures. Under these conditions, LH release and GnRH receptor number remained unchanged after repeated pulses of 1 nM GnRM, whereas PKC (measured both enzymatically and by radioligand assay) showed an initial increase in kinase activity after the first pulse of GnRH (approximately 2-fold), followed by down-regulation of PKC activity with subsequent pulses of the releasing hormone. It was also observed that the GnRH-stimulated down-regulation of PKC was dependent on the presence of extracellular calcium, which was not the case for the initial up-regulation of PKC. These findings are consistent with a modulating role of the GnRH receptor on PKC activity through a Ca2(+)-dependent process. This study also provides further evidence that GnRH-stimulated LH release and PKC activity can be uncoupled.
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PMID:Gonadotropin-releasing hormone modulation of protein kinase-C activity in perifused anterior pituitary cell cultures. 217 14

Gonadotropin-releasing hormone (GnRH) stimulates release of pituitary gonadotropins by activating specific plasma membrane receptors. In the present studies, we have used activators of the Ca2+- and phospholipid-dependent protein kinase (protein kinase C) to probe the binding characteristics of agonist- or antagonist-occupied GnRH receptors in intact cell cultures, using a radioligand receptor assay. Specific binding of [125I-Tyr5,D-Ser(tBu)6,Pro9,NHEt]GnRH (Buserelin), a high-affinity GnRH agonist, was increased to 180% of control in the presence of 150 nM phorbol 12-myristate 13-acetate (PMA) or 100 nM phorbol 12,13-dibutyrate (PDB), and to 125% of control in the presence of 200 microM 1,2-dioctanoylglycerol, after 20 min at 23 degrees C. The PMA effects were associated with apparent increases in both binding affinity and number of binding sites. The effects of protein kinase C activators on Buserelin binding were concentration- and time-dependent and were not seen with 4 alpha-PMA or 1,2-dioctanoyl-3-Cl-glycerol, neither of which activate protein kinase C. In contrast, PMA had no measurable effects on specific binding of a GnRH receptor antagonist, Ac[D-pCl-Phe1,2,D-Trp3,125I-Tyr5,D-Lys6,D-Ala10]GnRH. When cell cultures were pretreated with 100 nM PDB in the absence of GnRH and then washed to remove the phorbol ester, no effects of prior protein kinase C activation were detected upon subsequent addition of Buserelin. However, when PDB pretreatment was carried out in the presence of 0.3 microM GnRH, residual enhancement of Buserelin binding, but not antagonist binding, was observed at either 23 or 4 degrees C. The radiolabeled agonist activated, and the antagonist blocked, GnRH receptor-mediated luteinizing hormone release and [3H]inositol phosphate production in cells preloaded with [3H]inositol. These findings suggest that the action of protein kinase C on the GnRH receptor, either direct or indirect, requires the receptor to be in an activated (agonist-occupied) state but does not require receptor internalization. The mechanism of these effects on GnRH agonist binding is not known but may involve sequestration of surface receptors, expression of new receptors, and/or modulation of GnRH receptor affinity.
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PMID:Differential sensitivity of agonist- and antagonist-occupied gonadotropin-releasing hormone receptors to protein kinase C activators. A marker for receptor activation. 283 Feb 80

GnRH stimulates the release of LH from pituitary gonadotropes in a Ca2+-and calmodulin-dependent manner. Although GnRH also appears to activate protein kinase-C in gonadotropes, the role of this enzyme in GnRH action remains undetermined. In the present work we have assessed the effect of pretreatment of pituitary cell cultures with a protein kinase-C-activating phorbol ester on gonadotrope responsiveness to GnRH. Pretreatment for 6 h with phorbol 12-myristate 13-acetate (PMA) reduced the EC50 for GnRH-stimulated LH release approximately 8-fold without altering the maximum proportion of total cellular LH release. This increase in the potency of GnRH occurred in the absence of any measurable change in receptor affinity. Subsequent studies revealed that PMA pretreatment did not alter the EC50 for GnRH-stimulated [3H]inositol phosphate accumulation (an indicator of phosphoinositide hydrolysis), but did cause a modest reduction (approximately 2-fold) in the EC50 for LH release in response to the Ca2+ ionophore A23187 and the Ca2+ channel-activating compound maitotoxin. These observations demonstrate that the efficiency of coupling of the GnRH receptor to LH release can be regulated at a postreceptor locus by activation of protein kinase-C and that an increased responsiveness of Ca2+-regulated effector systems to mobilized Ca2+ appears to contribute to the observed effect.
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PMID:Enhanced responsiveness of gonadotropes after protein kinase-C activation: postreceptor regulation of gonadotropin releasing hormone action. 283 79

Signal amplification is fundamental to the normal operation of the preovulatory LH surge and is achieved through processes such as GnRH self-priming and augmentation of stimulated LH secretion by progesterone. We have proposed a model for GnRH self-priming that requires cross-communication between a GnRH receptor-activated protein kinase A pathway and the progesterone receptor (PR) to achieve amplification of the GnRH signal. We found that a pulse of GnRH administered to gonadotrope-enriched pituitary cells cultured in medium containing charcoal-treated serum plus estradiol (E2) potentiated the LH secretory response to subsequent GnRH pulses, and this potentiation could be blocked by a PR antagonist, RU486, in the absence of progesterone. Similarly, exposure of gonadotrope-enriched cultures to forskolin augmented the response to a pulse of GnRH, and the augmentation due to cAMP elevation could be reduced by RU486 in the absence of progesterone. To directly test whether stimulation with either GnRH or a cAMP analog results in transactivation of the endogenous PR, we used rat anterior pituitary cells cultured in the presence of E2 and transfected with reporter plasmids containing progesterone-responsive elements (PRE) and either a E1b or a thymidine kinase (tk) promoter linked to the chloramphenicol acetyltransferase (CAT) gene. For pituitary cells transfected with the PRE-E1b-CAT plasmid, exposure to either progesterone, GnRH, or 8-bromo-cAMP (8BrcAMP) for 6 h resulted in an induction of CAT activity which could be suppressed by coincubation with RU486. RU486 by itself had no effect on CAT activity. Similar results were obtained when a plasmid containing a different promoter (PRE-tk-CAT) was used. For cells transfected with a construct lacking a PRE (pSV2CAT), 8BrcAMP was without effect on CAT expression. When cells were made PR-deficient by omission of E2 from the incubation medium and transfected with PRE-E1b-CAT, neither progesterone, GnRH, nor 8BrcAMP was able to induce CAT activity. In summary we found that either GnRH or 8BrcAMP is able to stimulate transcription of reporter genes linked to two different PRE-containing promoters in anterior pituitary cells that contain endogenous PR; this occurred in the absence of progesterone and was suppressed by a PR antagonist. A simple interpretation of these data is that a GnRH-triggered signaling cascade can result in progesterone-independent transactivation of the PR. We propose that, in the normal operation of the preovulatory LH surge, the pathways for GnRH self-priming and progesterone augmentation converge at the PR and that the pathways serve as physiological redundancies to ensure the LH surge.
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PMID:Activation of the progesterone receptor by the gonadotropin-releasing hormone self-priming signaling pathway. 798 48

This study was performed to assess the effects of activin on intracellular mechanisms involved in GnRH action. When rat pituitary cell cultures were pretreated with activin-A (5-80 ng/ml) for 3 days, subsequent FSH and LH release (percentage of total cellular FSH and LH released during 4 h) in response to GnRH (10(-10)-10(-6) M) was not significantly different from that in cells pretreated with medium alone. In contrast, activin pretreatment increased the potency of both A23187 (Ca2+ ionophore) and phorbol 12-myristate 13-acetate [a protein kinase-C (PKC) activator] as secretagogues for FSH and LH release. FSH or LH release in response to another Ca(2+)-mobilizing secretagogue, maitotoxin (an activator of the GnRH receptor-associated Ca2+ channel), was not increased by activin. Although PKC is capable of influencing the actions of Ca2+, which is believed to be the second messenger for GnRH action, neither GnRH- nor maitotoxin-stimulated gonadotropin release was increased by activin even when the influence of activin on PKC was eliminated by the addition of a PKC inhibitor (staurosporine; 100 nM) during the final 30 min of the 3-day pretreatment period. These results indicate that although activin does not influence GnRH action with regard to gonadotropin release, it increases the sensitivity of the system regulating gonadotropin release to increases in cytosolic Ca2+ concentrations and PKC activation. Furthermore, activin appears to exhibit an inhibitory effect(s) at some point(s) in GnRH action in a PKC-independent manner, which could be responsible for opposing the increased sensitivity of the gonadotrope to Ca2+. The differential effects of activin on gonadotropin release in response to Ca(2+)-mobilizing secretagogues (ionophore and maitotoxin) raise the possibility that the activity of the GnRH receptor-associated Ca2+ channel may be suppressed by activin.
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PMID:Activin modulates the intracellular signaling system activated by gonadotropin-releasing hormone: dual effect on calcium messenger system and protein kinase-C pathway. 827 26

Interleukin-6 (IL-6) may play an important role in human CG (hCG) production by activating the IL-6-receptor (-R) system on human trophoblasts. Trophoblasts produced hCG in response to rIL-6 as well as to 8-bromo cAMP (8-Br-cAMP), 12-O-tetradecanoyl phorbol-13-acetate (TPA), and calcium ionophore A23187. To determine whether the signal transduction pathway activated by the IL-6-R system depends on protein kinases such as protein kinase A, protein kinase C, and Ca2+/calmodulin-dependent kinase, trophoblasts were stimulated with recombinant (r-) IL-6 in the presence or absence of protein kinase inhibitors such as N(2-methyl-aminoethyl)-5-isoquinoline sulfonamide dihydrochloride (H8), and 1-(5-isoquinolinesulfomyl)-2-methylpiperazine (H7) and a calmodulin antagonist, N-(6-aminohexyl)-5-chloro-1- napthalenesulfonamide (W7), H8, H7, and W7 failed to suppress rIL-6-induced hCG production but completely inhibited hCG production induced by 8-Br-cAMP, TPA, and the GnRH agonist (GnRHa), respectively. In contrast, genistein, a tyrosine kinase inhibitor, completely suppressed rIL-6-induced hCG production but failed to inhibit hCG production induced by 8-Br-cAMP, TPA, and A23187. Genistein also did not suppress GnRH-induced hCG production. The addition of genistein to rIL-1- and rTNF-alpha-stimulated trophoblasts inhibited rIL-1-induced and rTNF-alpha induced hCG production but maintained rIL-1- and rTNF-alpha-induced IL-6 production. These results show that the IL-6/IL-6-R system-induced signal transduction pathway in the placenta probably stimulates hCG production by activating a tyrosine kinase pathway. The experiment with genistein shows that the GnRH/GnRH-R system activates a signal transduction pathway distinct from that activated by the IL-6/IL-6-R system.
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PMID:The interleukin-6 (IL-6)/IL-6-receptor system induces human chorionic gonadotropin production by activating tyrosine kinase-dependent signal transduction pathway different from pathways triggered by protein kinase activators including gonadotropin releasing hormone. 837 Jun 93

GH3 cells are a PRL-secreting adenoma cell line derived from pituitary lactotropes. These cells have been stably transfected with rat GnRH receptor complementary DNA to produce four cell lines: GGH(3)1', GGH(3)2', GGH(3)6', and GGH(3)12'. In response to either GnRH or Buserelin (a metabolically stable GnRH agonist), these cell lines synthesize PRL in a cAMP-dependent manner. Only GGH(3)6' cells desensitize in response to persistent treatment with 10(-7) g/ml Buserelin. GGH(3)1', GGH(3)2', and GGH(3)12' cells, however, can be made refractory to Buserelin stimulation by raising cAMP levels either by the addition of (Bu)2cAMP to the medium or by treatment with cholera toxin. In GGH(3) cells, low levels of cAMP fulfill the requirements for a second messenger, whereas higher levels appear to mediate the development of desensitization. The observation that in GGH(3)6' cells, cAMP production persists after the onset of desensitization is consistent with the view that the mechanism responsible for desensitization is distal to the production of cAMP. Moreover, the absence of any significant difference in the amount of cAMP produced per cell in GGH(3)2', GGH(3)6', or GGH(3)12' cells suggests that elevated cAMP production per cell does not explain the development of desensitization in GGH(3)6' cells. We suggest that Buserelin-stimulated PRL synthesis in GGH(3)6' cells is mediated by a different cAMP-dependent protein kinase pool(s) than that in nondesensitizing GGH(3) cells. Such a protein kinase A pool(s) may be more susceptible to degradation via cAMP-mediated mechanisms than the protein kinase pools mediating the Buserelin response in nondesensitizing GGH(3) cells. A similar mechanism has been reported in other systems.
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PMID:Biphasic action of cyclic adenosine 3',5'- monophosphate in gonadotropin-releasing hormone (GnRH) analog-stimulated hormone release from GH3 cells stably transfected with GnRH receptor complementary deoxyribonucleic acid. 860 70

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