Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Myosin II heavy chain (MHC)-specific protein kinase C (MHC-PKC) isolated from the ameba, Dictyostelium discoideum, regulates myosin II assembly and localization in response to the chemoattractant cAMP (Abu-Elneel et al. 1996. J. Biol. Chem. 271:977- 984). Recent studies have indicated that cAMP-induced cGMP accumulation plays a role in the regulation of myosin II phosphorylation and localization (Liu, G., and P. Newell. 1991. J. Cell. Sci. 98: 483-490). This report describes the roles of cAMP and cGMP in the regulation of MHC-PKC membrane association, phosphorylation, and activity (hereafter termed MHC-PKC activities). cAMP stimulation of Dictyostelium cells resulted in translocation of MHC-PKC from the cytosol to the membrane fraction, as well as increasing in MHC-PKC phosphorylation and in its kinase activity. We present evidence that MHC is phosphorylated by MHC-PKC in the cell cortex which leads to myosin II dissociation from the cytoskeleton. Use of Dictyostelium mutants that exhibit aberrant cAMP-induced increases in cGMP accumulation revealed that MHC-PKC activities are regulated by cGMP. Dictyostelium streamer F mutant (stmF), which produces a prolonged peak of cGMP accumulation upon cAMP stimulation, exhibits prolonged increases in MHC-PKC activities. In contrast, Dictyostelium KI-10 mutant that lacks the normal cAMP-induced cGMP response, or KI-4 mutant that shows nearly normal cAMP-induced cGMP response but has aberrant cGMP binding activity, show no changes in MHC-PKC activities. We provide evidence that cGMP may affect MHC-PKC activities via the activation of cGMP-dependent protein kinase which, in turn, phosphorylates MHC-PKC. The results presented here indicate that cAMP-induced cGMP accumulation regulates myosin II phosphorylation and localization via the regulation of MHC-PKC.
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PMID:Chemoattractant-mediated increases in cGMP induce changes in Dictyostelium myosin II heavy chain-specific protein kinase C activities. 876 16

The protein kinase C (PKC) family consists of a number of closely related isotypes, whose in vivo phosphorylation state is regulated in a dynamic fashion by the enzyme's activators. We have investigated here the changes in PKC phosphorylation in response to phorbol ester. Using a combination of hydroxylapatite chromatography and immunoblot with isotype-specific antibodies, we identified PKC-alpha, -delta, -epsilon, and -zeta as the isotypes expressed in PC12 cells. A two-dimensional immunoblot approach was then developed to measure the changes in the phosphorylation state of PKC-alpha before and after exposure of intact PC12 cells to phorbol ester. We found a pool of four differentially migrating PKC-alpha forms in untreated cells, which undergoes an acidic shift after phorbol ester. Furthermore, a similar shift in the two-dimensional immunoblot profile of PKC-alpha was the result of the enzyme autophosphorylation upon in vitro treatment with a combination of phosphatidylserine and phorbol ester, an effect which was enhanced by co-application of purified bovine lung cGMP-dependent protein kinase-I (PKG-I). These results demonstrate a multiple phosphorylation of PKC-alpha in untreated PC12 cells and suggest that various levels of autophosphorylation and trans-phosphorylation of this isoenzyme may occur in response to phorbol ester.
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PMID:Protein kinase C-alpha is multiply phosphorylated in response to phorbol ester stimulation of PC12 cells. 878 58

In the goldfish, it has been proposed that gonadotropin (GTH) release induced by GTH-releasing hormone (GnRH) involves Ca2+ entry through voltage-sensitive Ca2+ channels (VSCC), protein kinase C (PKC) activation, and arachidonic acid (AA) metabolism, but not cyclic AMP (cAMP) action. However, cAMP appears to mediate GnRH action in other teleosts. In this study, the relative importance of PKC and cAMP in mediating GnRH action in goldfish was studied using primary cultures of dispersed pituitary cells. Consistent with an involvement of PKC in GnRH action, the GTH responses to the PKC activating tetradecanoyl phorbol acetate (TPA), salmon (s)GnRH, and chicken (c)GnRH-II were inhibited by two selective PKC inhibitors, calphostin C, and staurosporine. Furthermore, GTH release responses induced by sGnRH or cGnRH-II were not additive to responses stimulated by the PKC-activating diglyceride DiC8, in either long-term static incubation or acute perifusion experiments. In static incubation studies, the GTH responses to sGnRH and DiC8 were potentiated by the VSCC agonist Bay K 8644, suggesting that VSCC participates in both PKC and GnRH action. Concentrations of K+ < 100 mM did not elicit GTH secretion when tested alone, but were effective in stimulating GTH release in the presence of subthreshold doses of DiC8 or TPA. This suggests that minimal activation of PKC greatly enhances the effectiveness of Ca2+ influx to increase GTH secretion. Taken together, these results indicate that PKC is an important mediator of GnRH-induced, VSCC-dependent GTH release. In contrast to the involvement of PKG, cAMP-dependent mechanisms showed no evidence of direct participation in GnRH-induced GTH release in goldfish. In static incubation studies, the GTH responses to sGnRH and cGnRH-II were not affected by H89, a cAMP-dependent protein kinase (PKA) inhibitor. Furthermore, the GTH release stimulated by cAMP was additive to the response to sGnRH, cGnRH-II, DiC8, TPA, or AA. However, compared to the response to forskolin or TPA alone, combinations of forskolin and TPA resulted in a potentiated increase in GTH release. The acute GTH response to forskolin was also enhanced by DiC8. Thus, cAMP-dependent mechanisms may constitute an independent pathway that interacts positively with GnRH-dependent mechanisms in the regulation of GTH release.
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PMID:Interactions between signaling pathways in mediating GnRH-stimulated GTH release from goldfish pituitary cells: protein kinase C, but not cyclic AMP is an important mediator of GnRH-stimulated gonadotropin secretion in goldfish. 880 63

Thromboxane (TX) stimulation of fibronectin (FN) synthesis in mesangial cells (MC) is dependent on protein kinase C (PKC)-mediated increases in transforming growth factor beta (TGF beta), and is suppressed by increases in cellular cGMP. The current studies evaluate the role of cGMP-dependent and -independent actions of nitric oxide (NO) in modulating the responses of MC to the TX analogue U46619. TX-stimulated increases in PKC activity, TGF beta, and FN synthesis in MC were suppressed by either 8-Br-PET-cGMP or the NO donor S-nitroso-N-acetylpenicillamine (SNAP). By contrast, NO, but not cGMP, inhibited basal PKC activity, TGF beta bioactivity and FN synthesis. The cGMP-dependent protein kinase 1-alpha inhibitor 8-(4-chlorophenylthio)guanosine 3',5'-cyclic monophosphorothioate (Rp) restored the PKC, TGF beta, and the FN synthetic responses to TX when added to MC before exposure of the cells to either cGMP or SNAP. However, neither Rp nor the guanylate cyclase inhibitor Ly83583 significantly altered SNAP inhibition of basal PKC. In addition, Rp failed to alter the decreases in basal TGF beta bioactivity and FN synthesis seen in the presence of SNAP. In contrast to the FN response to U46619, cGMP and SNAP did not affect the stimulation of FN synthesis by exogenous TGF beta. The later findings are consistent with inhibitory actions of NO and cGMP at, or proximal to, U46619-induced increases in TGF beta in the suppression of TX-signaled increases in FN synthesis. Thus, NO depresses basal PKC and TGF beta bioactivity in MC by mechanisms that are largely independent of cGMP, whereas NO inhibition of these MC responses to TX is mediated primarily by increases in cGMP and activation of protein kinase 1-alpha.
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PMID:Nitric oxide suppresses increases in mesangial cell protein kinase C, transforming growth factor beta, and fibronectin synthesis induced by thromboxane. 882 14

1. In rat aortic rings precontracted by phenylephrine, H7 (10(-5)M) and staurosporine (10(-7)M), which inhibit PKA, PKG and PKC, and H-89 (10(-6)M), which inhibits PKA and PKG, potentiated relaxations induced by nitroglycerin. Forskolin-induced relaxations were not affected by H7 (10(-5)M). 2. Nitroglycerin-induced relaxations were not affected by calphostin-C (10(-7)M), which inhibits PKC, H-89 (10(-7)M), which inhibits PKA, and staurosporine (2 x 10(-9)M), which inhibits PKC. 3. Iberiotoxin (3 x 10(-8)M), an inhibitor of large conductance Kca channels, partly inhibited the relaxation induced by nitroglycerin and completely inhibited the potentiating effect of H7 on nitroglycerin-induced relaxations. 4. The potentiating effect of zaprinast (10(-5)M), an inhibitor of cGMP-phosphodiesterase, on nitroglycerin-induced relaxation was not affected by iberiotoxin. In the presence of methylene blue (10(-5)M), an inhibitor of guanylate cyclase, the residual relaxing response to nitroglycerin was not affected by H7, but it was inhibited by iberiotoxin. 5. These results suggest that the potentiation of nitroglycerin-induced relaxation by H7, staurosporine and H-89 may be due to inhibition of PKG.
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PMID:The potentiation of nitroglycerin-induced relaxation by PKG inhibition in rat aortic rings. 885 8

In the anterior pituitary, cGMP is produced in response to a number of stimuli, but intracellular events distal to cGMP production are obscure. Since cGMP-dependent protein kinase (PKG) is a major effector of cGMP actions in other tissues we have determined whether PKG and its specific substrates might be present and responsive to external signals in the ovine anterior pituitary. Photoaffinity labelling with [32P]cGMP revealed a specific 78 kDa protein in ovine anterior pituitary that comigrated with purified bovine lung PKG-I. PKG in protein extracts from anterior pituitary or cultured anterior pituitary cells was enriched by DEAE ion-exchange chromatography and assayed for activity. Both tissue and cultured cells had a relatively high PKG activity by comparison with aortic smooth muscle (known high activity) and brain (known low activity). Subcellular distribution studies showed that in anterior pituitary, aortic and brain, PKG activity was present in both cytosol and triton-extracted membrane fractions, while in platelets the activity was associated with only the membrane fraction. To determine if this PKG might be responsive to extracellular signals an activity ratio assay was used. Incubation of cultured cells with atrial natriuretic peptide (ANP) and sodium nitroprusside, activators of membrane and cytosolic guanylate cyclases respectively, increased the activity of PKG. To determine events distal to PKG activation, a search for potential substrates of PKG was performed. Few substrates were detectable upon addition of purified PKG to tissue lysates due to the high background activity of endogenous protein kinases in the anterior pituitary. However, 19 substrates of PKG were detected in heat-stable and 14 in acid-soluble protein extracts of the anterior pituitary, in which background phosphorylation was almost abolished. After partial purification through Q-Sepharose ion-exchange chromatography some of these proteins were preferentially phosphorylated by addition of PKG-I, while the others were additionally substrates of exogenous cAMP-dependent protein kinase (PKA) or Ca2+ and phospholipid-dependent protein kinase (PKC). A 132-kDa substrate showed an identical phosphopeptide map to a PKG substrate previously described in vascular smooth muscle and platelets. These data demonstrate for the first time the presence of functional PKG activity and multiple PKG substrates in the anterior pituitary where they may play a role in mediating the intracellular actions of cGMP.
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PMID:Identification of cGMP-dependent protein kinase and its specific substrates in the anterior pituitary. 890 46

The patch clamp method was employed to establish the mechanism of regulation by guanosine 3',5'-cyclic monophosphate (cGMP)-dependent protein kinase (PKG) of large Ca(2+)-activated K+ channels (BKCa) in human mesangial cells. Dibutyryl cGMP (DBcGMP) significantly increased open probability (Po) of BKCa in the absence but not in the presence of staurosporine in cell-attached patches. In excised patches, BKCa was activated by simultaneous addition of MgATP plus cGMP but not cAMP plus MgATP. Activation by cGMP plus MgATP was blocked by KT-5823, an inhibitor of PKG, but not by KT-5720, an inhibitor of cAMP-dependent protein kinase (PKA). Thus a cGMP-specific endogenous kinase is associated with mesangial BKCa. In excised patches, exogenous PKG but not PKA or protein kinase C activated BKCa. The half-activation potential (V1/2), defined as the potential at which the Po = 0.5 with 1 microM Ca2+, was -34 and 42 mV for activated and inactivated BKCa, respectively; however, the gating charge (Zg), a measure of voltage sensitivity, was not affected by PKG. Similarly, the Ca1/2 (free Ca2+ concentration required to activate to Po = 0.5 at 40 mV) decreased from 1.74 to 0.1 microM on addition of PKG, but the Hill coefficient, a measure of Ca2+ sensitivity, was not affected. Activation of BKCa by PKG was heterogeneous with two populations: the majority (67%) activated by PKG and the minority unaffected. It is concluded that an endogenous PKG activates BKCa by decreasing the Ca2+ and voltage activation thresholds independently of sensitivities.
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PMID:Mechanism of activation by cGMP-dependent protein kinase of large Ca(2+)-activated K+ channels in mesangial cells. 894 51

The regulatory (R) domain of PKC alpha fused to glutathione-S-transferase (GST-R alpha) competitively inhibited PKC activity associated with extracts of Y1 mouse adrenocortical tumor cells and the activities of several specific PKC isozymes. GST-R alpha did not inhibit the activities of cAMP-dependent protein kinase, cGMP-dependent protein kinase or calmodulin-dependent myosin light chain kinase. GST-R alpha inhibited PKC activities 20 times more potently than did a synthetic peptide corresponding to the pseudosubstrate sequence of PKC alpha. In intact yeast cells, the R domain prevented PKC beta-1-induced inhibition of growth and cytokinesis. These results indicate that the R domain of PKC alpha acts as a specific, dominant inhibitor of PKC activity, and suggest that the PKC alpha R domain may provide a useful genetic tool to assess the roles of PKC in various signal transduction processes.
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PMID:Molecular strategies for the dominant inhibition of protein kinase C. 896 21

Modulation of L-type calcium channels by the five cloned muscarinic receptors was studied by expression of the receptors in NIH 3T3 cells. Application of acetylcholine (ACh) to cells transfected with m1-m5 resulted in a reduction in the L-type calcium current amplitude. Elevations in intracellular cAMP concentrations induced by 8-bromo-cAMP or forskolin resulted in no discernible change in the L-type calcium current. In addition, treatment with Rp-adenosine 3',5'-cyclic monophosphothioate triethylamine (Rp-cAMPS), a protein kinase A (PKA) inhibitor, had no effect on the L-type currents. Conversely, application of phorbol dibutyrate, an activator of protein kinase C (PKC) or 8-bromo-cGMP, an activator of cGMP-dependent protein kinase (PKG), reduced the calcium currents. Incubation of the cells with KT5823, an inhibitor of PKG, resulted in a reduction of the response to 8-bromo-cGMP. The ACh-induced depression of L-type calcium current amplitude was sensitive to pertussis toxin (PTX) in cells transfected with the m2 or m4 receptor subtype. The m2-muscarinic-receptor-induced inhibition of the L-type calcium current was attenuated by preincubation of the cells with 8-bromo-cAMP and was unaffected by KT5823 or by calphostin C. The m1-muscarinic-receptor-induced inhibition of the L-type calcium conductance was insensitive to PTX treatment. However, the m1-induced response was blocked by preincubation of the cells with calphostin C. The present data indicate that the m2 (and possibly also the m4) muscarinic receptors inhibit the L-type calcium conductance by a reduction in cAMP concentration and that the m1 (and possibly also the m3 and m5) muscarinic receptors inhibit the L-type calcium channel via activation of PKC.
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PMID:Inhibition of the L-type calcium channel by the five muscarinic receptors (m1-m5) expressed in NIH 3T3 cells. 900 Apr 30

Natural cytotoxicity (NC) against cancer involves receptor-ligand interactions between lymphohemopoietic cells that mediate NC against tumor cells. The only candidate for a receptor on cells mediating NC is NC-1.1, identified using mAb 1C4. In this study we showed that mAb 1C4 blocked NC-1.1+ cell conjugation to WEHI-164 tumor cells, indicating that NC-1.1 is a surface protein required for cell-cell interaction. Affinity-purified NC-1.1 was a 45-kDa monomeric protein. It was a good in vitro substrate for cyclic GMP (cGMP)-dependent protein kinase (PKG) and protein kinase C (PKC) and a relatively poor substrate for cAMP-dependent protein kinase (PKA). Phosphopeptide mapping revealed one phosphopeptide phosphorylated by PKG and PKA, and two additional peptides phosphorylated by PKC. Phosphorylation by PKG or PKA abolished phosphorylation at the PKC sites, while coincubation of NC-1.1 with both PKG and PKC reduced phosphorylation of all sites. NC-1.1 was also a phosphoprotein after immunoprecipitation from intact spleen cells and its phosphorylation was increased after cell stimulation with PKC or PKG activators (phorbol esters or 8-bromo-cGMP). The possible consequences of intracellular signaling were tested in functional assays for NC. Phorbol ester activation of spleen cells increased NC, while 8-bromo-cGMP and 8-bromo-cAMP had little effect. However, coincubation with both phorbol ester and either 8-bromo-cGMP or 8-bromo-cAMP virtually abolished NC without affecting cell conjugation. These results suggest that NC-1.1 is a receptor for a ligand on certain tumor cells and reveal that key intracellular signaling pathways involving PKC, PKG, and PKA interact to effect a coordinated control of NC.
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PMID:Phosphorylation of the NC-1.1 receptor and regulation of natural cytotoxicity by protein kinase C and cyclic GMP-dependent protein kinase. 903 46


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