Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

1. The involvement of protein phosphorylation in the pentylenetetrazole (PTZ)-induced bursting activity (BA) was evaluated in identified neurons of the snail. Euhadra peliomphala by examining the effect of various protein kinases and their inhibitors on the membrane properties induced by PTZ. 2. In neurons which normally exhibited spontaneous regular firing, PTZ elicited BA, the negative slope resistance (NSR) in the steady-state current (I)-voltage (V) relationship and a reduction of the delayed potassium current (IKD) in a dose-dependent manner. These were inhibited by the cAMP-dependent protein kinase inhibitors, protein kinase inhibitor isolated from rabbit muscle and N-[2-(methylamino)ethyl]-5-isoquinolinesulfonamide. 3. Intracellular injection of catalytic subunit (CS) of cAMP-dependent protein kinase enhanced PTZ-induced NSR and reduction of IKD, as well as a conversion of the BA to a long-lasting depolarization of the membrane, whereas a saturating dose of the CS occluded PTZ action on the NSR and IKD. 4. Ca2+/calmodulin-dependent protein kinase II (CaMKII), when intracellularly injected during the depolarizing phase of PTZ-induced bursting cycle, changed to a prolonged hyperpolarization of the membrane. This kinase also restored the PTZ-suppressed IKD nearly to the pre-PTZ level. However, when intracellular injection of CaMKII and application of N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide, a calmodulin inhibitor, to the inside and outside of the neuron were simultaneously carried out, neither post-burst hyperpolarization nor restoration of the IKD was observed. 5. Intracellular injection of calmodulin, together with calcium chloride, had little effect on both the BA and reduction of IKD induced by PTZ. 6. Simultaneous application of 40 microM 1-(5-isoquinolinsulfonyl)-2-methylpiperazine, which selectively suppressed the phosphatidylserine-dependent protein phosphorylation in extracts from Euhadra ganglia, to both the inside and outside of the neuron, did not produce any significant change in the membrane properties induced by PTX. Intracellular injection of protein kinase C also brought about no effect. 7. These findings suggest that PTZ stimulates cAMP-dependent protein phosphorylation which, in turn, is involved in the development of NSR and reduction of IKD, leading to the depolarization of the membrane. In addition, we propose that the Ca2+ ions, increased during the depolarizing phase of the BA cycle, form a Ca2+/calmodulin complex and subsequent protein phosphorylation, coupled with the opening of potassium channels, leading to the membrane hyperpolarization.
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PMID:The molecular mechanism underlying pentylenetetrazole-induced bursting activity in Euhadra neurons: involvement of protein phosphorylation. 168 38

Cytosol of the guinea pig adrenals was found to contain a protein kinase which was dependent on the presence of both calcium and phospholipids (phosphatidylserine and diolein), i.e., calcium/phospholipid-dependent protein kinase (protein kinase C). The peak of protein kinase C was separated from type II cAMP-dependent protein kinase by DE-52 chromatography. 12-0-Tetradecanoylphorbol-13-acetate (TPA) caused dose-dependent increments of cortisol formation without affecting cAMP formation by guinea pig adrenocortical cells as well as angiotensin II did. TPA-activated cortisol production was blocked by the addition of aminoglutethimide and cycloheximide, suggesting that the site of action of TPA might be located at a point before the production of pregnenolone in the mitochondria. Since TPA showed an increase in the cortisol production, protein kinase C may be involved in modulating steroidogenesis in the guinea pig adrenals in addition to the classical cAMP-dependent protein kinase pathway.
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PMID:Involvement of protein kinase C in the regulation of cortisol production by guinea pig adrenocortical cells. 168 88

cAMP-dependent protein kinase (PKA) and phospholipid-dependent protein kinase (PKC) play a role in nerve growth factor (NGF)-mediated differentiation. In PC12 cells, NGF causes neurite outgrowth and increases the number of voltage-gated Na+ channels. Neurite outgrowth involves in part activation of PKC. How NGF regulates Na+ channel number is unknown. Using patch-clamp techniques, we find that agents activating PKC, including phorbol esters and a ras oncogene product (p21) that induces neurites, caused little increase in channel number. In contrast, agents increasing intracellular cAMP were as effective as NGF. A specific protein inhibitor of the PKA catalytic subunit blocked increases by NGF or cAMP. Thus, NGF increases Na+ channel number in PC12 cells in part by activating PKA but apparently not PKC.
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PMID:Nerve growth factor acts through cAMP-dependent protein kinase to increase the number of sodium channels in PC12 cells. 169 May 63

Suramin inhibited protein kinase C (PKC) type I-III activity in a concentration-dependent manner. Similar inhibitory effects were observed with M-kinase, the constitutively active catalytic fragment of PKC, and autophosphorylation of PKC types I-III. Kinetic experiments indicated that suramin competitively inhibits activity with respect to ATP (Ki = 17, 27, and 31 microM, respectively) and that it can also inhibit by interaction with the substrate histone III-S. With protamine as the Pi acceptor, suramin inhibition was dependent on lipid, being approximately 4-fold less sensitive to inhibition in the absence of phosphatidylserine and diacylglycerol than in their presence. Suramin at low concentrations (10-40 microM), in the presence of Ca2+ and absence of lipid, was able to stimulate kinase activity (approximately 200-400%) in a type-dependent manner and at higher concentrations inhibited activity with histone III-S as substrate. These results indicate that suramin, a hexa-anionic hydrophobic compound, can act as a negatively charged phospholipid analog in activating PKC in the presence of Ca2+ and absence of lipid and can inhibit Ca2+/phosphatidylserine/diacylglycerol-stimulated kinase activity at higher concentrations by competing with ATP or by interaction with the exogenous substrate. Suramin inhibited cAMP-dependent protein kinase much less potently (IC50 = 656 microM) than PKC. The ability of suramin to inhibit PKC-mediated processes in intact cells was tested using the phorbol ester-stimulated respiratory burst of neutrophils as a model system. The respiratory burst of human neutrophils, when preincubated with suramin and then stimulated with phorbol ester, was inhibited in a concentration-dependent manner, suggesting that suramin may also be able to inhibit PKC-mediated processes in intact cells.
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PMID:Effects of suramin, an anti-human immunodeficiency virus reverse transcriptase agent, on protein kinase C. Differential activation and inhibition of protein kinase C isozymes. 169 Jul 10

Cystic fibrosis (CF), the most common lethal genetic disease in Caucasians, is characterized by defective electrolyte transport in several epithelia. In sweat duct, pancreatic, intestinal, and airway epithelia, abnormalities in transepithelial ion transport may account for the manifestations of the disease. A Cl- impermeable apical cell membrane is a common feature in these CF epithelia. The rate of transepithelial Cl- transport is controlled in part by hormonally regulated apical membrane Cl- channels; in CF epithelia, Cl- channels are present but their regulation is defective. Most regulation studies have focused on an outwardly rectifying Cl- channel, although other channels may be involved in Cl- secretion. Phosphorylation of Cl- channels or associated regulatory proteins by cAMP-dependent protein kinase or by protein kinase C (at a low internal [Ca2+]) in excised patches of membrane activates Cl- channels in normal cells but not in CF cells. Phosphorylation with protein kinase C at a high internal [Ca2+] in excised patches of membrane inactivates the channel; such inactivation is normal in CF cells. Cl- channels can also be activated by other maneuvers including an increase in the cytosolic [Ca2+], sustained membrane depolarization, an increase in temperature, proteolysis, and changes in osmolarity; the response to such maneuvers is not defective in CF. In addition to the Cl- channel abnormalities, Na+ absorption is increased in CF epithelia. It is not certain whether the increased rate of Na+ absorption results from an increase in the number of cation channels or an alteration of their kinetics. The relation of these ion channel abnormalities to the CF gene product is unknown, but an understanding of the function of the protein product and its defective function in CF should yield important new insights into the pathogenesis and potential therapy of this disease.
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PMID:Abnormal regulation of ion channels in cystic fibrosis epithelia. 169 93

Urokinase-type plasminogen activator (uPA) is expressed at higher levels in many transformed cells as compared with their non-transformed counterparts. The transformed phenotype is associated with changes in the cytoskeleton. Therefore, we have investigated whether alterations in the cytoskeleton can trigger changes in the expression of the uPA gene. To this end we analyzed the expression of the uPA gene following exposure of porcine kidney cells, LLC-PK1, to agents that modify the organization of specific components of the cytoskeleton. These cells exhibited increased uPA mRNA and protein after disruption of microtubules by colchicine or nocodazole treatment or after disruption of microfilaments by cytochalasin B treatment. Colchicine, nocodazole, and cytochalasin B did not cause alterations in the level of cAMP-dependent protein kinase in LLC-PK1 cells. In contrast, down-regulation of protein kinase C by phorbol myristate acetate, reduced, but did not fully prevent the induction of uPA mRNA when LLC-PK1 cells were subsequently exposed to colchicine, nocodazole, or cytochalasin B. Apparently, a signal transduction pathway in part involving protein kinase C but not cAMP-protein kinase mediates the regulatory changes at the transcriptional level of the uPA gene. Inhibition of protein synthesis by cycloheximide prior to the exposure of LLC-PK1 cells to colchicine, nocodazole, or cytochalasin B, largely prevented the induction of uPA mRNA.
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PMID:Disruption of cytoskeletal structures results in the induction of the urokinase-type plasminogen activator gene expression. 169 7

Apical membrane Cl- channels control the rate of transepithelial Cl- secretion in airway epithelia. cAMP-dependent protein kinase and protein kinase C regulate Cl- channels by phosphorylation; in cystic fibrosis cells, phosphorylation-dependent activation of Cl- channels is defective. Another important signaling system involves arachidonic acid, which is released from cell membranes during receptor-mediated stimulation. Here we report that arachidonic acid reversibly inhibited apical membrane Cl- channels in cell-free patches of membrane. Arachidonic acid itself inhibited the channel and not a cyclooxygenase or lipoxygenase metabolite because (i) inhibitors of these enzymes did not block the response, (ii) fatty acids that are not substrates for the enzymes had the same effect as arachidonic acid, and (iii) metabolites of arachidonic acid did not inhibit the channel. Inhibition occurred only when fatty acids were added to the cytosolic surface of the membrane patch. Unsaturated fatty acids were more potent than saturated fatty acids. Arachidonic acid inhibited Cl- channels from both normal and cystic fibrosis cells. These results suggest that fatty acids directly inhibit apical membrane Cl- channels in airway epithelial cells.
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PMID:Fatty acids inhibit apical membrane chloride channels in airway epithelia. 169 96

In the porcine renal epithelial cell line, LLC-PK1, activation of the cAMP-dependent signal transduction pathway induces the urokinase-type plasminogen activator (uPA) gene. We show here that the cAMP response is enhanced when the intracellular calcium concentration is increased. When LLC-PK1 cells were treated with the calcium ionophore ionomycin alone, there was no uPA mRNA accumulation. However, in the presence of ionomycin the dose-response of 8-bromo-cAMP (Br-cAMP) with respect to uPA mRNA accumulation was shifted toward the lower concentrations of Br-cAMP. A Northern blot analysis after the inhibition of RNA synthesis and nuclear run-on assays showed that the synergistic effect of Ca2+ could be attributed to increases in uPA gene transcription and mRNA stability. In the presence of cycloheximide, a protein synthesis inhibitor, uPA mRNA was stabilized, but the effect of ionomycin on Br-cAMP-induced mRNA accumulation was still maintained. The result suggests that the Ca2+, at least on transcription, does not require new protein synthesis. Ionomycin treatment did not modify the activity of the cAMP-dependent protein kinase, suggesting that Ca2+ either affects a step in the pathway between the kinase and the uPA gene, or acts independently of the cAMP-dependent protein kinase pathway. The effect of ionomycin was not suppressed by protein kinase C down-regulation nor by inhibitors of calmodulin. Synergism was also observed when Br-cAMP was replaced with calcitonin, a peptide hormone which is coupled to adenylate cyclase, and when ionomycin was replaced with another ionophore A23187, suggesting that the synergism is due to an interaction between cAMP-dependent and Ca2(+)-dependent signal transduction pathways.
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PMID:Ca2+ potentiates cAMP-dependent expression of urokinase-type plasminogen activator gene through a calmodulin- and protein kinase C-independent mechanism. 170 Nov 76

Previous studies have shown that an increase in the cytosolic Ca2+ concentration [( Ca2+]c) activates Cl- channels in airway epithelia but that the effect is indirect. Because adenosine 3',5'-cyclic monophosphate (cAMP) and phorbol myristate acetate (PMA) activate Cl- channels via phosphorylation by cAMP-dependent protein kinase and protein kinase C, respectively, we asked whether Ca2(+)-dependent Cl- channel activation is phosphorylation dependent. We measured 125I- efflux as an assay of Cl- channel activation in the intact cell. We found that depletion of cellular ATP prevented cAMP- and PMA-induced activation but did not alter activation produced by the Ca2+ ionophore A23187. Moreover, addition of high concentrations of staurosporine (5 microM), to nonspecifically inhibit kinase activity, blocked cAMP- and PMA-stimulated 125I- efflux but had no effect on A23187-induced efflux. These results suggest that elevation of [Ca2+]c does not activate Cl- channels via phosphorylation.
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PMID:Evidence that Ca2(+)-dependent activation of airway epithelia Cl- channels is not dependent on phosphorylation. 170 78

Ca2+/phospholipid-dependent protein kinase (PKC) was inhibited by sulphated polysaccharides. Pentosan polysulphate (PPS) and heparin were 8-10-times more potent than dextran sulphate or heparan sulphate. Steady-state studies revealed that PPS was a competitive inhibitor with respect to ATP with an apparent Ki value of 0.32 micrograms/ml and a non-competitive inhibitor with respect to histones. In contrast, the inhibition of PKC by heparin was competitive with substrate and non-competitive with respect to ATP. The interaction of sulphated polysaccharides with the catalytic domain of PKC was further demonstrated by the absence of effect on [3H]phorbol 12,13-dibutyrate binding to the regulatory domain of PKC. Furthermore, PPS and heparin inhibited equally cAMP-dependent protein kinase and tyrosine protein kinase. Structure-function relationships indicated that the Inhibition of protein kinases by PPS and heparin fractions was highly dependent on molecular weight. Additionally, PKC-affinity chromatography revealed that a high-molecular-weight heparin fraction with strong anti-PKC activity was eluted. We set out to demonstrate that heparin and PPS, which are potent antiproliferative agents on vascular smooth muscle cells (SMC), alter intracellular PKC activity (both membrane and cytosolic). Therefore, it is suggested that the mechanism by which sulphated polysaccharides inhibit SMC growth may be by direct inhibition of PKC in SMC.
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PMID:Effect of pentosan polysulphate, standard heparin and related compounds on protein kinase C activity. 170 25


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