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)

The role of Ca2+/phospholipid-dependent protein kinase (protein kinase C) in catecholamine secretion from bovine adrenal medullary chromaffin cells was examined using four protein kinase C inhibitors: polymyxin B, sphingosine, staurosporine, and 1-(5-isoquinolinesulfonyl)-2-methylpiperazine (H-7). For this purpose, digitonin-permeabilized chromaffin cells were used. Secretion of catecholamines from these cells was stimulated by the addition of micromolar amounts of exogenous free Ca2+. 12-O-Tetradecanoylphorbol-13-acetate (TPA) and arachidonic acid, activators of protein kinase C, enhanced the catecholamine secretion evoked by Ca2+. But phorbol-12, 13-diacetate, a phorbol ester analog that does not activate protein kinase C, had no effect on Ca2(+)-evoked secretion. Polymyxin B at a low concentration (1 microM) abolished the enhancement of secretion by TPA or arachidonic acid without affecting the secretion evoked by Ca2+. However, polymyxin B at higher concentrations (10-100 microM) greatly reduced Ca2+-evoked catecholamine secretion. Sphingosine 10 microM-1 mM), Staurosporine (100 nM-1 microM, and H-7 (100-500 microM) inhibited TPA- or arachidonic acid-enhanced secretion but not Ca2(+)-evoked secretion. In cells in which protein kinase C was down-regulated by TPA, specific binding of [3H]phorbol-12,13-dibutyrate to the cells almost disappeared and the enhancement of secretion by TPA was no longer observed, whereas Ca2(+)-evoked secretion was maintained. These results strongly suggest that protein kinase C is not essential for the Ca2(+)-dependent catecholamine secretion from bovine adrenal chromaffin cells, but acts instead as a modulator.
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PMID:Role of Ca2+/phospholipid-dependent protein kinase in catecholamine secretion from bovine adrenal medullary chromaffin cells. 212 Nov 47

We have investigated the role of phorbol esters on different biological effects induced by insulin in muscle, such as activation of system A transport activity, glucose utilization and insulin receptor function. System A transport activity was measured by monitoring the uptake of the system A-specific analogue alpha-(methyl)aminoisobutyric acid (MeAIB), by intact rat extensor digitorum longus muscle. The addition of 12-O-tetradecanoylphorbol 13-acetate (TPA, 0.5 microM) for 60 or 180 min did not modify basal MeAIB uptake by muscle, suggesting that insulin signalling required to stimulate MeAIB transport does not involve protein kinase C activation. However, TPA added 30 min before insulin (100 nM) markedly inhibited insulin-stimulated MeAIB uptake. The addition of polymyxin B (0.1 mM) or H-7 (1 mM), protein kinase C inhibitors, alone or in combination with TPA leads to impairment of insulin-stimulated MeAIB uptake. This paradoxical pattern is incompatible with a unique action of Polymyxin B or H-7 on protein kinase C activity. Therefore these agents are not suitable tools with which to investigate whether a certain insulin effect is mediated by protein kinase C. TPA did not cause a generalized inhibition of insulin action. Thus both TPA and insulin increased 3-O-methylglucose uptake by muscle, and their effects were not additive. Furthermore, TPA did not modify insulin-stimulated lactate production by muscle. In keeping with this selective modification of insulin action, treatment of muscles with TPA did not modify insulin receptor binding or kinase activities. In conclusion, phorbol esters do not mimic insulin action on system A transport activity; however, they markedly inhibit insulin-stimulated amino acid transport, with no modification of insulin receptor function in rat skeletal muscle. It is suggested that protein kinase C activation causes a selective post-receptor modification on the biochemical pathway by which insulin activates system A amino acid transport in muscle.
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PMID:Protein kinase C activators selectively inhibit insulin-stimulated system A transport activity in skeletal muscle at a post-receptor level. 219 49

1. An investigation was made of the effects of phorbol esters, 12-O-tetradecanoylphorbol acetate (TPA) and secretin on pancreatic juice secretion in the anaesthetized rat. TPA (10(-12)-10(-8) mol/kg body wt) evoked marked dose-dependent increases in secretory rate and total protein output. 2. An inactive phorbol ester (4 alpha-phorbol-12-13-didecanoate; 4 alpha PDD) had no effect on the secretory rate but increased total protein output compared to saline control animals. 3. When TPA was administered in combination with the protein kinase C inhibitor, Polymyxin B (10(-8) mol/kg body wt) both secretory rate and protein output were significantly reduced (P less than 0.001) compared to TPA alone. 4. Secretin (50-1600 pmol/kg body wt) increased both pancreatic juice flow and total protein output in a dose-dependent manner. 5. Simultaneous administration of secretin (50-1600 pmol/kg body wt) and TPA (10(-10) mol/kg body wt) resulted in a marked attenuation in the secretin-induced secretory rate while secretin-evoked protein output was unaffected. 6. The results indicate that protein kinase C activation is associated with pancreatic juice secretion and it may also modulate secretin-induced pancreatic juice flow in the anaesthetized rat.
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PMID:Effects of phorbol esters and secretin on pancreatic juice secretion in the anaesthetized rat. 237

Corticotropin-releasing factor (CRF) stimulated synaptosomal dopamine (DA) synthesis in rat striatal homogenates. The stimulatory effect of CRF was antagonized by alpha-helical CRF 9-41 and was dependent on the extracellular Ca2+ concentration, being absent after removal of Ca2+ from the incubation medium and maximal at about 1.2 mM extracellular Ca2+. The stimulation of DA synthesis by forskolin (FSK) was less sensitive to a change of extracellular Ca2+ concentration. 3-Isobutyl-1-methylxanthine potentiated the FSK effect but did not affect the response to CRF. CRF stimulation was additive to that produced by 40 mM KCl and was little affected by the calmodulin inhibitor, W-7, which markedly suppressed the veratridine-induced stimulation of DA synthesis. Polymyxin B antagonized the CRF stimulation while it had a weaker effect on FSK-stimulated DA synthesis. Tolbutamide reduced the FSK stimulation more effectively than the CRF response. CRF elicited a non-significant increase of cyclic AMP formation by striatal membranes. These results indicate that CRF stimulates striatal DA synthesis by a Ca2+-dependent mechanism possibly involving the activation of the protein kinase C pathway.
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PMID:Stimulation of synaptosomal dopamine synthesis by corticotropin-releasing factor in rat striatum: role of Ca2+-dependent mechanisms. 247 58

The involvement of a GTP-binding protein (G-protein) in the process of neurotransmitter release was examined using pertussis toxin and cholera toxin. Cholinergic agonists are shown to mediate [3H]noradrenaline release in rat brain slices via a pertussis toxin (1.2 micrograms/ml) sensitive, and cholera toxin (0.5 microgram/ml) insensitive G-protein. An indication for the involvement of a G-protein and phospholipase C activation in the release process was implied from the inhibitory effect of neomycin on K+-, veratridine- and carbachol-induced-norepinephrine release. Depolarizing agents mediate a neomycin-sensitive release, which is not which is not affected either by pertussis toxin or cholera toxin, suggesting a different mode of phospholipase C activation, unlike carbachol-induced release, which is both neomycin and pertussis toxin sensitive. Similarly, a hormone-sensitive carrier activated by phenylephrine not via alpha 1-adrenergic receptors, mediates a non-exocytosis efflux which is not affected by neomycin and is shown to be pertussis toxin-insensitive. The inhibitory action of protein kinase C inhibitors polymyxin B, K252a and H-7 [(1-(5-isoquinolinesulphonyl)-2-methyl-piperazine] on release, strongly suggests its participation in the process. Polymyxin B, a relatively selective protein kinase C inhibitor, inhibited carbachol-induced release (IC50 = 0.53 microM) as well as the K+ and the veratridine induced [3H] noradrenaline release, K252a, an inhibitor of various protein kinases at the ATP site, and H-7, another protein kinase C inhibitor, inhibited carbachol-induced noradrenaline released with IC50 = 35 nM and 3 microM respectively. Consistent with its inability to activate phospholipase C, phenylephrine-induced noradrenaline efflux was unaffected by polymyxin B (greater than 70 microM). These results offer more supportive evidence for a major role played by the dual messengers inositol trisphosphate and diacylglycerol (IP3/DG) in the mechanisms of neuronal release.
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PMID:Cholinergic-induced [3H] noradrenaline release in rat brain cortical slices is mediated via a pertussis toxin sensitive GTP binding protein and involves activation of protein kinase C. 251 86

To evaluate the role of protein kinase C on insulin secretion, we investigated the effects of low-concentration polymyxin B (100 mumol/L) on insulin secretion from the isolated perfused rat pancreas induced by 12-O-tetradecanoyl-phorbol-13-acetate (TPA, 10 nmol/L), a protein kinase C activator, glucose (10 mmol/L), or tolbutamide (738 mumol/L). Polymyxin B, a potent and relatively selective protein kinase C inhibitor at this low concentration, did significantly inhibit the gradual rise of insulin secretion induced by TPA (P less than .05). As for glucose or tolbutamide stimulation, polymyxin B significantly inhibited not only the second phase but also the first phase of insulin secretion (P less than .05) without changing the secretion patterns. Although the possibility of nonspecific effects of polymyxin B other than protein kinase C inhibition could not be excluded, the data suggest that protein kinase C might be involved in insulin secretion as a potentiating modulator.
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PMID:Effects of low-concentration polymyxin B on insulin secretion induced by 12-O-tetradecanoyl-phorbol-13-acetate (TPA), glucose, or tolbutamide from the isolated perfused rat pancreas. 254 20

Phorbol 12-myristate 13-acetate (PMA; 0.03, 0.1 and 1.0 mumol/l), a protein kinase C activating phorbol ester, significantly enhanced the stimulation-induced (S-I) outflow of radioactivity at 5 Hz stimulation in mouse atria preincubated with [3H]-noradrenaline, whereas a phorbol ester which does not activate protein kinase C, phorbol 13-acetate (0.1 mumol/l), had no effect. This suggests that protein kinase C may have a role in modulating sympathetic neurotransmission. Polymyxin B (7 and 21 mumol/l), an inhibitor of protein kinase C, had no effect on the S-I outflow of radioactivity. However, it had a significant inhibitory effect in a concentration of 70 mumol/l. Polymyxin B (21 mumol/l) reduced the facilitation of the S-I outflow of radioactivity produced by PMA (0.03 mumol/l), 8-bromo-cyclic AMP (90 mumol/l), tetraethylammonium chloride (300 mumol/l), and idazoxan (0.1 mumol/l). Furthermore, when a higher frequency of stimulation was applied (10 Hz rather than 5 Hz), polymyxin B (21 mumol/l) by itself inhibited the S-I outflow of radioactivity. In the presence of a concentration of PMA (0.1 mumol/l) that was maximally effective in enhancing the S-I outflow of radioactivity, both idazoxan (0.1 mumol/l) and 8-bromo-cyclic AMP (90 mumol/l) still enhanced the S-I outflow. This suggests that these agents are not operating through protein kinase C and further suggests that the inhibitory effect of polymyxin B on these agents cannot be due to inhibition of protein kinase C. The effects of clonidine on the S-I outflow were not affected by a maximally effective concentration of PMA (0.1 mumol/l).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Effect of phorbol esters and polymyxin B on modulation of noradrenaline release in mouse atria. 254 7

1. Activation of protein kinase C (PKC) by phorbol esters or diacylglycerols has been shown to modulate a number of ionic currents carried by Ca2+, K+ and Cl-. Recently, it has been demonstrated that PKC may be activated by cis-fatty acids in the absence of either phospholipid or Ca2+. We wished to determine if this new class of PKC-activating compound would also modulate ionic currents. To this end we applied the whole-cell voltage-clamp technique to N1E-115 neuroblastoma cells. 2. Analysis of families of currents evoked under voltage clamp by depolarizing steps from a holding potential of -85 mV during external application of 5 microM-oleate (a cis-fatty acid) showed a 36% reduction of the peak inward current with no shift in either the peak or the reversal potential of the current-voltage relation and no alteration of outward current. 3. External application of the cis-fatty acids oleate, linoleate and linolenate reversibly attenuated voltage-dependent Na+ current with approximate half-maximal dose values of 2, 3, and 10 microM respectively. Oleate was approximately 2 times more potent when applied internally (ED50 = 1 microM). Externally applied elaidate (a trans-isomer of oleate) and stearate (a saturated fatty acid) which do not activate PKC, had no effect. Since cis-fatty acids are known to fluidize membranes, as well as to activate PKC, we sought to dissociate these functions by applying compounds that fluidize membranes but do not activate PKC: methyloleate and lysophosphatidylcholine. Neither compound affected Na+ current when applied externally at concentrations of 1-50 microM. 4. In contrast to cis-fatty acids, three classical PKC activators, phorbol-12.13-dibutyrate (PDB), phorbol-12.13-diacetate (PDA), and 1.2-oleoylacetylglycerol (OAG) were found to have no effect on the voltage-dependent Na+ current when applied externally at 10 nM-1 microM (phorbol esters) or 1-150 microM (OAG) for incubation periods up to 1 h. 5. External application of the PKC inhibitors polymyxin B, H-7, sphingosine and staurosporine blocked the attenuation of the Na+ current by cis-fatty acid in a dose-dependent manner, with maximal inhibition occurring at doses of 50, 10, 200 and 0.1 microM, respectively. The cyclic nucleotide-dependent protein kinase inhibitor H-8 was much less effective in blocking the cis-fatty acid effect. Polymyxin B and staurosporine were more potent when applied internally. 6. Chronic (24 h) exposure to 1 microM phorbol-12-myristate-13-acetate (TPA) was employed to down-regulate PKC.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:cis-Fatty acids, which activate protein kinase C, attenuate Na+ and Ca2+ currents in mouse neuroblastoma cells. 255 78

Recent studies have demonstrated that phorbol diesters enhance the release of various neurotransmitters. It is generally accepted that activation of protein kinase C (PKC) is the mechanism by which phorbol diesters act on neurotransmitter release. The action of PKC in neurotransmitter release is very likely mediated by phosphorylation of substrate proteins localized in the presynaptic nerve terminal. An important presynaptic substrate of PKC is B-50. To investigate whether B-50 mediates the actions of PKC in neurotransmitter release, we have studied B-50 phosphorylation in intact rat hippocampal slices under conditions that stimulate or inhibit PKC and neurotransmitter release. The slices were labelled with [32P]orthophosphate. After treatment, the slices were homogenized, B-50 was immunoprecipitated from the slice homogenate, and the incorporation of 32P into B-50 was determined. Chemical depolarization (30 mM K+) and the presence of phorbol diesters, conditions that stimulate neurotransmitter release, separately and in combination, also enhance B-50 phosphorylation. Polymyxin B, an inhibitor of PKC and neurotransmitter release, decreases concentration dependently the depolarization-induced stimulation of B-50 phosphorylation. The effects of depolarization are not detectable at low extracellular Ca2+ concentrations. It is concluded that in rat hippocampal slices B-50 may mediate the action of PKC in neurotransmitter release.
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PMID:Phosphorylation of B-50 (GAP43) is correlated with neurotransmitter release in rat hippocampal slices. 256 6

The mechanism of the synthesis of catecholamines by veratridine was studied in cultured bovine adrenal medullary cells. (1) Veratridine increased the phosphorylation and activity of tyrosine hydroxylase as well as the synthesis of [14C]catecholamines from [14C]tyrosine, all of which were inhibited by tetrodotoxin. Veratridine-induced activation of tyrosine hydroxylase and synthesis of [14C]catecholamines were reduced in 20 mmol/l extracellular Na+ or in Ca2+-free medium. (2) 12-O-Tetradecanoylphorbol-13-acetate (TPA), an activator of protein kinase C, increased the synthesis of [14C]catecholamines. In the presence of TPA, veratridine did not produce any additional increase in [14C]catecholamine synthesis. In protein kinase C-deficient cells which were prepared by pretreatment with 1 mumol/l TPA for 24 h, TPA failed to increase [14C]catecholamine synthesis and veratridine-induced [14C]catecholamine synthesis was suppressed by 50%. (3) Polymyxin B, an inhibitor of protein kinase C and N-(6-aminohexyl)-5-chloro-1-naphthalenesulfonamide (W-7), an inhibitor of calmodulin, inhibited veratridine-stimulated synthesis of [14C]catecholamines as well as veratridine-induced influx of 22Na+ and 45Ca2+ with similar potencies. (4) In digitonin-permeabilized cells, polymyxin B attenuated the activation of tyrosine hydroxylase caused by Ca2+. These results suggest that veratridine-induced synthesis of catecholamines and activation of tyrosine hydroxylase were mediated by Ca2+-dependent phosphorylation of this enzyme, and protein kinase C may be responsible, at least in part, for this process.
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PMID:Veratridine-induced phosphorylation and activation of tyrosine hydroxylase, and synthesis of catecholamines in cultured bovine adrenal medullary cells. 257 Mar 66


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