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

The regulation of the cytosolic calcium concentration was investigated in freshly isolated adult bovine tracheal smooth muscle cells using fura 2. These cells contain 1.1 and 1.8 pmol of cGMP kinase and cAMP kinase per mg protein, respectively. Carbachol, histamine, serotonin, isoproterenol, and salbutamol increased the cytosolic calcium in a dose-dependent manner from 79 nM to about 650 nM. Preincubation of these cells for 20 min with isoproterenol, forskolin, 8-Br-cAMP and 8-(4-Cl-phenyl)thio-cAMP did not lower carbachol-induced increases in cytosolic calcium concentration, whereas the phorbol ester 12-O-tetradecanoylphorbol 13-acetate, the atrionatriuretic factor, isobutylmethylxanthine, and 8-Br-cGMP lowered cytosolic calcium. The active fragment of cGMP kinase, but not the catalytic subunit of cAMP kinase lowered carbachol-induced calcium levels. Carbachol released calcium from intracellular stores and increased calcium influx from the extracellular space. The influx was inhibited by preincubation with the calcium channel blockers nitrendipine or gallopamil. Both carbachol-stimulated pathways were suppressed by 8-Br-cGMP. Isoproterenol increased only the influx of calcium from the outside by a channel which was blocked by calcium channel blockers or 8-Br-cGMP. Forskolin and 8-Br-cAMP lowered carbachol- and isoproterenol-stimulated increases in calcium when added shortly before or after the addition of the agonist. In addition, isoproterenol decreased carbachol-stimulated calcium levels when added 10 s after carbachol. The calcium stimulatory effect of isoproterenol was abolished by preincubation of the cells with pertussis toxin or cholera toxin. These results show (a) that the beta 2-adrenoceptor couples in isolated tracheal smooth muscle cells to a dihydropyridine- and pertussis toxin-sensitive calcium channel; (b) that the same channel is opened by carbachol; (c) that cGMP kinase is very effective in decreasing elevated cytosolic calcium concentrations, whereas cAMP-dependent protein kinase has a variable effect on stimulated cytosolic calcium levels.
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PMID:Regulation of cytosolic calcium by cAMP and cGMP in freshly isolated smooth muscle cells from bovine trachea. 284 48

Calcium channels in the heart play a major role in cardiac function. These channels are modulated in a variety of ways, including protein phosphorylation. Cyclic AMP-mediated phosphorylation is the best understood phosphorylation mechanism which regulates calcium influx into cardiac cells. Binding of an agonist (e.g., a catecholamine) to the appropriate receptor stimulates production of cyclic AMP by adenylate cyclase. The cyclic AMP may subsequently bind to and activate a cyclic AMP-dependent protein kinase, which then can phosphorylate a number of substrates, including the calcium channel (or a closely-associated regulatory protein). This results in stimulation of the calcium channels, greater calcium influx, and increased contractility. The cyclic AMP system is not the only protein kinase system in the heart. Thus, the possibility exists that other protein kinases may also regulate the calcium channels and, hence, cardiac function. Recent evidence suggests that cyclic GMP-mediated phosphorylation may play a role opposite to cyclic AMP-mediated phosphorylation, i.e., inhibition of the calcium current rather than stimulation. Other recent evidence also suggests that a calcium/calmodulin-dependent protein kinase and calcium/phospholipid-dependent protein kinase (protein kinase C) may also regulate the myocardial calcium channels. Thus, protein phosphorylation may be a general mechanism whereby calcium channels and cardiac function are modulated under a variety of conditions.
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PMID:Regulation of Ca2+ influx in myocardial cells by beta adrenergic receptors, cyclic nucleotides, and phosphorylation. 284 11

Following brief stimulation of an afferent pathway, the bag cell neurons of Aplysia undergo a dramatic change in excitability, resulting in a prolonged discharge of spontaneous action potentials. During the discharge, the action potentials of the bag cell neurons become enhanced in height and width. The afterdischarge triggers release of neuroactive peptides that initiate egg-laying behavior in this animal. Evidence suggests that changes in excitability of the bag cell neurons may be mediated by activation of protein kinase C (PKC) and cAMP-dependent protein kinase (cAMP-PK). PKC activators, such as the phorbol ester TPA (12-O-tetradecanoyl-13-phorbol acetate), enhance the amplitude of action potentials in isolated bag cell neurons in cell culture. These agents act by unmasking a previously covert species of voltage-dependent calcium channel resulting in an increase in calcium current. In the accompanying paper (Conn et al., 1989), we showed that H-7, a protein kinase inhibitor, inhibits the effect of TPA, and is a selective inhibitor of PKC relative to cAMP-PK in these cells. We now report that another PKC inhibitor, sphinganine, also inhibits the effect of TPA on action potential height and calcium current in cultured bag cell neurons, and that N-acetylsphinganine, an inactive sphinganine analog, fails to inhibit the effects of PKC activators. Although both H-7 and sphinganine prevent the effects of TPA when added prior to TPA addition, neither compound reverses the effects of TPA when added after the action potentials have already become enhanced by TPA.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inhibitors of protein kinase C prevent enhancement of calcium current and action potentials in peptidergic neurons of Aplysia. 291 72

Purified rat Leydig cell cytosol 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. The peak of Ca/phospholipid-dependent protein kinase was separated from type I and type II cAMP-dependent protein kinase by DE-52 chromatography. 4 beta-Phorbol-12-myristate-13-acetate (PMA), a tumor-promoting agent, could substitute for diolein in activation of Ca/phospholipid-dependent protein kinase. PMA caused dose-dependent increments of testosterone formation by Leydig cells, whereas inactive phorbol esters had no significant effects. PMA-induced testosterone formation was dependent on extracellular calcium and could be blocked by the addition of the calcium channel-blocking agent nifedipine. Since PMA can directly activate Ca/phospholipid-dependent protein kinase and increase testosterone formation, these results suggest that Ca/phospholipid-dependent protein kinase may be involved in modulating Leydig cell steroidogenesis in addition to the classical cAMP-dependent protein kinase pathway.
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PMID:The role of calcium/phospholipid-dependent protein kinase in Leydig cell steroidogenesis. 298 10

We have determined the effects of tetradecanoyl phorbol acetate (TPA) and of the calcium ionophore A23187 on two thyroid responses to TSH previously reported to be cAMP-independent. We observed that TPA and A23187, at doses of 1.0 microM, stimulated both hydrogen peroxide generation and glucose oxidation in calf thyroid slices. A subthreshold dose of A23187 (0.1 microM) added to a submaximal dose of TPA (0.5 microM) acted synergistically, stimulating H2O2 production to the same degree as a maximally effective dose of TSH (50 mU/ml). Forskolin (25 microM), a direct stimulator of adenylate cyclase, actually inhibited both glucose oxidation and hydrogen peroxide generation. Lithium chloride (25 mM) had no effect on either response, either in the basal state or with TSH stimulation. The calcium channel antagonist verapamil (50 microM) decreased the basal activity of glucose oxidation and peroxide generation but did not substantially inhibit the effect of TSH on H2O2 generation under the conditions studied. These data support the concept that TSH induces changes in the thyroid phosphatidylinositol metabolism which activates protein kinase-C (c-kinase) and raises cytosolic free calcium. These events appear to act in concert to mediate certain metabolic responses in differentiated thyroid tissue.
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PMID:Peroxide formation and glucose oxidation in calf thyroid slices: regulation by protein kinase-C and cytosolic free calcium. 300 9

Enkephalins, vasoactive intestinal polypeptide, and chromogranin A are all contained in the secretory vesicles of chromaffin cells in culture, and are all released from this compartment by secretagogues in a calcium-dependent way. The biosynthesis of each of these peptides, however, is under quite independent regulation. The synthesis and secretion of enkephalin is tightly coupled to acetylcholine and elevated potassium stimulation by calcium influx. Once calcium enters the cell, calcium acts at pharmacologically distinct sites to elicit secretion and enhanced biosynthesis of Metenkephalin. This is demonstrated by the calcium-independent stimulation of enkephalin secretion by 1 mM barium, in contrast to the dependence on extracellular calcium of barium-stimulated biosynthesis of this peptide. The synthesis and secretion of VIP is also coupled to acetylcholine and elevated potassium stimulation by calcium influx. Treatment with barium demonstrates that calcium acts at distinct sites to stimulate secretion and biosynthesis of this peptide; however induction of VIP by barium and veratridine shows greater sensitivity to the calcium channel blocker methoxyverapamil (D600) than does the induction of Met-enkephalin by these agents. These differences in D600 sensitivity may be due to differences in calcium metabolism or voltage-dependent calcium channels in enkephalin-producing and VIP-inducible subpopulations of chromaffin cells. Chromogranin A levels are essentially unaffected by any of the agents which increase enkephalin and VIP levels, although it is secreted in parallel with enkephalins and catecholamines from chromaffin cells in response to secretagogues. We suggest that peptide hormones such as VIP and enkephalins are regulated by calcium-dependent stimulus-secretion-synthesis coupling in the chromaffin cell. Cyclic AMP is a positive regulator of enkephalin and VIP biosynthesis, but does not affect acute release of these peptides. The cAMP/protein kinase A system may be a distal mediator of peptide biosynthesis stimulated by secretagogues. Alternatively, cAMP may be involved in early developmental establishment of phenotype or long-term regulation of peptide biosynthesis by other hormones or neurotransmitters. Chromogranin A may represent a class of intravesicular, soluble proteins that are expressed constitutively by the chromaffin cell in the presence or absence of positive regulators of other systems. The biosynthesis of chromogranin A may be coupled to the production or assembly of the secretory vesicle itself.
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PMID:Regulation of enkephalin, VIP, and chromogranin biosynthesis in actively secreting chromaffin cells. Multiple strategies for multiple peptides. 303 84

The neutral proteinase elastase is released from polymorphonuclear (PMN) leukocytes in various physiological and pathological conditions. Aim of the present study was to gain further insight into the mechanisms which govern the liberation of this proteinase. Therefore, the effects of the calcium ionophore A23187 and of the protein kinase-C activator phorbol myristate acetate (PMA) on neutrophils were investigated in human whole-blood samples. Furthermore, the inhibitory effects of the calcium channel blocker verapamil and of the calmodulin blocker trifluoperazine were followed. A23187 induced a release of elastase from neutrophils in a dose- and time-dependent manner. Complexation of extracellular calcium by ethylenediamine tetraacetate (EDTA) completely abolished the stimulatory effect of A23187. In a concentration of 10(-4) M verapamil was capable to attenuate (-49%) the A23187-induced secretion of PMN elastase. Beside the increase in intracellular calcium concentration, the activation of protein kinase C by PMA did also cause a release of neutrophil elastase. This release was strictly depending on the concentration of PMA and the time of incubation. In contrast to the stimulatory effect of A23187, the PMA-induced liberation of neutrophil elastase was attenuated, but not completely abolished, by complexation of extracellular calcium with EDTA. Both 10(-4) M verapamil (-43%) and 10(-5) M trifluoperazine (-42%) were able to reduce the PMA-induced release of neutrophil elastase. Based upon these data, we conclude that both the translocation of calcium intracellularly by A23187 and the activation of protein kinase C by PMA stimulate the release of neutrophil elastase. Verapamil and trifluoperazine were capable to suppress the stimulation of elastase release.
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PMID:Stimulation and inhibition of elastase release from human neutrophils dependent on the calcium messenger system. 312 93

Calcium release from isolated heavy sarcoplasmic reticulum of rabbit skeletal muscle by several calmodulin antagonistic drugs was measured spectrophotometrically with arsenazo III and compared with the properties of the caffeine-induced calcium release. Trifluoperazine and W7 (about 500 microM) released all actively accumulated calcium (half-maximum release at 129 microM and 98 microM, respectively) in the presence 0.5 mM MgCl2 and 1 mg/ml sarcoplasmic reticulum protein; calmidazolium (100 microM) and compound 48/80 (70 micrograms/ml) released maximally 30-40% calcium, whilst bepridil (100 microM) and felodipin (50 microM) with calmodulin antagonistic strength similar to trifluoperazine (determined by inhibition of the calcium, calmodulin-dependent protein kinase of cardiac sarcoplasmic reticulum) did not cause a detectable calcium release, indicating that this drug-induced calcium release is not due to the calmodulin antagonistic properties of the tested drugs. Calcium release of trifluoperazine, W7 and compound 48/80 and that of caffeine was inhibited by similar concentrations of magnesium (half-inhibition 1.4-4.2 mM compared with 0.97 mM for caffeine) and ruthenium red (half-inhibition for trifluoperazine, W7 and compound 48/80 was 0.22 microM, 0.08 microM and 0.63 micrograms/ml, respectively, compared with 0.13 microM for caffeine), suggesting that this drug-induced calcium release occurs via the calcium-gated calcium channel of sarcoplasmic reticulum stimulated by caffeine or channels with similar properties.
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PMID:Drug-induced calcium release from heavy sarcoplasmic reticulum of skeletal muscle. 333 19

GnRH stimulates LH release from pituitary cells, and this process is calcium dependent. On the other hand, phorbol ester, 12-0-tetradecanoylphorbol-13-acetate (TPA), a potent activator of calcium- and phospholipid-dependent protein kinase (protein kinase C), stimulates luteinizing hormone (LH) release from rat pituitary cells. To investigate the involvement of the calcium dependent process in LH release by TPA, the effects of calcium channel antagonists, verapamil and nifedipine, on TPA-mediated LH release were compared with those of a GnRH superagonist, [D-Ala6] des-Gly10-GnRH N-ethylamide (GnRHa) in cultured pituitary cells. Furthermore, pituitary cells saturated with 45Ca2+ were stimulated by GnRHa or TPA and calcium mobilization after the stimuli were monitored. The pituitary cells from adult male rats were dispersed by trypsin and cultured for 3 days. Cultured pituitary cells were incubated with GnRHa or TPA in the presence of increasing concentrations of verapamil or nifedipine for 3hrs, and LH released into medium was measured by RIA for rat LH. For 45Ca2+ experiment, 3 day-cultured pituitary cells were saturated with 45Ca2+ (10(6) cells/1 microCi/100 microliters) and incubated with secretagogues for the indicated times. Incubations were terminated by filtration, and the radioactivity on the filter was measured by a beta-counter. LH release was stimulated by 0.1 nM TPA, and the maximum response at 10 nM TPA was 50% of the LH response to GnRHa. A23187 also stimulated LH release in relatively high concentrations (10(-5)-10(-4) M), and no additive stimulatory effect was observed when a half-maximal dose of TPA (10(-9) M) was added with increasing concentrations of A23187. Verapamil partially inhibited both GnRHa- and TPA-stimulated LH release, and a similar inhibitory effect on LH release was observed when nifedipine was incubated with GnRHa or TPA, although high concentrations (10(-5)-10(-4) M) of nifedipine stimulated LH release induced by GnRHa and TPA. GnRHa and TPA stimulated 45Ca2+ influx into the cells, and its peak was observed 15 and 30 seconds after stimulation, respectively, while GnRH antagonist did not mobilize 45Ca2+ until 120 seconds after stimulation. These results suggest that TPA-stimulated LH release from pituitary cells involves a calcium dependent process as does GnRH-stimulated LH release.
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PMID:[The role of calcium in LH release from the pituitary by phorbol ester]. 337 9

When intact rat brain synaptosomes are depolarized there is a significant increase in the phosphorylation of many proteins, and a rapid dephosphorylation of a 96,000 dalton protein termed P96. The mechanisms governing dephosphorylation are shown to be distinct from the mechanisms leading to increased phosphorylation of proteins such as synapsin I. Depolarization-dependent P96 dephosphorylation was found to be rapid (preceding the phosphorylation of synapsin I) and fully reversible, and required both depolarization and calcium entry. The phosphorylation of P96 was specifically increased by fluphenazine and by the calcium channel agonist (BAY K 8644) and antagonist (verapamil) by unknown mechanisms. Phosphorylation was also increased in the presence of dibutyryl cAMP indicating some role for cAMP-dependent protein kinase in P96 labeling. Preliminary evidence also raises the possibility of a role for protein kinase C. The characteristics of this unique synaptosomal protein suggest that it may play an important role in nerve terminal function.
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PMID:Regulation of the phosphorylation and dephosphorylation of a 96,000 dalton phosphoprotein (P96) in intact synaptosomes. 343 56


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