Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Endothelin (ET)-related peptides robustly stimulated [3H]-inositol phosphate (IP) formation in cultured cerebellar granule cells, astrocytes, and C6 glioma cells. Their agonist selectivities were ET-1 = ET-2 greater than or equal to sarafotoxin S6b greater than ET-3 greater than big ET-1 for granule cells and ET-1 greater than or equal to ET-2 greater than or equal to S6b greater than big ET-1 greater than ET-3 for cerebellar astrocytes and C6 glioma cells. These effects were Ca(2+)-dependent but insensitive to antagonists of L-type Ca2+ channels and the Na+/Ca2+ antiporter. Pretreatment of cells with ET-1 or S6b induced homologous desensitization of phosphoinositide (PI) response mediated by ET receptors. Long-term pertussis toxin (PTX) treatment attenuated the phosphoinositide (PI) response in astrocytes and glioma but not in granule cells. ET-1 and its related peptides increased [Ca2+]i in C6 glioma by two distinct pathways: IP3-induced Ca2+ mobilization or receptor-operated Ca2+ influx. La3+, Mn2+, and Cd2+ inhibited the Ca2+ influx and sustained PI turnover, while Ca2+ mobilization was attenuated by phorbol ester and TMB-8. ET-induced Ca2+ influx was essential for the sustained [Ca2+]i increase and PI turnover. Homologous desensitization of [Ca2+]i increase was also noted. In cerebellar granule cells, ET evoked the release of [3H]D-aspartate from these neurons. This action appears to be dependent on PI hydrolysis and [Ca2+]i increase and modulated by protein kinase C.
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PMID:Endothelin-induced activation of phosphoinositide turnover, calcium mobilization, and transmitter release in cultured neurons and neurally related cell types. 172 40

The Na+/Ca2+ antiporter is present in aortic smooth muscle cells of the A7r5 cell line. Imposing an outward Na+ gradient to the cells promoted a 45Ca2+ uptake component which was sensitive to amiloride derivatives and insensitive to blockers of the voltage-dependent Ca2+ channel. The Ca2+ uptake system was dependent on intracellular Na+ concentration; it was inactive when Li+ replaced intracellular Na+ and it was electrogenic. Flow cytometric analysis of cells that had been loaded with the Ca2+ indicator indo-1 showed that all conditions that promoted Ca2+ influx led to corresponding increases in the free cytoplasmic Ca2+ concentration. Treatment of the A7r5 cells with phorbol myristate acetate, a known activator of protein kinase C (Ca2+/phospholipid-dependent enzyme), led to a two-fold activation of the system and to larger intracellular Ca2+ transients when cells were shifted to Na+-free solutions. Activation was observed at all intracellular Na+ concentrations. Changing the activity of the Na+/Ca2+ system did not affect the size and duration of intracellular Ca2+ transients elicited by the Ca2+ mobilizing hormone vasopressin. It is concluded that the Na+/Ca2+ antiporter in smooth muscle cells is a target for protein kinase C but that the system is not involved in the regulation of Ca2+ transients induced by vasopressin.
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PMID:The Na+/Ca2+ antiporter in aortic smooth muscle cells. Characterization and demonstration of an activation by phorbol esters. 337 14

Antigen-stimulated rat basophilic leukemia (RBL-2H3) cells release serotonin and other inflammatory mediators by a process that requires Ca2+ influx and increased cytoplasmic Ca2+ levels, and is mimicked by Ca2+ ionophores. We report here that the Ca2+ response to antigen and to ionomycin has two components, a Ca2+ spike and a Ca2+ plateau. In nominally Ca2+-free medium, both components of the Ca2+ response are inhibited and secretion does not occur. In Na+-free medium, the initial Ca2+ spike induced by antigen or ionomycin occurs, but the plateau is again absent and secretion is inhibited by 30 to 50%. Secretion is also reduced by 10(-4) M amiloride, an inhibitor of Na+ transport pathways, and by 10(-5) M concentrations of two amiloride analogs with greater activity than amiloride, respectively, against Na+ channels and Na+/Ca2+ exchange. Phorbol esters, which stimulate protein kinase C, enhance the Ca2+ plateau and secretion caused by suboptimal amounts of both antigen and ionomycin; this enhancement depends on extracellular Na+. The Na+ ionophore, monensin, mimics the Ca2+ plateau. From these data, we infer that the Ca2+ spike and plateau reflect separate responses of RBL-2H3 cells to antigen or ionomycin. We propose that the Ca2+ plateau results at least in part from the activation of a Na+-dependent Ca2+ influx pathway. One possible mechanism is that antigen binding stimulates a protein kinase C-regulated Na+ transport system. The resulting influx of Na+ may activate a Na+/Ca2+ antiporter that supports the Ca2+ plateau and mediator release.
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PMID:The control of mediator release from RBL-2H3 cells: roles for Ca2+, Na+, and protein kinase C1. 359 91

The cardiac Na+/Ca2+ exchanger (NCX1) plays a major role in the extrusion of Ca2+ from cardiomyocytes. We studied the role of protein phosphorylation in the regulation of cardiac NCX1 using CCL39 stably overexpressing the canine cardiac NCX1 and rat neonatal cardiomyocytes. In both cell types, the NCX1 protein immunoprecipitated with a chicken anti-NCX1 antibody exhibited a significant basal phosphorylation that was further enhanced by treatment with endothelin-1, acidic fibroblast growth factor, phorbol 12-myristate 13-acetate, or okadaic acid. In contrast, calphostin C, K252a, or EGTA inhibited the phosphorylation. The phosphorylation occurred on two major tryptic phosphopeptides (P1 and P2) exclusively on serine residues. Evidence is presented suggesting that P2 was derived from an N-terminal half (amino acids 240-475) of the central cytoplasmic domain of NCX1 and was phosphorylated directly by protein kinase C (PKC). The agents that increased NCX1 phosphorylation significantly enhanced both the forward and reverse modes of Na+/Ca2+ exchange. This exchange activation exhibited a very good correlation with the NCX1 phosphorylation. In NCX1-transfected cells, PKC down-regulation following prolonged exposure to phorbol 12-myristate 13-acetate abolished the acidic fibroblast growth factor-induced activation of exchange activity. On the other hand, cell ATP depletion reduced the exchange activity and abolished the effects of the above agents on exchange activity. These results indicate that the cardiac NCX1 is up-regulated by PKC-catalyzed phosphorylation. The cardiac NCX1 thus could play an important role in the previously reported negative inotropic actions of phorbol esters and other PKC-activating agents.
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PMID:Phosphorylation-dependent regulation of cardiac Na+/Ca2+ exchanger via protein kinase C. 866 55

We have examined the possible regulatory effect of tyrosine kinase activity on Ca2+ transport observed in the cultured rat cortical neurons. Na+/Ca2+ exchange was studied using cells cultured for various time periods. A nearly two fold increase in Ca2+ uptake was seen when comparing 3 day and 9 day cultures. Western blot analysis also showed a two fold increase in Na+/Ca2+ exchanger (NCX1) protein levels as cells matured in culture. To study the effect of genistein (a specific tyrosine kinase inhibitor) cells were incubated with 100 microM genistein (in 1% DMSO) for 1 hour before the assay of Na+/Ca2+ exchange activity. There was a significant decrease of Ca2+ uptake in genistein treated neurons (control: 4.596+/-0.205 nmol/mg protein/15 min, n=12; genistein: 1.420+/-0.131 nmol/mg protein/15 min, n=12, mean+/-S.E. P<0.001). Daidzein, an inactive analog of genistein and phorbol myristate acetate (PMA), a PKC activator were without effect. The results suggest that as cells mature in culture, Na+/Ca2+ exchange capacity increases, as a result of greater protein expression. Exposure to genistein inhibited Ca2+ uptake suggesting that the exchanger may be modulated by tyrosine phosphorylation.
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PMID:Genistein inhibits Na+/Ca2+ exchange activity in primary rat cortical neuron culture. 914 1

cDNAs for the Na+/Ca2+ exchanger from Drosophila melanogaster (Dmel/Nck) have been cloned by homology screening using the human heart Na+/Ca2+ exchanger cDNA. The overall deduced protein structure for Dmel/Nck is similar to that of mammalian Na+/Ca2+ exchanger genes NCX1 and NCX2, having six hydrophobic regions in the amino terminus separated from six at the carboxy-terminal end by a large intracellular loop. Sequence comparison of the Drosophila exchanger cDNAs with NCX1 and NCX2 Na+/Ca2+ exchangers are approximately 46% identical at the deduced amino acid level. Consensus phosphorylation sites for both protein kinase C and protein kinase A are present on the intracellular loop region of the Dmel/Nck. Alternative splicing for the Dmel/Nck gene is suggested in the same intracellular loop region as demonstrated for NCX1. Functionally, the Drosophila Na+/ Ca2+ exchanger expressed in oocytes differs from expressed mammalian NCX1 with regard to Ca2+ transport in Ca2+/ Ca2+ exchange and the effect of monovalent-dependent Ca2+/ Ca2+ exchange. The Dmel/Nck gene maps to chromosome 3 (93A-B) using in situ hybridization to polytene chromosomes, the same position as the Na(+)-K(+)-ATPase, a related transporter. We conclude that, although extracellular Na+ concentration-dependent Ca2+ transport is subserved by both human and Drosophila Na+/Ca2+ exchangers, there are clear and important differences in the transporters, which should be useful in deducing how the Na+/Ca2+ exchanger protein function depends on its structure.
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PMID:Na+/Ca2+ exchanger in Drosophila: cloning, expression, and transport differences. 925 64

We have cloned the squid neuronal Na+-Ca2+ exchanger, NCX-SQ1, expressed it in Xenopus oocytes, and characterized its regulatory and ion transport properties in giant excised membrane patches. The squid exchanger shows 58% identity with the canine Na+-Ca2+ exchanger (NCX1.1). Regions determined to be of functional importance in NCX1 are well conserved. Unique among exchanger sequences to date, NCX-SQ1 has a potential protein kinase C phosphorylation site (threonine 184) between transmembrane segments 3 and 4 and a tyrosine kinase site in the Ca2+ binding region (tyrosine 462). There is a deletion of 47 amino acids in the large intracellular loop of NCX-SQ1 in comparison with NCX1. Similar to NCX1, expression of NCX-SQ1 in Xenopus oocytes induced cytoplasmic Na+-dependent 45Ca2+ uptake; the uptake was inhibited by injection of Ca2+ chelators. In giant excised membrane patches, the NCX-SQ1 outward exchange current showed Na+-dependent inactivation, secondary activation by cytoplasmic Ca2+, and activation by chymotrypsin. The NCX-SQ1 exchange current was strongly stimulated by both ATP and the ATP-thioester, ATP gamma S, in the presence of F- (0.2 mM) and vanadate (50 microM), and both effects reversed on application of a phosphatidylinositol-4',5'-bisphosphate antibody. NCX1 current was stimulated by ATP, but not by ATP gamma S. Like NCX1 current, NCX-SQ1 current was strongly stimulated by phosphatidylinositol-4',5'-bisphosphate liposomes. In contrast to results in squid axon, NCX-SQ1 was not stimulated by phosphoarginine (5-10 mM). After chymotrypsin treatment, both the outward and inward NCX-SQ1 exchange currents were more strongly voltage dependent than NCX1 currents. Ion concentration jump experiments were performed to estimate the relative electrogenicity of Na+ and Ca2+ transport reactions. Outward current transients associated with Na+ extrusion were much smaller for NCX-SQ1 than NCX1, and inward current transients associated with Ca2+ extrusion were much larger. For NCX-SQ1, charge movements of Ca2+ transport could be defined in voltage jump experiments with a low cytoplasmic Ca2+ (2 microM) in the presence of high extracellular Ca2+ (4 mM). The rates of charge movements showed "U"-shaped dependence on voltage, and the slopes of both charge-voltage and rate-voltage relations (1,600 s-1 at 0 mV) indicated an apparent valency of -0.6 charges for the underlying reaction. Evidently, more negative charge moves into the membrane field in NCX-SQ1 than in NCX1 when ions are occluded into binding sites.
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PMID:Cloning, expression, and characterization of the squid Na+-Ca2+ exchanger (NCX-SQ1). 960 41

To assess the role of Ca2+ in regulation of the Na+/H+ exchanger (NHE1),we used CCL-39 fibroblasts overexpressing the Na+/Ca2+ exchanger (NCX1). Expression of NCX1 markedly inhibited the transient cytoplasmic Ca2+ rise and long-lasting cytoplasmic alkalinization (60-80% inhibition) induced by alpha-thrombin. In contrast, coexpression of NCX1 did not inhibit this alkalinization in cells expressing the NHE1 mutant with the calmodulin (CaM)-binding domain deleted (amino acids 637-656), suggesting that the effect of NCX1 transfection involves Ca2+-CaM binding. Expression of NCX1 only slightly inhibited platelet-derived growth factor BB-induced alkalinization and did not affect hyperosmolarity- or phorbol 12-myristate 13-acetate-induced alkalinization. Downregulation of protein kinase C (PKC) inhibited thrombin-induced alkalinization partially in control cells and abolished it completely in NCX1-transfected cells, suggesting that the thrombin effect is mediated exclusively via Ca2+ and PKC. On the other hand, deletion mutant study revealed that PKC-dependent regulation occurs through a small cytoplasmic segment (amino aids 566-595). These data suggest that a mechanism involving direct Ca2+-CaM binding lasts for a relatively long period after agonist stimulation, despite apparent short-lived Ca2+ mobilization, and further support our previous conclusion that Ca2+- and PKC-dependent mechanisms are mediated through distinct segments of the NHE1 cytoplasmic domain.
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PMID:Regulation of the Na+/H+ exchanger in fibroblasts overexpressing the Na+/Ca2+ exchanger. 969 96

We compared the phosphorylation-dependent regulation of three mammalian Na+/Ca2+ exchanger isoforms (NCX1-NCX3) expressed in CCL39 fibroblasts that have little endogenous activity. Na+i-dependent 45Ca2+ uptake into NCX1- or NCX3-expressing cells, but not that into NCX2-expressing cells, was significantly enhanced by phorbol 12-myristate 13-acetate (PMA) or platelet-derived growth factor-BB, which was abolished by pretreatment of cells with calphostin C or a prior long exposure to PMA. This suggests that NCX1 or NCX3, but not NCX2, is stimulated by a pathway involving protein kinase C (PKC). Immunoprecipitation experiments using [32P]orthophosphate-labeled cells revealed that both NCX2 and NCX3 proteins were phosphorylated to a much lesser extent than the NCX1 protein in unstimulated cells and that the extent of phosphorylation was not increased by treatment with PKC activators, although NCX1 phosphorylation was enhanced significantly. Using site-directed mutagenesis, we identified three phosphorylation sites in the NCX1 protein in the PMA-stimulated cells to be Ser-249, Ser-250, and Ser-357 with Ser-250 being predominantly phosphorylated. We found that the NCX1 mutant with these serine residues substituted with alanine still maintained a normal response to PMA. In contrast, the NCX1 or NCX3 mutant, with the large central cytoplasmic loop deleted, lost the responsiveness to PMA. These results suggest that the PKC-dependent regulation of NCX1 or NCX3 requires the central cytoplasmic loop but does not require the direct phosphorylation of the exchanger.
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PMID:Protein kinase C-dependent regulation of Na+/Ca2+ exchanger isoforms NCX1 and NCX3 does not require their direct phosphorylation. 986 Aug 37

Physiological functions of the intracellular regulatory domains of the Na(+)/Ca(2+) exchanger NCX1 were studied by examining Ca(2+) handling in CCL39 cells expressing a low-affinity Ca(2+) regulatory site mutant (D447V/D498I), an exchanger inhibitory peptide (XIP) region mutant displaying no Na(+) inactivation (XIP-4YW), or a mutant lacking most of the central cytoplasmic loop (Delta246-672). We found that D447V/D498I was unable to efficiently extrude Ca(2+) from the cytoplasm, particularly during a small rise in intracellular Ca(2+) concentration induced by the physiological agonist alpha-thrombin or thapsigargin. The same mutant took up Ca(2+) much less efficiently than the wild-type NCX1 in Na(+)-free medium when transfectants were not loaded with Na(+), although it appeared to take up Ca(2+) normally in transfectants preloaded with Na(+). XIP-4YW and, to a lesser extent, Delta246-672, but not NCX1 and D447V/D498I, markedly accelerated the loss of viability of Na(+)-loaded transfectants. Furthermore, XIP-4YW was not activated by phorbol ester, whereas XIP-4YW and D447V/D498I were resistant to inhibition by ATP depletion. The results suggest that these regulatory domains play important roles in the physiological and pathological Ca(2+) handling by NCX1, as well as in the regulation of NCX1 by protein kinase C or ATP depletion.
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PMID:Physiological functions of the regulatory domains of the cardiac Na(+)/Ca(2+) exchanger NCX1. 1091 6


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