EC:2.7.11.13 - FACTA Search

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)

Endothelin-1 (ET-1), a potent vasoactive peptide released by endothelial cells, alters cytosolic Ca2+ and phosphoinositide metabolism in cells of myogenic and nonmyogenic origin. We evaluated the effect of ET-1 on surfactant phosphatidylcholine (PC) secretion from alveolar type II cells labeled with [methyl-3H]choline. ET-1 stimulated the secretion of PC in a time- and dose-dependent manner. Binding of 125I-labeled ET-1 to type II cell membranes was saturable at approximately 1 nM and suggested the presence of a single type of receptor. The secretagogue effect of ET-1 was independently inhibited by nifedipine and nitrendipine, both L-type calcium channel blockers, and removal of extracellular calcium. ET-1 also increased cellular diacylglycerol content by approximately 50% within 30 s, which could not be attenuated by pretreatment with nifedipine, suggesting an early activation of protein kinase C that was independent of Ca2+ influx. Further, ET-1-stimulated PC secretion was also blocked by inhibitors of protein kinase C. Collectively, these results indicate that the binding of ET-1 to type II cells is coupled to the activation of protein kinase C, which increases calcium influx through L-type calcium channels, and results in increased secretion of lung surfactant. Since ET-1 is released from pulmonary micro- and macrovasculature endothelial cells in close proximity to type II cells, our findings support the novel concept that endothelial cells interact with alveolar type II cells in a paracrine fashion to regulate surfactant secretion.
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PMID:Stimulation of lung surfactant secretion by endothelin-1 from rat alveolar type II cells. 816 95

1. Putrescine has been implicated in modulating cytoplasmic calcium concentration and is correlated with selective neuronal vulnerability in cerebral ischaemia. In order to determine whether putrescine modulates voltage-activated calcium channels, whole-cell and single channel patch clamp experiments were performed with N1E-115 mouse neuroblastoma cells. 2. L-type calcium channel currents showed a 34 +/- 21% increase (n = 6 cells) during external application of 1 mM putrescine. There was no change in the kinetics of the current and no shift in the current-voltage relationship along the voltage axis. 3. T-type calcium channel currents were not affected by 1 mM putrescine. 4. The effect of putrescine on single L-type calcium channels was studied using the cell-attached configuration of the patch clamp technique. Putrescine (5 mM) applied to the bathing solution, but not present in the pipette, caused an increase in open time of the single channel current without changing the conductance of the channel. In 345 depolarizing steps compiled from three cells, the number of channel openings longer than 3 ms increased from six to seventy-six, and the number of channel openings longer than 9 ms increased from zero to twenty-seven. This single channel study supports the hypothesis that putrescine acts on the L-type channel from the inside of the cell. 5. External application of 1 mM spermine and 1 mM spermidine had no effect on T- and L-type calcium channels. Thus, the effect of putrescine is probably not mediated by the higher polyamines. 6. In order to test whether the effect of putrescine is mediated by a second messenger, specific protein kinase C and cyclic AMP-dependent protein kinase inhibitors, staurosporine and KT5720, respectively, were applied prior to putrescine. When cells were preconditioned with 200 nM staurosporine, the increase of the L-type calcium current by 1 mM putrescine was inhibited. By contrast, 200 nM KT5720 did not inhibit the putrescine effect. Therefore, the increase of L-type channel currents by putrescine may be mediated by protein kinase C but not the cyclic AMP-dependent protein kinase. 7. The putrescine-induced enhancement of the L-type calcium channel activity may play an important role in calcium-induced neurotoxicity.
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PMID:The effect of polyamines on voltage-activated calcium channels in mouse neuroblastoma cells. 839 76

L-type calcium channels mediate long-lasting calcium currents which are modulated by protein phosphorylation. Using site-directed anti-peptide antibodies, we show that the alpha 1 subunit of the neuronal class C L-type calcium channel from rat brain exists in two size forms. The longer form, LC2, with an apparent molecular mass of 210-235 kDa was phosphorylated in vitro by cAMP-dependent protein kinase (cA-PK), but the shorter form, LC1, with an apparent molecular mass of 190-195 kDa was not a substrate for cA-PK. In contrast, LC1 and LC2 are both substrates for protein kinase C (PKC), calcium- and calmodulin-dependent protein kinase II, and cGMP-dependent protein kinase (cG-PK). The site-directed anti-peptide antibody CNC2 was produced against the COOH-terminal end of the class C L-type alpha 1 subunit as predicted by molecular cloning and sequencing of cDNA. CNC2 recognized LC2 but not LC1 by immunoblotting and immunoprecipitated only LC2 phosphorylated by either cA-PK or PKC. These results indicate that LC1 is truncated at its COOH-terminal end with respect to LC2 and that cA-PK preferentially phosphorylates sites in the COOH-terminal region of the alpha 1 subunit that are present in LC2 but not LC1. The selectivity of cA-PK for phosphorylation of the COOH-terminal region of LC2 suggests that the channel activities of the two alpha 1 subunit size forms may be differentially regulated by neurotransmitters and hormones which act through cAMP-dependent mechanisms, while both alpha 1 subunit isoforms may be modulated by PKC, cG-PK, and calcium- and calmodulin-dependent protein kinase II.
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PMID:Differential phosphorylation of two size forms of the neuronal class C L-type calcium channel alpha 1 subunit. 839 38

We have previously described the marine toxin okadaic acid (OKA) to be a potent neurotoxin for cultured rat cerebellar neurons. Here we show that OKA-induced neurodegeneration involves the DNA fragmentation characteristic of apoptosis and is protein synthesis-dependent. DNA fragmentation and neurotoxicity correlated with inhibition of protein phosphatase (PP) 2A rather than PP1 activity. Neurotrophins NT-3 and BDNF failed to protect from OKA-induced apoptotic neurotoxicity that was, however, totally prevented by insulin-like growth factor-1. Neuronal death by OKA was significantly reduced by protein kinase C inhibitors and by the L-type calcium channel agonist Bay K8644, while it was potentiated by the reduction of free extracellular calcium concentrations.
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PMID:Inhibition of protein phosphatases induces IGF-1-blocked neurotrophin-insensitive neuronal apoptosis. 894 62

The CYP11B2 gene encodes aldosterone synthase, a cytochrome P450 (P450aldo) expressed in high levels in the adrenal zona glomerulosa. While the primary physiologic regulators of aldosterone production are circulating angiotensin II (Ang II) and potassium (K+) the action of these agents on CYP11B2 gene transcription have not been examined. Because these factors increase intracellular calcium we have hypothesized that calcium signaling pathways are one mechanism controlling CYP11B2 transcription. Previously we demonstrated that increases in intracellular calcium increase P450aldo mRNA. Herein, we analyzed the role of calcium in the expression of the human CYP11B2 gene using transient transfection of a luciferase reporter construct containing 2017 bp of human CYP11B2 5'flanking DNA in mouse Y-1 and human H295R adrenocortical cell lines. When transfected into Y-1 cells, reporter gene expression was increased following treatment with ACTH or forskolin, but not with Ang II, the L-type calcium channel agonist BAYK8644, or ionomycin. In H295R cells, however, reporter gene expression was increased following treatment with Ang II, K+, BAYK8644 ionomycin or dibutyryl cAMP (Bu2cAMP). Activation of protein kinase C with TPA did not alter reporter gene expression in either cell line. These data demonstrate that both calcium and cAMP signaling pathways regulate human CYP11B2 gene expression. In addition, the H295R adrenal cell line appears to be an appropriate model to study regulation of CYP11B2 by calcium.
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PMID:Calcium regulates human CYP11B2 transcription. 896

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

Endothelin-1 (ET-1) is a potent vasoconstrictor peptide that induces characteristically long-lasting contractions. We used rat aortic rings to investigate the role of protein kinase C (PKC) in ET-1-induced contractions and prostacyclin (PGI2) release. ET-1 (10(-9) M) produced a gradual and sustained contraction in rat aortic rings. Pretreatment of aortic rings with different doses (10(-9) M and 10(-6) M) of diltiazem (voltage-sensitive L-type calcium channel blocker) produced significant inhibition of ET-1- and PDBu-induced contractions and PGI2 release. Inhibition was first noted at 10(-9) M and was complete at 10(-6) M. Conversely, pretreatment of aortic rings with different doses (10(-9) M and 10(-6) M) of calcium channel blockers (thapsigargin, an intracellular calcium channel blocker, or conotoxin, a voltage-sensitive N-type calcium channel blocker) produced no changes on ET-1-or PDBu-induced contraction or PGI2 release. These results provide further support for the concept that PKC mediates ET-induced contractions and PGI2 release in rat aortic rings via an increase in intracellular calcium and this increase is due to the influx of extracellular calcium and not to the release of calcium from the sarcoplasmic reticulum.
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PMID:Role of calcium in endothelin-induced contractions and prostacyclin release. 901 19

Gene expression for tyrosine hydroxylase (TH), the rate-limiting enzyme in catecholamine biosynthesis, is regulated by reductions in oxygen tension (hypoxia). Hypoxia-induced regulation of the TH gene is due to the binding of specific transcription factors to specific sites on the 5' flanking region of the gene. The purpose of this study was to identify the second messenger system(s) responsible for regulation of the TH gene during hypoxia. Fura-2 fluorescence imaging of rat pheochromocytoma (PC12) cells, an O2-sensitive cell line, revealed that there is an increase in cytosolic calcium (Ca2+) associated with exposure to hypoxia. Based on the evidence that the transcription factors that bind to the TH promoter during hypoxia can also be induced by elevations in cytosolic Ca2+, the role of Ca2+ in the hypoxic regulation of the TH gene was explored. To assay the effect of hypoxia on TH gene expression, Northern blot analyses of total RNA were performed on PC12 cells exposed to hypoxia in the presence or absence of specific inhibitors. The addition of the L-type calcium channel blockers nifedipine or verapamil caused partial inhibition of the hypoxia-induced increase in TH mRNA. The increase in cytosolic Ca2+ during hypoxia was also only partially inhibited by addition of nifedipine. Importantly, chelation of extracellular Ca2+ completely inhibited the increase in TH mRNA by hypoxia. Pretreatment of PC12 cells with BAPTA/AM, an intracellular Ca2+ chelator, inhibited the hypoxic induction of TH gene expression in a dose-dependent manner. Addition of chelerythrine chloride (CHL), a protein kinase C inhibitor, to the media before exposure to hypoxia also resulted in an inhibition of TH induction by hypoxia. These results suggest that hypoxia regulates TH gene expression by a mechanism that is dependent on influx of calcium from the extracellular stores, partially but not exclusively through the L-type calcium channels. These results further suggest that a member of the PKC family is essential for this regulation.
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PMID:Regulation of tyrosine hydroxylase gene expression during hypoxia: role of Ca2+ and PKC. 902 34

Although metabotropic glutamate receptor (mGluR) modulation has been studied extensively in neurons, it has not been investigated in astrocytes. We studied modulation of glutamate-evoked calcium rises in primary astrocyte cultures using fura-2 ratiometric digital calcium imaging. Calcium plays a key role as a second messenger system in astrocytes, both in regulation of many subcellular processes and in long distance intercellular signaling. Suprachiasmatic nucleus (SCN) and cortical astrocytes showed striking differences in sensitivity to glutamate and to mGluR agonists, even after several weeks in culture. Kainate-evoked intracellular calcium rises were inhibited by concurrent application of the type I and II mGluR agonists quisqualate (10 micro;M), trans-(+/-)-1-amino-1,3-cyclopentanedicarboxylate (100-500 micro;M), and (2S-1'S-2'S)-2-(carboxycyclopropyl)glycine (L-CCG-I) (10 micro;M). Inhibition mediated by L-CCG-I had long-lasting effects (>45 min) in approximately 30% of the SCN astrocytes tested. The inhibition could be mimicked by the L-type calcium channel blocker nimodipine (1 micro;M) as well as by protein kinase C (PKC) activators phorbol 12,13-dibutyrate (10 micro;M) and phorbol 12-myristate 13-acetate (500 nM), and blocked by the PKC inactivator (+/-)-1-(5-isoquinolinesulfonyl)-2-methylpiperazine (200 micro;M), suggesting a mechanism involving PKC modulation of L-type calcium channels. In contrast, mGluRs modulated serotonin (5HT)-evoked calcium rises through a different mechanism. The type III mGluR agonist L-2-amino-4-phosphonobutyrate consistently inhibited 5HT-evoked calcium rises, whereas in a smaller number of cells quisqualate and L-CCG-I showed both inhibitory and additive effects. Unlike the mGluR-kainate interaction, which required a pretreatment with an mGluR agonist and was insensitive to pertussis toxin (PTx), the mGluR modulation of 5HT actions was rapid and was blocked by PTx. These data suggest that glutamate, acting at several metabotropic receptors expressed by astrocytes, could modulate glial activity evoked by neurotransmitters and thereby influence the ongoing modulation of neurons by astrocytes.
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PMID:Metabotropic glutamate receptor activation modulates kainate and serotonin calcium response in astrocytes. 903 Jun 41

Chronic treatment with the immunosuppressive drug, Cyclosporine A (CsA), is associated with increased intracellular calcium in vascular smooth muscle cells, which may cause vasoconstriction and/or activate phospholipase A2. We used rat aortic rings to investigate the role of protein kinase C (PKC) in CsA-induced contractions and secondary prostacyclin (PGI2) release. CsA (10(-9) M) produced a sustained contraction in rat aortic rings. Both CsA-induced contractions and PGI2 release were inhibited 84 to 89% by 10(-9) M, and 99 to 100% by 10(-6) M pretreatment doses of any of three different PKC inhibitors, i.e. 1-(5-isoquinolinesulfonylmethyl) piperazine (H7), staurosporine or 1-(5-isoquinolinesulfonyl) piperazine. Pretreatment with (10(-9) M) of diltiazem (a voltage-sensitive L-type calcium channel blocker) completely inhibited both CsA-induced contractions and PGI2 release. Conversely, pretreatment with (10(-9) M) of thapsigargin (an intracellular calcium channel blocker) did not alter the action of CsA. These results strongly suggest that PKC, in association with an influx of extracellular calcium mediates CsA-induced contractions and secondary PGI2 release in rat aortic rings.
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PMID:Cyclosporine A-induced contractions and prostacyclin release are maintained by extracellular calcium in rat aortic rings: role of protein kinase C. 905 25

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