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)

c-jun is a member of the family of immediate-early genes whose expression is induced by factors such as serum stimulation, phorbol ester, and differentiation signals. Here we show that increased Jun synthesis after serum stimulation is accompanied by a concomitant increase in phosphorylation. Several serine-threonine kinases were evaluated for their ability to phosphorylate Jun in vitro. p34cdc2, protein kinase C, casein kinase II, and pp44mapk phosphorylated Jun efficiently, whereas cyclic AMP-dependent protein kinase and glycogen synthase kinase III did not. The sites phosphorylated by p34cdc2 were similar to those phosphorylated in vivo after serum induction. The major sites of phosphorylation were mapped to serines 63, 73, and 246. Phosphorylation of full-length Jun with several kinases did not affect the DNA-binding activity of Jun homodimers or Fos-Jun heterodimers. Comparison of the DNA binding and in vitro transcription properties of wild-type and mutated proteins containing either alanine or aspartic acid residues in place of Ser-63, -73, and -246 revealed only minor differences among homodimeric complexes and no differences among Fos-Jun heterodimers. Thus, phosphorylation of Jun did not produce a significant change in dimerization, DNA-binding, or in vitro transcription activity. The regulatory role of phosphorylation in the modulation of Jun function is likely to be considerably more complex than previously suggested.
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PMID:Jun is phosphorylated by several protein kinases at the same sites that are modified in serum-stimulated fibroblasts. 132 60

Population response of [Ca2+]i in cultured cortical astrocytes to excitatory amino acids was measured at room temperature using the calcium-sensitive dye fura-2. Quisqualic acid (QA), glutamate (Glu), and kainic acid (KA) caused a peak increase in [Ca2+]i in the order QA greater than Glu greater than KA. No response to N-methyl-D-aspartic acid (NMDA) was observed whether or not Mg2+ was present externally. Both QA and Glu (100 microM) frequently elicited a decaying oscillatory [Ca2+]i response during sustained agonist application; the period of oscillations initially was 23.5 sec and increased as the response was damped. Comparatively, the [Ca2+]i response to KA was nonoscillatory. Both responses to Glu and KA were reduced slightly by antagonist gamma-D-glutamylaminomethyl-sulfonic acid (1 mM), but virtually were abolished by kynurenic acid (3 mM). Replacement of external Na+ by choline had no significant effect on the Glu response. Removal of external Ca2+ reduced the peak response to QA, Glu, and KA to 40, 34, and 18%, respectively; and markedly reduced the degree of QA- and Glu-induced [Ca2+]i oscillations. Pretreatment with phorbol esters, a potent activator of protein kinase C, blocked the [Ca2+]i response to Glu but not KA. It is concluded that cortical astrocytes express Glu receptors of the non-NMDA type in culture and that receptor activation leads to Ca2+ influx and release of internal Ca2+. Mobilization of Ca2+ apparently occurs via the known Glu-mediated hydrolysis of inositol lipids, which may come under negative-feed-back control by protein kinase C activation. Oscillatory [Ca2+]i signaling offers the possibility of a dynamic population response in an electrically coupled glial network.
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PMID:Fluorescence measurement of changes in intracellular calcium induced by excitatory amino acids in cultured cortical astrocytes. 197 Mar 55

The nef gene product of the human immunodeficiency virus (HIV) is suggested to be a negative factor involved in down-regulating viral expression by a mechanism in which the correct conformation of the nef protein is essential. The nef protein expressed by vaccinia virus recombinants is phosphorylated by protein kinase C. We investigated the synthesis of the nef protein and its state of phosphorylation during HIV-1 infection of a T4 cell line (CEM cells). Maximum synthesis of viral proteins occurred 3 days after infection, when more than 90% of cells were producing viral proteins. The synthesis of the nef protein was detected in parallel with the env and gag proteins. As expected, the nef protein was myristylated but not phosphorylated, and its half-life was less than 1 h. By the use of the polymerase chain reaction technique, we isolated and sequenced the nef gene of this HIV-1 stock. Two significant mutations were observed. Firstly, threonine, at amino acid number 15, the site of phosphorylation by protein kinase C, was mutated into an alanine, and secondly aspartic acid of the tetrapeptide WRFD, which is probably involved in GTP binding, was mutated into an asparagine. The mutated nef gene was expressed in a vaccinia virus system, in which it was not phosphorylated and its half-life was dramatically reduced compared to the wild-type nef gene product. Furthermore, down-regulation of CD4 cell surface expression was no longer affected by the mutated nef gene. These results emphasize that phosphorylation of the nef protein provides an efficient test to monitor its biological activity.
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PMID:Production of a non-functional nef protein in human immunodeficiency virus type 1-infected CEM cells. 197 71

A high Mr synthetase core complex isolated from higher eukaryotes contains aminoacyl-tRNA synthetases specific for arginine, aspartic acid, glutamic acid, glutamine, isoleucine, leucine, lysine, methionine, and proline. Previously, five of the synthetases were shown to be phosphorylated in reticulocytes, and the glutaminyl- and aspartyl-tRNA synthetases were shown to be selectively phosphorylated in response to 8-bromo cAMP (Pendergast, A. M., Venema, R. C., and Traugh, J. A. (1987) J. Biol. Chem. 262, 5939-5942). Exposure of reticulocytes to phorbol 12-myristate 13-acetate stimulates the selective phosphorylation of one synthetase in the complex, glutamyl-tRNA synthetase. Only the glutamyl-tRNA synthetase is modified to a significant extent when the purified complex is phosphorylated in vitro by protein kinase C; up to 0.7 mol of phosphate is incorporated per mol of synthetase. Two-dimensional phosphopeptide mapping shows a single tryptic phosphopeptide, which is identical for the enzyme modified in vitro by protein kinase C or in phorbol 12-myristate 13-acetate-stimulated cells. Phosphorylation in vivo is reproducibly accompanied by a 38 +/- 10% reduction in aminoacylation activity of partially purified glutamyl-tRNA synthetase assayed in vitro. Phosphorylation in vitro has no detectable effect on aminoacylation. This difference may be due to the absence of a required effector molecule which alters activity by interaction with the phosphorylated synthetase. Glutamyl-tRNA synthetase is one of a growing number of translational components, including initiation factors, which are coordinately modified by protein kinase C in response to phorbol 12-myristate 13-acetate.
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PMID:Protein kinase C phosphorylates glutamyl-tRNA synthetase in rabbit reticulocytes stimulated by tumor promoting phorbol esters. 200 62

Spinal cord slice preparation and intracellular recording techniques were used to examine the effects of phorbol esters on the sodium- and calcium-dependent action potentials, the excitatory synaptic transmission, the basal (resting) and the dorsal root stimulation-evoked release of 9 endogenous amino acids, including glutamate and aspartate, and the responsiveness of the rat dorsal horn neurons to excitatory amino acids (glutamic, kainic, quisqualic, and N-methyl-D-aspartic). 4-beta-Phorbol-12, 13-dibutyrate and 4-beta-phorbol-12, 13-diacetate produced minor alterations in membrane potential and resistance, but they broadened the sodium-dependent action potential and reduced the duration of the calcium-dependent action potential. In addition, phorbol esters caused a marked and long-lasting increase in the amplitude and the duration of excitatory postsynaptic potentials (EPSPs) evoked in dorsal horn neurons by orthodromic stimulation of a lumbar dorsal root. Phorbol esters produced a brief increase in the basal and electrically evoked release of endogenous excitatory (glutamic, aspartic) and inhibitory amino acids (glycine, GABA). In addition, the rates of release of alanine, serine, and threonine were also elevated. In the presence of TTX, phorbol esters selectively enhanced, in a reversible manner, the depolarizing responses of dorsal horn neurons to N-methyl-D-aspartic acid and L-glutamate but not the responses to kainic or quisqualic acids. The potentiation of the NMDA response was blocked by APV, a specific NMDA receptor antagonist. Thus, phorbol esters appear to enhance excitatory synaptic transmission in the rat spinal dorsal horn slice preparation by acting both at pre- and postsynaptic sites. Phorbol esters could potentiate excitatory synaptic transmission by acting predominantly at a postsynaptic site (NMDA receptor), since the duration of the increased responsiveness of dorsal horn neurons to glutamate and NMDA correlates better with the enhancement of EPSPs than with the increased release of the stimulation-evoked glutamate and aspartate. The increased release of endogenous amino acids is consistent with a presynaptic (terminal) site of action, but it could also be explained by enhanced interneuronal activity. Although our results suggest that in the rat spinal dorsal horn protein kinase C may have a role in controlling the release of putative excitatory and inhibitory neurotransmitters and may also be involved in the regulation of postsynaptic NMDA receptors, the identity of endogenous substance(s) participating in these effects is presently unknown.
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PMID:Multiple effects of phorbol esters in the rat spinal dorsal horn. 257 84

Prolonged activation of brain N-methyl-D-aspartic acid (NMDA) receptors increases intraneuronal (Ca2+) and nitric oxide (NO) synthesis, and may be responsible for neuronal death in acute brain insults and chronic neurodegenerative diseases. NO can be converted in vitro to toxic hydroxyl (OH) radical. Using microdialysis of striatum in awake animals, we found that local NMDA receptor activation increased outflow of OH radicals four-fold. NMDA-stimulated OH production was blocked by inhibitors of nitric oxide synthase (NOS) and protein kinase C (PKC). NMDA receptor-mediated neuronal death may derive from NOS- and PKC-dependent synthesis of OH radicals.
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PMID:NMDA receptors increase OH radicals in vivo by using nitric oxide synthase and protein kinase C. 750 90

An altered protein expression of Ca(2+)-dependent protein kinase C (PKC) isoforms and a point mutation in the PKC alpha cDNA (position 908 of the nucleotide sequence, position 294 of the amino acid sequence, substitution of an aspartic acid by a glycine) have been previously described in a subpopulation of human pituitary tumors. In this work, we screened 16 thyroid tissue samples (four follicular adenomas, five colloid adenomas, three papillary carcinomas, one follicular carcinoma and three normal tissues adjacent to the tumors) for the presence of the PKC alpha point mutation and for PKC alpha, beta 1, beta 2, epsilon and delta protein expression. Screening for the presence of the PKC alpha mutant was performed by a subcloning technic. The polymerase chain reaction products were generated using reverse-transcribed cDNAs, subcloned and sequenced (10 clones were routinely sequenced). The PKC alpha point mutation at position 908 of the cDNA sequence was found in four out of the nine adenomas and in the follicular carcinoma. It was neither detected in the papillary carcinomas nor in the adjacent normal tissues (one was the adjacent normal tissue of the follicular carcinoma; in this sample, genomic DNA and cDNA were used to look for the presence of the mutant), demonstrating the somatic nature of this mutant. Western blot analysis of PKC isoforms showed that the expression of all isoforms was higher in the thyroid neoplasms as compared with their adjacent normal tissue (n = 3). It was also higher in the samples containing the PKC mutant (two follicular adenomas, two colloid adenomas and the follicular carcinoma) as compared with the tumors where it was not detected (three papillary carcinomas and five adenomas). Samples could be ordered according to their increasing PKC expression as follows: normal adjacent tissue < follicular adenomas without PKC alpha mutant < or = papillary carcinoma < follicular adenomas with PKC mutant < follicular carcinoma with PKC mutant. In conclusion, the discovery of the PKC alpha mutant in thyroid neoplasms demonstrates that this mutant is not particular to human pituitary tumors where it was originally detected. It is a somatic mutation and its presence is concomitant with high levels of all of the PKC isoforms analysed. The presence of the PKC mutant in thyroid neoplasms raises the question of its importance in thyroid tumorigenesis.
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PMID:The natural protein kinase C alpha mutant is present in human thyroid neoplasms. 765 30

N-Methyl-D-Aspartate(NMDA)-sensitive glutamate receptors, are critically involved in the induction of the learning process. Activation of NMDA receptors by glutamate lead to massive influx of extracellular Ca2+, with ensuing activation of a variety of Ca(2+)-dependent enzymes, including protein kinase C. This triggers a cascade of intracellular reactions which is essential for memory formation. In culture neurons, high concentrations of oxytocin (> 1 microM) attenuate the stimulation of 45Ca2+ influx promoted by glutamate through the activation NMDA receptors. In addition, the hormone reduces glutamate-stimulated [3H]4-beta-phorbol 12,13-dibutyrate (PdBu) binding in intact cells, a parameter that reflects the translocation of protein kinase C from the cytosol to the cell membrane. Taken collectively, these results indicate that oxytocin reduces the activity of NMDA receptors, thus impairing one of the major substrates for the induction of learning and memory.
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PMID:Oxytocin reduces the activity of N-methyl-D-aspartate receptors in cultured neurons. 790

The neurotoxic effect of glutamate in cultured mouse mesencephalic dopaminergic neurons was investigated. Neuron-rich cell cultures were prepared from 13-14-day-old fetal mouse ventral mesencephalic tissue. Cultures were exposed to glutamate for 10 min and evaluated for glutamate neurotoxicity (GNT) 18-24 hr later by tyrosine hydroxylase (TH) immunostaining, microtubule associated protein-2 (MAP2) immunostaining, and radiolabeled dopamine uptake assay. In glutamate-exposed cultures, the number of TH-positive neurons and the level of dopamine uptake were reduced to 40% (35-45%) and 50% (47-52%), respectively, of control cultures. The number of MAP2-positive neurons was also reduced to 47%, indicating that the GNT was not restricted or selective to dopaminergic neurons. It is concluded that GNT was mediated by the N-methyl-D-aspartic acid (NMDA) receptor from the following observations: 1) GNT was completely blocked by MK-801, an NMDA receptor antagonist; 2) NMDA itself was as toxic as glutamate; 3) 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX), an antagonist of the alpha-amino-3-hydroxy-5-methylisoxazole-4-propionic acid/kainate (AMPA/KA) receptor, did not block GNT; 4) kainate did not show neurotoxicity at a low concentration; and 5) two modulators of the NMDA receptor, 7-chlorokynurenic acid and magnesium, were effective in blocking GNT. Protective effects of phorbol myristate acetate, a tumor promoter, and gangliosides (GM1 and GT1b) on GNT were also demonstrated. Possible interactions between GNT and several protein kinase cascades were also investigated. Forskolin, an activator of adenyl cyclase and protein kinase A, showed some protective effect on GNT. But okadaic acid, an inhibitor of phosphatases, and genistein, a tyrosine kinase inhibitor, did not show any protective effect. These results suggest that 1) glutamate is capable of causing neuronal death in the substantia nigra; 2) GNT on dopaminergic neurons is mainly mediated by the NMDA receptor under the conditions of our study; 3) protein kinase C translocation is a key mechanism of GNT; and 4) there is an interplay of a signal transduction system in the pathomechanism of GNT.
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PMID:Glutamate neurotoxicity in mesencephalic dopaminergic neurons in culture. 790 39

The effect of protein kinase C (PKC) on rapid N-type inactivation of K+ channels has not been reported previously. We found that PKC specifically eliminates rapid inactivation of a cloned human A-type K+ channel (hKv3.4), converting this channel from a rapidly inactivating A type to a noninactivating delayed rectifier type. Biochemical analysis showed that the N-terminal domain of hKv3.4 is phosphorylated in vitro by PKC, and mutagenesis experiments revealed that two serines within the inactivation gate at the N-terminus are sites of direct PKC action. Moreover, mutating one of these serines to aspartic acid mimics the action of PKC. Serine phosphorylation may thus prevent rapid inactivation by shielding basic residues known to be critical to the function of the inactivation gate. The regulatory mechanism reported here may have substantial effects on signal coding in the nervous system.
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PMID:Elimination of rapid potassium channel inactivation by phosphorylation of the inactivation gate. 799 31


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