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)

A phosphohistone phosphatase from rat liver cytosol acts specifically on histone H1 that is phosphorylated with the Ca2+-phospholipid-dependent protein kinase (protein kinase C). The apparent Km for 32P-labeled H1 is 1 microM; other histones or cytosolic proteins phosphorylated with protein kinase C or with cyclic AMP-dependent protein kinase are poor substrates for the phosphatase. The enzyme has been partially purified by gel-permeation chromatography and by utilizing a high-performance liquid chromatography ion-exchange column. The physical properties of this enzyme include a Stokes radius of 5.0 nm, a sedimentation coefficient (s20,w) of 7.0 S, and a Mr of 150,000. The detection of protein kinase as well as the specific phosphohistone phosphatase in purified rat liver nuclei suggests a physiologic role for a histone H1 phosphorylation-dephosphorylation cycle mediated by protein kinase C and the corresponding phosphohistone phosphatase.
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PMID:A specific phosphoprotein phosphatase acts on histone H1 phosphorylated by protein kinase C. 631 23

Halothane and propofol stimulate activation of protein kinase C (PKC) in the presence of physiologically relevant lipid bilayer vesicles in vitro. The mechanism of this stimulation was characterized by analyzing the effects of halothane and propofol on the activation of purified rat brain PKC by its three essential activators, phosphatidylserine, diacylglycerol, and Ca2+, each of which is known to interact with the regulatory domain. Clinically relevant concentrations of halothane (2.4 vol%) and propofol (200 microM) increased the Vmax without affecting the Km for phosphorylation of the artificial substrate histone H1 by PKC, and increased the sensitivity of PKC to activation by phosphatidylserine, diacylglycerol, and Ca2+. Halothane reduced the EC50 values for phosphatidylserine from 18 +/- 2.5 to 11 +/- 0.6 mol% (P < 0.05), for diacylglycerol from 1.6 +/- 0.3 to 0.87 +/- 0.2 mol% (P < 0.05) and for free Ca2+ from 4.5 +/- 1.0 to 2.8 +/- 0.4 microM (P < 0.05). Propofol reduced the EC50 values for phosphatidylserine from 18 +/- 1.9 to 11 +/- 1.2 mol% (P < 0.01), for diacylglycerol from 2.5 +/- 0.3 to 1.2 +/- 0.4 mol% (P < 0.01) and for free Ca2+ from 2.8 +/- 0.7 to 1.9 +/- 0.2 microM (P < 0.05). The IC50 values for inhibition of PKC activity by the regulatory domain-specific PKC inhibitor sphingosine were increased from 20 +/- 1.5 to 26 +/- 0.6 microM (P < 0.01) by halothane and from 24 +/- 4.8 to 34 +/- 4.8 microM (P < 0.05) by propofol.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Biochemical characterization of the stimulatory effects of halothane and propofol on purified brain protein kinase C. 748 7

We have previously reported that a serine(threonine) protein kinase that phosphorylates histone H1 in vitro is activated by tyrosine phosphorylation in v-Src-transformed rat 3Y1 fibroblasts. We now refer to this kinase as YRP kinase, for tyrosine-regulated protein kinase. Since YRP kinase may play a role in mediating the growth-stimulatory and morphology-altering effects of v-Src, we have further examined the signal transduction involved in the activation of YRP kinase. Although YRP kinase is constitutively activated in fibroblasts transformed by v-Src, activation of protein kinase C was also found to lead to activation of YRP kinase. Activation of YRP kinase by protein kinase C was found to be potentiated by vanadate treatment or overexpression of c-Src. The activation of YRP kinase by v-Src, however, does not appear to be mediated by protein kinase C, suggesting that YRP kinase can be activated by two separate signal transduction pathways. Transformation of fibroblasts by v-Ras or v-Mil did not result in activation of YRP kinase, indicating that the MAP kinase pathway does not mediate the activation of YRP kinase by v-Src or protein kinase C.
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PMID:Activation of YRP kinase by v-Src and protein kinase C-mediated signal transduction pathways. 753 26

Protein phosphorylation has evolved as the most versatile posttranslational modification widely used by cells. Signal transduction pathways mediated by activation of MAP kinases and protein kinase C trigger the exit of cells from the quiscence (Go-->G1 transition). Indeed, binding of growth factors at the cell surface triggers their receptors, usually possessing a tyrosine kinase on the cytoplasmic side, to phosphorylate other molecules passing on the information sequentially to GRB2 protein, to p21ras, to c-Raf-1, to MAP kinase kinase, to MAP kinase, to p90rsk, to transcription factors. Activated PKC, MAP kinase, and pp90src can translocate to the nucleus where they phosphorylate a number of protein transcription regulators in a cell cycle-dependent manner or in response to cell stimulation for exit from quiescence. The cell cycle is mainly regulated by p34cdc2 or otherwise called cdc2 in association with cyclins B at G2/M and by Cdk2 in association with cyclins A, D1, and E at G1/S checkpoints; phosphorylation of histone H1 and lamins by cdc2 triggers chromosome assembly and nuclear envelope breakdown, respectively, as a prelude to mitosis. Cdc2 activities functioning as a G2/M regulator are controlled by its phosphorylation and dephosphorylation at Ser/Thr residues. MAP kinases might be the missing link in the chain connecting the Go to G1 transition with the cell cycle regulation, whereas phosphorylation of replication protein factors, retinoblastoma, and p53 might link the G1 to S transition with the control of DNA synthesis. A number of transcription factors are known to stimulate DNA replication, including p53, c-Myc, AP-1, Oct-1, T-antigen; the DNA binding activities of all these proteins and their interaction with other transcription factors are controlled by phosphorylation. The nuclear import of several proteins including NF kappa B, Dorsal, glucocorticoid receptor, ISGF3, rNFIL-6, T antigen, and the kinases PKC, MAP, and p90rsk, are dependent on their phosphorylation at specific sites. Histone phosphorylation stimulated at discrete stages of the cell cycle or in response to cAMP or other stimuli might induce profound changes in chromatin organization.
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PMID:Phosphorylation of transcription factors and control of the cell cycle. 754 80

Annexin V belongs to a large family of calcium-binding and phospholipid-binding proteins and may act as an endogenous regulator of the protein kinase C (PKC) activity. This study examines the effect of annexin V on the in vitro PKC activity in cultured mesangial cells using histone H1, the peptide [Ser25]PKC-(19-31), or endogenous proteins as substrates. The SDS/PAGE pattern of 32P-labeled mesangial proteins showed that the calcium-independent PKC [(n+a)PKC] phosphorylated several proteins from 70 kDa to 40 kDa and 22 kDa to 15 kDa. Three additional proteins from 34 kDa to 29 kDa, including annexin I and its proteolytic forms, were detected after activation of calcium-dependent PKC (cPKC). Increasing concentrations of annexin V did not alter the phosphorylation of (n+a)PKC substrates. By contrast, specific phosphorylation of proteins and annexin I by cPKC, was reduced in a dose-dependent manner. Addition of high concentration of calcium and phosphatidylserine did not reverse the inhibitory effect of annexin V. Annexin V also inhibited the phosphorylation of histone H1 or peptide [Ser25]PKC-(19-31) by cPKC. Moreover, removal of annexin V from cytosols increased the annexin I phosphorylation by these isoforms. From these results, we propose that annexin V may regulate the signal-transduction pathway involving the activation of cPKC, as they act in vitro as an inhibitor of these kinases.
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PMID:Inhibitory effect of annexin V on protein kinase C activity in mesangial cell lysates. 758 28

Amyotrophic lateral sclerosis (ALS) is a human neurodegenerative disorder of unknown origin that is characterized by progressive degeneration of corticospinal tracts and anterior horn cells in the brainstem and spinal cord. Previous studies have indicated that motoneuron degeneration associated with ALS may be triggered by mechanisms leading to increased intracellular Ca2+. In the present report, Ca(2+)-activated phospholipid-dependent protein kinase C (PKC) was evaluated in cervical spinal cords from ALS patients and control subjects. In patients who died with ALS, PKC histone H1 phosphotransferase activity was significantly increased by 330% in cytosolic- and 118% in particulate-derived extracts compared with controls. This increase in PKC phosphotransferase activity appeared to be partially due to an increase in the amount of PKC protein present in ALS spinal cord tissue. PKC histone H1 phosphotransferase activities of cytosolic- and particulate-derived extracts from motor and visual cortex of ALS patients and controls were not statistically different, nor were there differences in PKC histone H1 phosphotransferase activity in platelets and leukocytes. The specific nature of PKC alterations in affected regions of the CNS supports a role for PKC in the events leading to motoneuron death in sporadic ALS.
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PMID:A role for amplified protein kinase C activity in the pathogenesis of amyotrophic lateral sclerosis. 761 56

Treatment of metaphase II-arrested hamster eggs with activators of protein kinase C has been reported to promote resumption of the cell cycle, second polar body emission, and pronucleus formation (G.I. Gallicano, S.M. Schwarz, R.W. McGaughey, and D.G. Capco, 1993, Dev. Biol. 156, 94-106). In contrast, we have not observed these responses in mouse eggs obtained from CF-1 mice treated with these activators. In this report, we evaluated if this difference was due to differences in the technique used for PKC stimulation in the two different laboratories or due to species differences. Metaphase II-arrested hamster or mouse eggs were treated with phorbol diesters for 5 min or with a membrane-permeable diacylglycerol for 1 hr. Treatment of hamster eggs resulted in (1) the formation of "second polar body-like structures" commencing 5 min after treatment and reaching a maximum by 20-40 min; (2) a remarkable increase in the staining of filamentous actin in the region of these polar body-like structures; and (3) the disassembly of spindle microtubules. A reduction in cdc2/cyclin B1 kinase activity, as assessed by a decrease in H1 kinase activity, as well as progression from metaphase to anaphase were not observed. Treatment of mouse eggs from either CF-1 or CD-1 mice with these activators of PKC did not result in the formation of these polar body-like structures, did not cause an increase in filamentous actin, and did not result in a reduction in histone H1 kinase activity. This treatment, however, did induce disassembly of the spindle microtubules and the formation of multiple "pronucleus-like structures" that were more discernible in eggs from CD-1 mice. We conclude that the "apparent" activation of hamster eggs by activators of PKC is due to the effect of these agents on the cytoskeleton, which gives rise to structures that appear similar to polar bodies, but without any evidence of cell cycle resumption. The different responses seen in mouse and hamster eggs are mainly due to differences in the sensitivity of the cytoskeleton to rearrangements induced by these agents.
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PMID:Differential effect of activators of protein kinase C on cytoskeletal changes in mouse and hamster eggs. 764 80

Chromatography of a maize seedling extract on DEAE-cellulose, followed by Octyl-Sepharose yielded a fraction with protein kinase activity which was stimulated by phosphatidylserine plus diolein. The activity was not enhanced by calcium ions but was inhibited by chelating agents and could then be restored by the addition of calcium ions. All these facts indicated that the maize protein kinase was similar to mammalian protein kinase C. The maize enzyme phosphorylated myelin basic protein (MBP) and histone H1, but the MBP-peptide4-14 and protamine were poor substrates for the enzyme. Further purification of the enzyme fraction followed by phosphorylation and SDS-polyacrylamide gel electrophoresis, revealed two labeled bands of Mw 59 and 83 kDa the former of which probably being the protein kinase C.
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PMID:Phospholipid-dependent and EGTA-inhibited protein kinase from maize seedlings. 769 22

While testing purines related to the non-specific protein kinase inhibitors N6-dimethylaminopurine and N6-(delta 2-isopentenyl)adenine as potential inhibitors of the p34cdc2/cyclin B kinase, we discovered a compound with high specificity, 2-(2-hydroxyethylamino)-6- benzylamino-9-methylpurine (olomoucine). Kinetic analysis of kinase inhibition reveals that olomoucine behaves as a competitive inhibitor for ATP and as a non-competitive inhibitor for histone H1 (linear inhibition for both substrates). The kinase specificity of this inhibition was investigated for 35 highly purified kinases (including p34cdk4/cyclin D1, p40cdk6/cyclin D3, cAMP-dependent and cGMP-dependent kinases, eight protein kinase C isoforms, calmodulin-dependent kinase II, myosin light-chain kinase, mitogen-activated S6 kinase, casein kinase 2, double-stranded RNA-activated protein kinase, AMP-stimulated kinase, eight tyrosine kinases). Most kinases are not significantly inhibited. Only the cell-cycle regulating p34cdc2/cyclin B, p33cdk2/cyclin A and p33cdk2/cyclin E kinases, the brain p33cdk5/p35 kinase and the ERK1/MAP-kinase (and its starfish homologue p44mpk) are substantially inhibited by olomoucine (IC50 values are 7, 7, 7, 3 and 25 microM, respectively). The cdk4/cyclin D1 and cdk6/cyclin D3 kinases are not significantly sensitive to olomoucine (IC50 values greater than 1 mM and 150 microM, respectively). N6-(delta 2-Isopentenyl)adenine is confirmed as a general kinase inhibitor with IC50 values of 50-100 microM for many kinases. The purine specificity of cyclin-dependent kinase inhibition was investigated: among 81 purine derivatives tested, only C2, N6 and N9-substituted purines exert a strong inhibitory effect on the p34cdc2/cyclin B kinase. An essentially similar sensitivity to this olomoucine family of compounds was observed for the brain-specific cdk5/p35 kinase. Structure/activity relationship studies allow speculation on the interactions of olomoucine and its analogues with the kinase catalytic subunit. Olomoucine inhibits in vitro M-phase-promoting factor activity in metaphase-arrested Xenopus egg extracts, inhibits in vitro DNA synthesis in Xenopus interphase egg extracts and inhibits the licensing factor, an essential replication factor ensuring that DNA is replicated only once in each cell cycle. Olomoucine inhibits the starfish oocyte G2/M transition in vivo. Through its unique selectivity olomoucine provides an anti-mitotic reagent that may preferentially inhibit certain steps of the cell cycle.
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PMID:Inhibition of cyclin-dependent kinases by purine analogues. 792 96

In this study, the recently identified human protein kinase C-theta (PKC-theta) isoform has been biochemically characterized in detail. An antiserum raised against the unique V3 domain of PKC-theta identified an 80-kDa protein in all human T-cell lines tested, in erythroleukemia K562 cells and in histiocytic lymphoma U-937 cells, but not in a B-lymphoma line (Raji) or in several melanoma, carcinoma, schwanoma or astrocytoma lines, confirming, at the protein level, its predominant expression in hematopoietic cell lines, in particular T cells. Immunoreactive PKC-theta was detected almost exclusively in the cytosolic compartment of unstimulated Jurkat T cells. Stimulation with phorbol ester, however, caused rapid translocation to the membrane. In order to compare the properties of PKC-theta with a representative member of the Ca(2+)-dependent PKC enzymes, full-length cDNAs encoding PKC-theta or PKC-alpha were transiently expressed in COS-1 cells, and recombinant enzymes were partially purified via a six-histidine peptide tag. The catalytic activity of these PKC enzymes was assayed against distinct substrates in the absence and presence of known PKC cofactors. Significant differences were found with respect to activation requirements and substrate preferences between PKC-theta and PKC-alpha. Both enzymes were stimulated by phospholipid and phorbol ester, and were active towards a PKC-derived substrate peptide corresponding to the pseudosubstrate site of PKC. In contrast to PKC-alpha, however, full activation of PKC-theta did not require Ca2+, and its basal activity towards histone H1 was not stimulated by lipid cofactors. Additionally, a myelin-basic-protein-(MBP)-derived peptide, which was readily phosphorylated by PKC-alpha, was a poor substrate for PKC-theta. Similar to PKC-alpha, transient PKC-theta overexpression in murine EL4 thymoma cells caused an approximately 2.5-fold increase in the phorbol-12-myristate-13-acetate-induced transcriptional activation of an interleukin-2 promoter-reporter gene construct. The unique expression and functional properties of PKC-theta suggest that it may play a specialized role in T-cell signaling pathways.
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PMID:Expression and biochemical characterization of human protein kinase C-theta. 792 38


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