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)

Thrombin, the key regulatory protein of hemostasis, has been implicated in a variety of important endothelial cell processes closely linked to endothelial signal transduction mechanisms. An initial event, following receptor binding by catalytically active alpha-thrombin, appears to be the activation of a G-protein-coupled, PI-specific PLC, with resultant generation of IP3 and DAG, with increases in [Ca2+]i, and activation and translocation of PKC (Fig. 9). PKC activation results in down-regulation of PLC, as demonstrated by inhibition of agonist-induced increases in [Ca2+]i, whereas PLA2 activity is up-regulated, with a resultant increase in endothelial PGI2 synthesis. Recently, we have demonstrated that activity of membrane-bound, endothelial PLD, is also up-regulated by PKC activation. In addition to its modulatory role in endothelial cell phospholipase activities, PKC activation appears to play a critical role in thrombin-mediated endothelial barrier dysfunction, likely via specific cytoskeletal protein phosphorylation. A temporal relationship between alpha-thrombin-mediated signal transduction and specific cellular responses, such as PGI2 synthesis and barrier dysfunction, can be established (Fig. 2). Further investigations are ongoing to identify more clearly the precise biochemical intermediates involved in the endothelial cell response to thrombin, as well as the role of differential phosphorylation by various protein kinase systems in thrombin-mediated signal transduction in vascular endothelium.
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PMID:The role of protein kinase C in alpha-thrombin-mediated endothelial cell activation. 157 13

Protein kinase C (PKC) is a Ca++- and phospholipid-dependent protein kinase that plays an important role in signal transduction pathways that regulate cell growth. Tumor cells selected for a multidrug resistant (MDR) phenotype often express elevated levels of PKC activity. To directly test whether PCK overexpression can produce an MDR phenotype, we studied rat embryo fibroblasts that were infected with the full-length cDNA clone RP58 encoding the beta I form of rat brain PKC. The PKC-beta I gene recipient R6-PKC3 cells are stable, overproduce PKC, and express an elevated level of PKC activity. R6-PKC3 cells exhibited significant resistance to adriamycin, actinomycin D, vinblastine, and vincristine but not to 5-fluorouracil. Intracellular accumulation of adriamycin, vinblastine, and vincristine was decreased in the R6-PKC3 cells, but this was not associated with an altered level of P-glycoprotein expression. Moreover, the reduction in drug accumulation appeared to be a consequence of a decreased rate of drug uptake. The data indicate that overexpression of PKC in rat fibroblasts produces an MDR phenotype without altering P-glycoprotein expression.
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PMID:Stable expression of a cDNA encoding rat brain protein kinase C-beta I confers a multidrug-resistant phenotype on rat fibroblasts. 162 23

The effects of protein phosphorylation and dephosphorylation on glucose transport activity reconstituted from adipocyte membrane fractions and its relationship to the phosphorylation state of the adipose/muscle-type glucose transporter (GLUT4) were studied. In vitro phosphorylation of membranes in the presence of ATP and protein kinase A produced a stimulation of the reconstituted glucose transport activity in plasma membranes and low-density microsomes (51% and 65% stimulation respectively), provided that the cells had been treated with insulin prior to isolation of the membranes. Conversely, treatment of membrane fractions with alkaline phosphatase produced an inhibition of reconstituted transport activity. However, in vitro phosphorylation catalysed by protein kinase C failed to alter reconstituted glucose transport activity in membrane fractions from both basal and insulin-treated cells. In experiments run under identical conditions, the phosphorylation state of GLUT4 was investigated by immunoprecipitation of glucose transporters from membrane fractions incubated with [32P]ATP and protein kinases A and C. Protein kinase C stimulated a marked phosphate incorporation into GLUT4 in both plasma membranes and low-density microsomes. Protein kinase A, in contrast to its effect on reconstituted glucose transport activity, produced a much smaller phosphorylation of the GLUT4 in plasma membranes than in low-density microsomes. The present data suggest that glucose transport activity can be modified by protein phosphorylation via an insulin-dependent mechanism. However, the phosphorylation of the GLUT4 itself was not correlated with changes in its reconstituted transport activity.
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PMID:Phosphorylation of the adipose/muscle-type glucose transporter (GLUT4) and its relationship to glucose transport activity. 163 3

The expression of members of the Ca2+ and phospholipid-dependent protein kinase (PKC) family were studied in murine Swiss 3T3 cells. In addition to PKC-alpha, the presence of immunoreactive PKC-delta, -epsilon, and zeta was detected. Treatment with 500 nM 12-0-tetradecanoylphorbol-13-acetate (TPA) led to the down-regulation of alpha, delta, and epsilon isoforms, but not that of zeta. Higher concentrations of TPA similarly had no effect on the level of PKC-zeta. In contrast to PKC-alpha, the membrane localization of PKC-delta, -epsilon, and -zeta was not enhanced by extraction in Ca(2+)-containing buffers, whereas acute TPA treatment increased membrane association of PKC-alpha, -delta, and -epsilon but not that of PKC-zeta.
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PMID:Identification of multiple PKC isoforms in Swiss 3T3 cells: differential down-regulation by phorbol ester. 163 59

Abelson murine leukemia virus is an acutely transforming replication-defective virus which encodes a transforming protein with tyrosine-specific protein kinase activity. A variety of benzopyranone and benzothiopyranone derivatives have been identified which selectively inhibit the v-abl tyrosine protein kinase with 50% inhibitory concentrations ranging from 1 to 30 microM. The most active derivative inhibited v-abl with a Ki value of 0.9 microM. Active derivatives showed selectivity for the v-abl tyrosine protein kinase relative to the epidermal growth factor receptor tyrosine protein kinase (50% inhibitory concentration greater than 100 microM). Protein kinase C and protein kinase A, two members of the serine/threonine protein kinase family, were not inhibited by benzopyranones or benzothiopyranones (50% inhibitory concentration greater than 100 microM). Kinetically, a representative derivative (compound 2) showed competitivity with respect to ATP and noncompetitive behavior with respect to the exogenous peptide substrate. Autophosphorylation of p120v-abl and recombinant p70v-abl tyrosine protein kinases were also inhibited by benzopyranones and benzothiopyranones in vitro. When tested in Abelson murine leukemia virus-transformed BALB/c cell, active benzopyranone and benzothiopyranone derivatives inhibited tyrosine phosphorylation of cellular proteins by the v-abl tyrosine protein kinase.
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PMID:Benzopyranones and benzothiopyranones: a class of tyrosine protein kinase inhibitors with selectivity for the v-abl kinase. 164 41

Expression of rat protein kinase C-delta (PKC-delta) and PKC-zeta in insect cells using recombinant baculovirus resulted in the production of proteins with a molecular size of approximately 76 kD and 78 kD, respectively, as determined by immunoblotting with subtype-specific antisera. Although the PKC-zeta cDNA encoded for 592 amino acids, a 76 kD protein was also generated by in vitro transcription/translation. Extracts of cells expressing PKC-delta were able to bind phorbol ester to levels comparable to extracts of cells expressing PKC-alpha. No phorbol ester binding was, however, detected in insect cell extracts expressing PKC-zeta. However, similar levels of protein kinase activity were detected in lysates of cells expressing PKC-delta or PKC-zeta when protamine sulfate was used as exogenous substrate. Compared to protamine sulfate, both, myelin basic protein (MBP) or histone, were poor substrates for PKC-delta and PKC-zeta. In contrast to PKC-zeta, the PKC-delta enzyme activity phosphorylated MBP or histone in a phosphatidylserine-(PS)/diacylglycerol(DG)-dependent manner, albeit not to the same extent as PKC-alpha. Lack of stimulation of the enzyme activity of PKC-zeta by PS/DG, was confirmed by endogenous phosphorylation of insect cell proteins by PKC-zeta, whereas several insect cell proteins were phosphorylated by PKC-delta in a PS/DG-dependent manner, including a protein of 78 kD. Our data demonstrate that the 76 kD PKC-zeta, in contrast to PKC-delta, is unable to bind phorbol esters and displays a protein kinase activity that is independent of PS or PS/DG. In addition, staurosporine was about 2-4 order of magnitudes less effective in inhibiting the protein kinase activities of PKC-delta and PKC-zeta when compared to PKC-alpha.
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PMID:Expression and partial characterization of rat protein kinase C-delta and protein kinase C-zeta in insect cells using recombinant baculovirus. 164 61

Comparison of protein kinase activity in normal and regenerating rat liver nuclei indicates that exogenous histone H1 is hyperphosphorylated in 22-h regenerating nuclei. The protein kinase involved is not sensitive to protein kinase A inhibitor, is inhibited by staurosporine and by an anti-PKC polyclonal antibody, utilizes only ATP, and also phosphorylates the C-terminal fragment of histone H1. These data suggest that protein kinase C is responsible for the observed effects, in agreement with the presence of this enzyme in normal and regenerating nuclei demonstrated by immunoblotting.
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PMID:Nuclear protein kinases in rat liver: evidence for increased histone H1 phosphorylating activity during liver regeneration. 164 25

Essential to signal transduction are mechanisms of "cross-talk" to coordinate different pathways. This study shows that stimulation of serine/threonine protein kinases activates protein-tyrosine phosphatase (PTPase; protein-tyrosine-phosphate phosphohydrolase, EC 3.1.3.48). More than 95% of intracellular PTPase was in the particulate fraction of various cell lines and was extracted with detergent as a 150-kDa complex that contained a 55-kDa catalytic subunit. The complex was activated by protease digestion, which changed its substrate specificity coincident with reduction in size. The complex was dissociated by treatment of the membrane fraction with 3 M LiBr. Treatment of intact cells with isoproterenol, forskolin, or cAMP analogues to stimulate cAMP-dependent protein kinase (PKA) or with phorbol ester or dioctanoylglycerol to stimulate Ca2+/phospholipid-dependent protein kinase (PKC) produced activation of membrane PTPase complex without a change in its size. Inhibition of protein-serine/threonine phosphatases with okadaic acid or fluoride also resulted in activation of the membrane PTPase. These results support a model for regulation of PTPase by phosphorylation and dephosphorylation of serine/threonine residues in a regulatory component complexed with the 55-kDa PTPase catalytic subunit. This mechanism may be important in regulating sensitivity to extracellular signals transduced via tyrosine phosphorylation and in the synchronization of events during the cell cycle.
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PMID:Activation of membrane protein-tyrosine phosphatase involving cAMP- and Ca2+/phospholipid-dependent protein kinases. 165 Apr 78

Lewis lung carcinoma (LLC) clones were used in in vitro models for dissemination to identify mechanisms regulating the stimulation of metastatic LLC-LN7 migration by prostaglandin E2 (PGE2) or forskolin plus 3-isobutyl-I-methylxanthine (IBMX), and the lack of responsiveness to generated cAMP in non-metastatic LLC-C8 cells. The regulatory subunits of protein kinase A (PKA) from LLC-LN7 cells bound more 8-N3-32P-cAMP, even though production of regulatory subunits was equal to that in LLC-C8 cells. Protein kinase C (PKC) differentially regulated PKA activation in the LLC variants. PKC activation inhibited PGE2-stimulated migration by LLC-LN7 cells. Inhibition of PKC with staurosporine stimulated LLC-LN7 cell migration to a level comparable with that induced by PGE2. However, PGE2 did not further stimulate the migration of staurosporine-treated cells. The PGE2 or staurosporine stimulation of LLC-LN7 cell migration was dependent on PKA activation. The effects that modulation of PKA and PKC had on LLC-LN7 cell migration paralleled the effects on endogenous protein phosphorylation. LLC-LN7 cell autophosphorylation was stimulated to a similar degree by PGE2, forskolin plus IMBX, staurosporine, or the combination of staurosporine and forskolin plus IBMX. In contrast, neither migration nor autophosphorylation was stimulated in non-metastatic LLC-C8 cells by cAMP elevation or by PKC inhibition. Autophosphorylation, although not migration, of LLC-C8 cells was stimulated by forskolin plus IBMX when PKC activity was inhibited. These results suggest that the increased PKA response of metastatic LLC-LN7 cells is contributed by an increased binding of cAMP by the PKA regulatory subunits and a reduced level of regulation by PKC.
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PMID:Regulation of protein kinase A activation and prostaglandin E2-stimulated migration of Lewis lung carcinoma clones. 165 7

We obtained a Ca(2+)-independent but 12-O-tetradecanoyl phorbol ester (TPA).phospholipid-activated protein kinase from rat embryo fibroblast 3Y1 cells by succeeding steps of DEAE-cellulose, H-9 affinity, and hydroxylapatite chromatography. This kinase was separated chromatography. This kinase was separated from a conventional PKC (Type III), by H-9 affinity column chromatography. The major peak from H-9 affinity column was eluted at 0.4 M of arginine and on the following step of hydroxylapatite column chromatography, at the KPO4 concentration of 0.1 M. The enzyme could be stimulated by phospholipids and by the tumor promoter TPA, but did not respond to calcium. The Ca(2+)-independent, phospholipid-activated protein kinase activity was susceptible to the protein kinase C inhibitors H-7 and K252a, but showed a phospholipid dependency and substrate specificity distinct from the conventional types of PKC. This protein kinase did not react with monoclonal antibodies against Types I, II, and III PKC. The activity of this enzyme was specifically reduced by immunoprecipitation, depending on the concentration of the polyclonal antibody, PC-delta, which was raised against a peptide synthesized according to a sequence of rat brain nPKC delta. The enzyme had a Mr of 76,000 as estimated by Western blotting. These results provide evidence for a unique type of Ca(2+)-independent, phospholipid-activated kinase, as expressed in 3Y1 cells.
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PMID:Ca(2+)-independent, phospholipid-activated protein kinase in 3Y1 cells. 165 33


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