EC:2.7.11.13 - FACTA Search

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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)

Twelve independent isolates of avian sarcoma viruses (ASVs) can be divided into four groups according to the transforming genes harbored in the viral genomes. The first group is represented by viruses containing the transforming sequence, src, inserted in the viral genome as an independent gene; the other three groups of viruses contain transforming genes fps, yes or ros fused to various length of the truncated structural gene gag. These transforming sequences have been obtained by avian retroviruses from chicken cellular DNA by recombination. The src-containing viruses code for an independent polypeptide, p60src; and the representative fps, yes and ros-containing ASVs code for P140/130gag-fps, P90gag-yes and P68gag-ros fusion polypeptides respectively. All of these transforming proteins are associated with the tyrosine-specific protein kinase activity capable of autophosphorylation and phosphorylating certain foreign substrates. p60src and P68gag-ros are integral cellular membrane proteins and P140/130gag-fps and P90gag-yes are only loosely associated with the plasma membrane. Cells transformed by ASVs contain many newly phosphorylated proteins and in most cases have an elevated level of total phosphotyrosine. However, no definitive correlation between phosphorylation of a particular substrate and transformation has been established except that a marked increase of the tyrosine phosphorylation of a 34,000 to 37,000 dalton protein is observed in most ASV transformed cells. The kinase activity of ASV transforming proteins appears to be essential, but not sufficient for transformation. The N-terminal domain of p60src required for myristylation and membrane binding is also crucial for transformation. By contrast, the gag portion of the FSV P130gag-fps is dispensable for in vitro transformation and removal of it has only an attenuating effect on in vivo tumorigenicity. The products of cellular src, fps and yes proto-oncogenes have been identified and shown to also have tyrosine-specific protein kinase activity. The transforming potential of c-src and c-fps has been studied and shown that certain structural changes are necessary to convert them into transforming genes. Among the cellular proto-oncogenes related to the four ASV transforming genes, c-ros most likely codes for a growth factor receptor-like molecule. It is possible that the oncogene products of ASVs act through certain membrane receptor(s) or enzyme(s), such as protein kinase C, in the process of cell transformation.
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PMID:Avian sarcoma viruses. 283 47

The binding of growth factors to the cellular receptors elicits the phosphorylation of proteins which transmit growth signals to the nucleus [E. Rozengurt (1986) Science 234, 161-166]. Both the tyrosine-specific kinase (growth factor receptor) and the threonine-serine phosphorylating protein kinase C (pkC) become activated upon binding of the epidermal growth factor (EGF) to its receptor. Here we describe the selective inhibition of the pkC activation by tricyclodecane-9-yl-xanthogenate (D609) in the presence of unsuppressed receptor tyrosine autophosphorylation. As a consequence the affinity of EGF to the receptor was not down-regulated and the complex failed to be internalized.
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PMID:Interruption of growth signal transduction by an antiviral and antitumoral xanthate compound. 283 51

The phosphorylation of DNA topoisomerase II in Drosophila Kc tissue culture cells was characterized by in vivo labeling studies and in vitro studies that examined the modification of exogenous enzyme in total homogenates of these embryonic cells. Several lines of evidence identified casein kinase II as the kinase primarily responsible for phosphorylating DNA topoisomerase II. First, the only amino acyl residue modified in the enzyme was serine. Second, partial proteolytic maps of topoisomerase II which had been labeled with [32P]phosphate by Drosophila cells in vivo, by cell homogenates in vitro, or by purified casein kinase II were indistinguishable from one another. Third, phosphorylation in cell homogenates was inhibited by micrograms/ml concentrations of heparin, micromolar concentrations of nonradioactive GTP, or anti-Drosophila casein kinase II antiserum. Fourth, cell homogenates were able to employ [gamma-32P]GTP as a phosphate donor nearly as well as [gamma-32P]ATP. Although topoisomerase II was phosphorylated in homogenates under conditions that specifically stimulate protein kinase C, calcium/calmodulin-dependent protein kinase, or cAMP-dependent protein kinase, modification was always sensitive to anti-casein kinase II antiserum or heparin. Thus, under a variety of conditions, topoisomerase II appears to be phosphorylated primarily by casein kinase II in the Drosophila embryonic Kc cell system.
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PMID:Phosphorylation of DNA topoisomerase II in vivo and in total homogenates of Drosophila Kc cells. The role of casein kinase II. 284 38

The phosphorylation of histone by purified protein kinase C (PK-C) from rat brain is dependent on the presence of Ca2+ and lipids. Phosphorylation of a synthetic random polymer of arginine and serine (3:1) is only moderately enhanced by Ca2+ and lipids, but it is greatly enhanced in the absence of Ca2+ and lipids by a contaminant in crystalline bovine serum albumin or by heated cellular fractions. The phosphorylation ratio of histone to poly(arginine,serine) varies between different PK-C fractions from brains of rat, pig, or lamb. These variations are partly caused by a PK-C isozyme that prefers poly(arginine,serine) over histone as substrate. The kinase activator (KA) was partly purified from bovine serum albumin and from extracts of plasma membranes of human placenta. KA is also present in mitochondria, nuclei, and the cytosol. Sulfates and phosphates at 10 mM substitute for KA with poly(arginine,serine) as substrate. The phosphorylation of histone III in the presence of Ca2+ and lipids is moderately stimulated by KA, but the phosphorylation of lamin B and some other endogenous proteins is greatly enhanced by KA. With histones as substrates, inorganic anions do not stimulate phosphorylation. The phosphorylation of poly-(arginine,serine) is very sensitive to low concentrations of staurosporin and is inhibited by PK-C antibody, but, in contrast to histone phosphorylation, it is resistant to sphingosine and polymyxin B. The poly(arginine,serine) phosphorylating activity is more stable at 4 degrees C than the histone phosphorylating activity, but the latter is stabilized by 0.05% Triton X-100.
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PMID:Brain protein kinase C phosphorylating poly(arginine,serine) or lamin B is stimulated by anions and by an activator purified from bovine serum albumin preparations. 292 1

We have used the hippocampal slice preparation to investigate the regulation of protein tyrosine phosphorylation in brain. After pharmacological treatment of intact slices, proteins were separated by electrophoresis, and levels of protein tyrosine phosphorylation were assessed by immunoblotting with specific anti-phosphotyrosine antibodies. Phorbol esters, activators of the serine- and threonine-phosphorylating enzyme protein kinase C, selectively increase tyrosine phosphorylation of a soluble protein with an apparent molecular mass of approximately 40 kilodaltons. Muscarinic agonists such as carbachol and oxotremorine M that strongly activate the inositol phospholipid system also increase tyrosine phosphorylation of this protein. Neurotransmitter activation of the inositol phospholipid system and protein kinase C appears to trigger a cascade leading to increased tyrosine phosphorylation.
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PMID:Muscarinic agonists and phorbol esters increase tyrosine phosphorylation of a 40-kilodalton protein in hippocampal slices. 292 46

A radioimmunoassay (RIA) for the B-50 protein was developed to determine B-50 in total homogenates of rat tissues. A tracer of purified B-50 was prepared at high activity (10-30 microCi/micrograms protein) by phosphorylating B-50 with carrier-free [gamma-32P]ATP, catalyzed by purified protein kinase C. The RIA was performed using affinity-purified anti-B-50 immunoglobulins G in a detergent containing medium and detected B-50 at levels of 0.1-10 ng. Specificity of the antibodies was ascertained by immunoprecipitation of B-50 from a crude mitochondrial membrane fraction from rat brain and by immunoblotting. For the B-50 content in rat brain the following distribution pattern was found: medulla spinalis less than cerebellum less than hippocampus; cerebral cortex less than periaqueductal gray less than septum. The septum contained 80 micrograms/g tissue weight. The level in liver homogenates was below detection. The regional distribution is in fair agreement with the pattern of the endogenous B-50 phosphorylation in rat brain synaptosomal plasma membranes previously reported.
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PMID:A radioimmunoassay for the phosphoprotein B-50: distribution in rat brain. 293 82

The receptor for epidermal growth factor (EGF) is a glycosylated transmembrane phosphoprotein that exhibits EGF-stimulable protein tyrosine kinase activity. On EGF stimulation, the receptor undergoes a self-phosphorylation reaction at tyrosine residues located primarily in the extreme carboxyl-terminal region of the protein. Using enzymatically active EGF receptor purified by immunoaffinity chromatography from A431 human epidermoid carcinoma cells, the self-phosphorylation reaction has been characterized as a rapid, intramolecular process which is maximal at 30-37 degrees C and exhibits a very low Km for ATP (0.2 microM). When phosphorylation of exogenous peptide substrates was measured as a function of receptor self-phosphorylation, tyrosine kinase activity was found to be enhanced two to threefold at 1-2 mol of phosphate per mol of receptor. Analysis of the dependence of the tyrosine kinase activity on ATP concentration yielded hyperbolic kinetics when plotted in double-reciprocal fashion, indicating that ATP can serve as an activator of the enzyme. Higher concentrations of peptide substrates were found to inhibit both the self- and peptide phosphorylation, but this inhibition could be overcome by first self-phosphorylating the enzyme. These results suggest that self-phosphorylation can remove a competitive/inhibitory constraint so that certain exogenous substrates can have greater access to the enzyme active site. In addition to self-phosphorylation, the EGF receptor can be phosphorylated on threonine residues by the calcium- and phospholipid-dependent protein kinase C. The sites on the EGF receptor phosphorylated in vitro by protein kinase C are identical to the sites phosphorylated on the receptor isolated from A431 cells exposed to the tumor promoters 12-O-tetradecanoylphorbol 13-acetate or teleocidin. This phosphorylation of the EGF receptor results in a suppression of its tyrosine kinase and EGF binding activities both in vivo and in vitro. The EGF receptor can thus be variably regulated by phosphorylation: self-phosphorylation can enhance tyrosine kinase activity whereas protein kinase C-catalyzed phosphorylation can depress enzyme activity. Because these two phosphorylations account for only a fraction of the phosphate present in the EGF receptor in vivo, other protein kinases can apparently phosphorylate the receptor and these may exert additional controls on EGF receptor/kinase function.
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PMID:Regulation of the epidermal growth factor receptor by phosphorylation. 300 Nov 10

Protein kinase C and its associated phorbol myristate acetate receptor moved from cytosol to membranes in human neutrophils stimulated with direct activators of the kinase, calcium ionophores, or chemotactic peptides. However, the peptides acted only in the presence of cytochalasin B and neither platelet-activating factor nor leukotriene B4 (+/- cyclochalasin B) induced this movement. Thus, protein kinase C appears variably involved in neutrophil responses: physiological agents may bypass or depend minimally upon the phosphorylating enzyme to elicit function.
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PMID:Stimulus-dependent mobilization of protein kinase C. 300 55

Interleukin 2 (IL 2) stimulated DNA synthesis of murine T lymphocytes (CT6) in a concentration-dependent manner, over a range of 1-1000 units/ml. This proliferative effect of IL 2 was attenuated by simultaneous exposure to prostaglandin E2 (PGE)2. In intact cells, IL 2 inhibited both basal and PGE2-stimulated cAMP production; the amount of cAMP generated was dependent upon the relative concentrations of IL 2 and PGE2. The effect of IL 2 on CT6 cell proliferation and cAMP production was mimicked by the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA), which, like IL 2, causes a translocation and activation of protein kinase C. While PGE2 stimulated adenylate cyclase activity in membrane preparations, neither IL 2 nor TPA inhibited either basal or stimulated membrane adenylate cyclase activity. However, when CT6 cells were pretreated with IL 2 or TPA and membranes incubated with calcium and ATP, both basal and PGE2-and NaF-stimulated membrane adenylate cyclase activity was inhibited. This inhibition of adenylate cyclase activity was also observed if membranes from untreated cells were incubated with protein kinase C purified from CT6 lymphocytes in the presence of calcium and ATP. The data suggest that the decreased cAMP production which accompanies CT6 cell proliferation results from an inhibition of adenylate cyclase activity mediated by protein kinase C and that these two distinct protein phosphorylating systems interact to modulate the physiological response to IL 2.
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PMID:Interleukin 2 modulation of adenylate cyclase. Potential role of protein kinase C. 300 78

Phorbols stimulated 32P incorporation into several proteins in mouse thyroid lobes. Phosphoproteins (34 K and 23 K) were detected by SDS-polyacrylamide gel electrophoresis and autoradiography. Among phorbols tested, 12-O-tetradecanoyl-phorbol-13-acetate (TPA) was the strongest stimulator of protein phosphorylation. On the other hand, TPA at 50-200 ng/ml significantly stimulated free T3 release by mouse thyroid lobes. The stimulatory effect of TPA was not additive to that of TPA or dibutyryl cAMP. TSH stimulation of free T3 release by mouse thyroid lobes, however, was significantly inhibited by H-7 (an inhibitor of protein kinase C) at a concentration of 50 microM. These results suggest that protein kinase C may play some role in thyroid hormone secretion by phosphorylating the endogenous substrates.
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PMID:Effects of phorbol esters on protein phosphorylation and free T3 release by mouse thyroid lobes. 301 36

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