EC:2.7.11.1 - FACTA Search

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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)

Neurocatin, a neuroregulatory factor isolated from mammalian brain, is a powerful affector of dopamine synthesis in striatal rat synaptosomes. Incubation of intact synaptosomes with neurocatin caused an increase in the rate of dopamine synthesis measured by accumulation of DOPA. The increase is rapid (within two minutes) and dependent on the concentration of added neurocatin. The stimulatory effect of neurocatin on dopamine synthesis occurred only in intact synaptosomes and was almost completely abolished by lysis of the synaptosomes with Triton X-100 or sonification prior to neurocatin addition. The kinetic parameters of tyrosine hydroxylase were measured in lysates prepared from synaptosomes preincubated with neurocatin. These showed that with increasing neurocatin concentration there was an increase in Vmax with no significant change in KM for the pteridine cofactor, compared to control. Activation of tyrosine hydroxylase by neurocatin is at least partially caused by a receptor mediated increase in phosphorylation of the enzyme. Protein kinase C and protein kinase II may be involved in this process.
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PMID:Activation of striatal tyrosine hydroxylase by neurocatin, a neuroregulator from mammalian brain. 135 63

Nitric oxide (NO) is an important molecular messenger accounting for endothelial-derived relaxing activity in blood vessels, mediating cytotoxic actions of macrophages, and functioning as a neurotransmitter in the brain and periphery. NO synthase (NOS) from brain has been purified to homogeneity and molecularly cloned. We now report that NOS is stoichiometrically phosphorylated by cAMP dependent protein kinase, protein kinase C, and calcium/calmodulin-dependent protein kinase, with each kinase phosphorylating a different serine site on NOS. Activation of PKC in transfected cells reduces NOS enzyme activity by approximately 77% in intact cells and by 50% in protein homogenates from these cells. Utilizing fluorescence spectroscopy we find that purified monomer NOS contains 1 molar equivalent of both FMN and FAD. This stoichiometry is supported by enzymatic digestion of the flavins with phosphodiesterase, and titration of the FMN with a specific FMN binding protein. We demonstrate that purified NOS is labeled by a photoaffinity derivative of calmodulin. These recognition sites on NOS provide multiple means for regulation of NO levels and "cross-talk" between second messenger systems.
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PMID:Nitric oxide synthase regulatory sites. Phosphorylation by cyclic AMP-dependent protein kinase, protein kinase C, and calcium/calmodulin protein kinase; identification of flavin and calmodulin binding sites. 137 33

The light-activated protein kinase C inhibitor, calphostin C, is shown to inhibit the ability of IL-3-dependent 32D cells to reduce the tetrazolium salt, MTT. To determine whether this inhibition was mediated through mitochondria which have been implicated in MTT reduction, isolated mitochondria were treated with calphostin C in the presence of various substrates for mitochondrial electron transport and EDTA (to exclude PKC involvement). Calphostin C extensively inhibited succinate-dependent MTT reduction (IC50 = 110nM) but had little effect on either NADH- or NADPH-dependent MTT reduction. An alternative protein kinase C inhibitor, H7, did not affect succinate-dependent mitochondrial MTT reduction, and the protein kinase A inhibitor, KT5720, had little effect on either cellular or mitochondrial MTT reduction. These results show that in addition to its role as a PKC inhibitor, calphostin C is also a potent inhibitor of succinate-dependent mitochondrial electron transport.
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PMID:The protein kinase C inhibitor, calphostin C, inhibits succinate-dependent mitochondrial reduction of MTT by a mechanism that does not involve protein kinase C. 137 66

Protein kinase C (PKC) was implicated as an important positive regulator of angio-genesis by studies showing that tumor promoting phorbol esters, which activate PKC, stimulate angiogenesis both in vitro and in vivo. Therefore, inhibitors of PKC might be expected to block angiogenesis. MDL 27032 [4-propyl-5-(4-pyridinyl)-2(3H)-oxazolone], an inhibitor of cellular protein kinases, prevented capillary-like tube formation by human umbilical vein endothelial cells (HUVEC) on basement membrane preparations, an in vitro model for angiogenic activity. MDL 27032 had an IC50 = 50 microM, whereas MDL 27044, the 4-methyl analog of MDL 27032, was less effective (IC50 greater than 100 microM). This selectivity was reflected in the relative abilities of the two compounds to inhibit PKC and protein kinase A (PKA) activity prepared from HUVEC, and also to inhibit the basic fibroblast growth factor stimulated proliferation of HUVEC. MDL 27032 (0.3 microgram/egg) also significantly inhibited neovascularization in yolk sac membranes of developing chick embryos, whereas MDL 27044 added at concentrations up to 3 micrograms/egg was not inhibitory when compared with vehicle treated controls. Adhesion of HUVEC to individual extracellular matrix proteins, including laminin, fibronectin, and fibrinogen, but not to the mixture of matrix components or collagen type I and IV, was inhibited after treatment with MDL 27032. These studies suggest that MDL 27032, may have potential as an anti-angiogenic agent because it disrupts both formation of tube-like structures by HUVEC on Matrigel and normal neovascularization in ovo. This inhibition may in part be due to altered cellular interactions with the extracellular matrix.
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PMID:Inhibition of angiogenesis in vitro and in ovo with an inhibitor of cellular protein kinases, MDL 27032. 138 May 11

The ability of human tumor necrosis factor-alpha (TNF-alpha) and human granulocyte colony stimulating factor (G-CSF) to induce phosphorylation of protein tyrosyl residues in human peripheral neutrophils (PMN) was investigated by Western blot analysis with antiphosphotyrosine antibody. Both TNF-alpha and G-CSF increased the tyrosyl phosphorylation of various proteins, such as species of 54-, 63-, 72-, 83-, 98-, 108-, and 115-kDa proteins. The ligand-stimulated tyrosyl phosphorylation of the 115-kDa protein was time- and concentration-dependent. When the 115-kDa protein was phosphorylated, it was recovered from membrane fractions. The phosphorylation of the 115-kDa protein was inhibited by genistein and alpha-cyano-3-ethoxy-4-hydroxy-5-phenylthiomethylcinnamamide (ST 638), inhibitors of tyrosine kinase (TK), and was enhanced by 1-(5-isoquinoline-sulfonyl) methyl-piperazine dihydrochloride (H-7) and staurosporine, inhibitors of Ca(2+)- and phospholipid-dependent protein kinase (PKC). Similar inhibition by the TK inhibitors and stimulation by the PKC inhibitors were also observed with formylmethionyl-leucyl-phenylalanine (FMLP)-induced superoxide (O2.-) generation by TNF-alpha- or G-CSF-primed PMN. Phosphorylation of the 115-kDa protein occurred in parallel with the ligand-dependent generation of O2.-. These and other observations suggested that substrate proteins for tyrosine kinase, such as the 115-kDa protein, might play critical roles in the mechanism for priming of neutrophils. This is the first report describing that tyrosyl phosphorylation is involved in the priming of neutrophils by G-CSF and TNF-alpha.
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PMID:Role of tyrosyl phosphorylation in neutrophil priming by tumor necrosis factor-alpha and granulocyte colony stimulating factor. 138 35

Upon stimulation by various ligands, freshly isolated human peripheral neutrophils (PMN) respond in a variety of ways, such as superoxide (O2-.) generation, phagocytosis enzyme release, migration etc. Chemotactic peptide formylmethionyl-leucyl-phenylalanine (FMLP) and opsonized zymosan activate neutrophils by a receptor-mediated mechanism, while phorbol myristate acetate and dioctanoylglycerol activate the cells by a mechanism involving Ca(2+)-and phospholipid-dependent protein kinase (PKC). Receptor-mediated but not PKC-mediated O2-. generation in PMN was enhanced by the priming of recombinant human granulocyte colony stimulating factor (G-CSF). FMLP-dependent luminol chemiluminescence was also enhanced by G-CSF. However, no appreciable enhancement was observed in FMLP-induced intracellular calcium ion concentration ([Ca2+]i). Enhancement of FMLP-induced generation of O2-. by G-CSF was inhibited by genistein or alpha-cyano-3-ethoxy-4-hydroxy-5-phenylthiomethylcinnamamide (ST 638), inhibitors of tyrosine kinase (TK), and was stimulated by staurosporine and 1-(5-isoquinolinesulfonyl)-3-methyl-piperazine (H-7), inhibitors of PKC. The ED50 values of genistein and ST 638 for the inhibition of the FMLP-induced O2-. generation from G-CSF were 0.5 and 5 microM, respectively. In contrast, O2-. generation by PKC activation without G-CSF priming was inhibited by stauroporine and H-7, but was stimulated by genistein and ST 638. These results suggested that the enhancing effect of G-CSF on receptor-mediated generation of the O2-. might be regulated by protein kinases, such as TK and PKC, and that the TK inhibitor selectively inhibited the G-CSF-primed receptor-mediated O2-. generation of neutrophils.
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PMID:Neutrophil priming by granulocyte colony stimulating factor and its modulation by protein kinase inhibitors. 138 97

Signal transduction in the nervous system is heavily dependent on the three multifunctional serine/threonine protein kinases, PKA, PKC, and CaM-KII. Recent studies have furthered our understanding of how the multiple isoforms of these kinases and their subcellular localizations, regulatory properties, and substrate determinants are important for the specificity of kinase functions.
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PMID:Serine/threonine protein kinases. 138 43

Thrombin, the key regulatory protein of hemostasis, is a potent stimulus for endothelial cell activation, a process implicated in a variety of ischemic, thrombotic, and inflammatory vascular disorders. Activation of the thrombin receptor requires a novel mechanism of receptor proteolysis generating a tethered receptor ligand. Synthetic peptides whose sequences are identical to this newly exposed receptor NH2-terminus reproduce thrombin effects on human and bovine endothelial cell activation. Receptor cleavage by catalytically active alpha-thrombin is tightly coupled to a PI-PLC, with resultant generation of IP3 and DAG, increases in [Ca2+]i, and translocation of PKC (Fig. 3). Both the increase in [Ca2+]i and PKC activation are required for thrombin-stimulated PLA2 and PLD activity, PGI2 synthesis, and barrier dysfunction, the latter occurring as the result of Ca2+ and PKC effects on specific cytoskeletal protein elements and other contractile proteins (Fig. 3). Further investigations are ongoing to identify more clearly not only the precise biochemical intermediates involved in the endothelial cell response to thrombin but also the specific protein kinase systems involved in thrombin-mediated signal transduction in vascular endothelium.
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PMID:Molecular mechanisms of thrombin-induced human and bovine endothelial cell activation. 140 26

We have investigated the role of protracted phosphatase inhibition and the consecutive protracted protein phosphorylation on neuronal viability. We found that in primary cultures of cerebellar granule neurons, the protracted (24-h) inhibition of the serine/threonine protein phosphatases 1 and 2A (EC 3.1.3.16) by treatment of the cultures with okadaic acid (OKA; 5-20 nM) caused neurotoxicity that could be inhibited by the protein kinase inhibitor 1-(5-isoquinolinylsulfonyl)-2-methylpiperazine (H7) or by the previous down-regulation of the neuronal protein kinase C (PKC; ATP:protein phosphotransferase; EC 2.7.1.37). PKC was down-regulated by exposure of the cultures for 24 h to 100 nM phorbol 12-myristate 13-acetate (TPA). The effect of the drugs used in the viability studies on the pattern of protein phosphorylation was measured by quantitative autoradiography. In particular, the 50- and 80-kDa protein bands showed dramatic changes in the degree of phosphorylation: increase by OKA and brief TPA treatment; decrease by H7 or 24 h of TPA treatment; and inhibition of the OKA-induced increase by H7 or 24 h of TPA treatment. The results suggest that the protracted phosphorylation, in particular that mediated by PKC, may lead to neuronal death and are in line with our previous suggestion that prolonged PKC translocation is operative in glutamate neurotoxicity.
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PMID:Pathological phosphorylation causes neuronal death: effect of okadaic acid in primary culture of cerebellar granule cells. 140 5

The primary mechanism of regulation of smooth muscle contraction involves the phosphorylation of myosin catalyzed by Ca2+/calmodulin-dependent myosin light chain kinase. However, additional mechanisms, both Ca(2+)-dependent and Ca(2+)-independent, can modulate the contractile state of smooth muscle. Protein kinase C was first implicated in the regulation of smooth muscle contraction with the observation that phorbol esters induce slowly developing, sustained contractions. Protein kinase C occurs in at least four Ca(2+)-dependent (alpha, beta I, beta II, and gamma) and four Ca(2+)-independent (delta, epsilon, zeta, and eta) isoenzymes. Only the alpha, beta, epsilon, and zeta isoenzymes have been identified in smooth muscle. Both classes of isoenzymes have been implicated in the regulation of smooth muscle contraction. However, the physiologically important protein substrates of protein kinase C have not yet been identified. Specific isoenzymes may be activated by different contractile agonists, and individual isoenzymes exhibit some degree of substrate specificity. Prolonged activation of protein kinase C can result in its proteolysis to the constitutively active catalytic fragment protein kinase M, which would dissociate from the sarcolemma and phosphorylate proteins such as myosin that are inaccessible to membrane-bound protein kinase C. Protein kinase M induces relaxation of demembranated smooth muscle fibers contracted at submaximal Ca2+ concentrations. We suggest that protein kinase C plays two distinct roles in regulating smooth muscle contractility. Stimuli triggering phosphoinositide turnover or phosphatidylcholine hydrolysis induce translocation of protein kinase C (probably specific isoenzymes) to the sarcolemma, phosphorylation of protein, and a slow contraction. Prolonged association of the kinase with the membrane may lead to proteolysis and release into the cytosol of protein kinase M, resulting in myosin phosphorylation and relaxation.
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PMID:Protein kinase C of smooth muscle. 142 8

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