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)

Cytoskeletal preparation obtained from synaptosome fractions of rat cerebrum contained the activity of kinase C, which phosphorylated 17K Mr protein endogenous to the preparation. The kinase C activity associated with the synaptosome cytoskeletons is greater in the cerebellum and hippocampus than in the cerebrum. The enhancement rates of phosphorylation of the 17K Mr protein were 293%, 544%, and 526% in the Triton X-100-insoluble fractions of synaptosomes prepared from cerebral cortex, hippocampus, and cerebellum, respectively. The 17K Mr protein was distinct from myelin basic protein (MBP) for the following reasons: 1) The electrophoretic mobility of the protein was slightly smaller than that of major MBP of rat in the polyacrylamide gel of 10-20% linear gradient, and the protein was not contained in the purified rat myelin. 2) The isoelectric point of the protein was in neutral range, whereas that of MBP was in alkaline one. 3) The 17K Mr protein did not cross-react with anti-MBP antibody. The protein was shown to be a major substrate contained in the cytoskeletal preparation of synaptosome obtained from cerebrum except for contaminating MBP. Only serine residue of the 17K Mr protein was phosphorylated by the kinase C endogenous to the preparation. The results suggest strongly that the synaptic role of protein kinase C through phosphorylation of the 17K Mr protein.
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PMID:The presence of 17K Mr protein, a major specific substrate for kinase C, found in the triton-insoluble fraction of synaptosome prepared from rat brain. 128 Dec 91

The delta-subspecies of protein kinase C (PKC) was purified to near homogeneity from the Triton X-100 extract of the rat brain particulate fraction by successive chromatographies on S-Sepharose Fast Flow, Phenyl 5PW, Heparin 5PW, hydroxyapatite, and Mono Q columns. The purified enzyme was doublet with molecular weight of 78 kDa and 76 kDa on SDS-PAGE. This doublet proteins were separated partially by Mono Q column chromatography, both of which were recognized by the antibodies raised against synthetic oligopeptides, parts of the deduced amino acid sequence of the rat delta PKC. Protein phosphatase 2A treatment suggested that the 78 kDa protein was a phosphorylated form of the 76 kDa protein. To confirm the structural and genetic identity of the doublet proteins, delta PKC was expressed in COS 7 cells by transfecting its cDNA-constructed plasmid, and was purified for comparison. This recombinant enzyme was also doublet. The enzymes isolated from the brain and COS 7 cells showed identical reactivities with delta PKC-specific antibodies, chromatographic behaviors, and V8 protease peptide mapping. In addition, these the enzyme preparations were indistinguishable from each other in their responses to phosphatidylserine, diacylglycerol, phorbol esters, free fatty acids, and Ca2+. Comparison was also made between the enzymological properties of delta PKC and alpha PKC, such as activation kinetics, sensitivity to protein kinase inhibitors and substrate specificity which were distinctly different from each other.
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PMID:Enzymatic properties of ubiquitously expressed delta-subspecies of protein kinase C differing from other members of protein kinase C family. 129 10

Human platelets undergo a rapid, major reorganization of the cytoskeletal matrix upon exposure to thrombin, and accumulate 3-phosphorylated phosphoinositides in a protein kinase C (PKC)-dependent manner. These phosphoinositides have been suggested to be involved in actin polymerization/depolymerization. We reasoned that, if newly generated 3-phosphorylated phosphoinositide modulates cytoskeletal reorganization, a prerequisite for such action would be generation near cytoskeletal proteins. We have found that, after platelet activation, phosphatidylinositol 3-kinase and phosphatidylinositol(4)P 3-kinase activities, antibody-detectable phosphoinositide 3-kinase, and PKC become markedly and specifically enriched in a Triton X-100-insoluble cytoskeletal fraction that contains GPIIb/IIIa (integrin) and pp60c-src. The cytoskeletal fraction then accounts for up to 70% of total phosphoinositide 3-kinase activity, a function of recruited activated enzyme. These proteins are not occluded or directly associated with newly polymerized actin, since blockage by cytochalasin D of actin polymerization, and consequent inhibition of accumulation of about 40% of incremental protein and actin in this fraction, has no effect on its content of phosphoinositide 3-kinase, GPIIb/IIIa, pp60c-src, or PKC. Depolymerization of actin with DNase I, or inhibition of ligand binding to GPIIb/IIIa by RGDS, however, in combination with cytochalasin D, further depletes actin and significantly decreases sedimentability of GPIIb/IIIa as well as phosphoinositide 3-kinase, pp60c-src, and PKC, without inhibiting total 3-kinase activity. Our results suggest that, as a function of platelet activation, enzymes that regulate the synthesis of 3-phosphorylated phosphoinositides rapidly associate with the membrane skeleton and that skeletally associated phosphoinositide 3-kinase is more active than the Triton-soluble form.
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PMID:Activated phosphoinositide 3-kinase associates with membrane skeleton in thrombin-exposed platelets. 131 17

The myristoylated alanine-rich C kinase substrate, or MARCKS protein, has been implicated in several cellular processes, yet its physiological function remains unknown. We have studied the molecular basis of its membrane association in a cell-free system in order to help elucidate its regulation and function. First, we showed that the MARCKS protein incorporated [3H]myristate when its mRNA was translated in vitro in reticulocyte lysates. The myristoylated protein bound rapidly to freshly fractionated cell membranes, while a nonmyristoylated mutant associated to a much lesser extent (< 15% of wild type). To determine whether this binding was due to a specific cytoplasmic-face protein "receptor," as is seen with pp60v-src, we pretreated the membranes in several ways. Prior treatment of membranes with heat (100 degrees C for 3 min) or trypsin did not affect subsequent MARCKS binding. Binding was markedly decreased in 50 mM EDTA, 0.5 M NaCl, or 1.0% Triton X-100; it was restored to normal after removal of the NaCl and EDTA but was still decreased after removal of the Triton X-100. These findings argued against the existence of a protein receptor for the MARCKS protein on cellular membranes. Finally, MARCKS protein phosphorylated in vitro with protein kinase C bound to the cell membranes to the same extent as the nonphosphorylated protein; this binding was also unaffected by an excess of a synthetic peptide corresponding to the phosphorylation site domain of the protein. We conclude that, at least in this in vitro system, the membrane association of the MARCKS protein is primarily dependent on the amino-terminal myristate moiety and does not appear to involve a specific cytoplasmic-face protein receptor.
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PMID:Membrane association of the myristoylated alanine-rich C kinase substrate (MARCKS) protein appears to involve myristate-dependent binding in the absence of a myristoyl protein receptor. 133 70

The shape changes and membrane ruffling that accompany neutrophil activation are dependent on the assembly and reorganization of the actin cytoskeleton, the molecular basis of which remains to be clarified. A role of protein kinase C (PKC) has been postulated because neutrophil activation, with the attendant shape and membrane ruffling changes, can be initiated by phorbol esters, known activators of PKC. It has become apparent, however, that multiple isoforms of PKC with differing substrate specificities exist. To reassess the role of PKC in cytoskeletal reorganization, we compared the effects of diacylglycerol analogs and of PKC antagonists on kinase activity and on actin assembly in human neutrophils. Ruffling of the plasma membrane was assessed by scanning EM, and spatial redistribution of filamentous (F)-actin was assessed by scanning confocal microscopy. Staining with NBD-phallacidin and incorporation of actin into the Triton X-100-insoluble ("cytoskeletal") fraction were used to quantify the formation of (F)-actin. [32P]ATP was used to detect protein phosphorylation in electroporated cells. Exposure of neutrophils to 4 beta-PMA (an activator of PKC) induced protein phosphorylation, membrane ruffling, and assembly and reorganization of the actin cytoskeleton, whereas the 4a-isomer, which is inactive towards PKC, failed to produce any of these changes. Moreover, 1,2-dioctanoylglycerol, mezerein, and 3-(N-acetylamino)-5-(N-decyl-N-methylamino)-benzyl alcohol, which are nonphorbol activators of PKC, also promoted actin assembly. Although these effects were consistent with a role of PKC, the following observations suggested that stimulation of conventional isoforms of the kinase were not directly responsible for actin assembly: (a) Okadaic acid, an inhibitor of phosphatases 1 and 2A, potentiated PMA-induced protein phosphorylation, but not actin assembly; and (b) PMA-induced actin assembly and membrane ruffling were not prevented by the conventional PKC inhibitors 1-(5-isoquinolinesulfonyl)-2-methylpiperazine, staurosporine, calphostin C, or sphingosine at concentrations that precluded PMA-induced protein phosphorylation and superoxide production. On the other hand, PMA-induced actin assembly was inhibited by long-chain fatty acid coenzyme A esters, known inhibitors of nuclear PKC (nPKC). We conclude that PMA-induced actin assembly is unlikely to be mediated by the conventional isoforms of PKC, but may be mediated by novel isoforms of the kinase such as nPKC.
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PMID:Phorbol ester-induced actin assembly in neutrophils: role of protein kinase C. 137 Apr 99

It has been suggested that phosphorylation of myelin basic protein (MBP) in CNS is catalyzed by protein kinase C (PKC). In order to demonstrate that PKC in the myelin phosphorylates MBP, PKC was partially purified from rat CNS myelin by solubilization with Triton X-100 followed by a DEAE-cellulose column. MBP and histone III-S were phosphorylated in the presence of Ca2+ and phospholipid by rat myelin PKC. High voltage electrophoresis revealed that the phosphoamino acids in MBP by this kinase was serine residue, which is known to be the amino acid phosphorylated by PKC. The activity of PKC extracted from myelin was inhibited by the addition of psychosine to the incubation mixture. To confirm the presence of PKC molecule and to identify the isoform of PKC in the myelin, the solubilized myelin fraction was applied on SDS-PAGE, transferred to a nitrocellulose sheet and stained with anti-PKC monoclonal antibodies. Rat CNS myelin contained the PKC of about 80 kDa (intact PKC), and no proteolytic fragments were observed. PKC isozymes in myelin were type II and III. A developmental study from 14 to 42 postnatal days showed that PKC activity in CNS myelin seemed to parallel the deposition of myelin protein.
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PMID:Protein kinase C in rat brain myelin. 138 Jun 75

Using a PKC-epsilon cDNA probe a cDNA for PKC-eta has been cloned from a rat lung cDNA library. When expressed in COS cells, rat PKC-eta appeared as an 84 kDa protein. PKC-eta expressed in COS cells, was solubilized by 1% Triton X-100 and purified away from the endogenous PKC-alpha by ammonium sulphate fractionation. The activity of this PKC-eta preparation was characterized with respect to cofactor dependence and substrate specificity. Various PKC pseudosubstrate peptides are phosphorylated by PKC-eta in a phospholipid and TPA-dependent but calcium-independent manner. The polypeptide histone IIIS is a poor substrate.
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PMID:Biochemical properties of rat protein kinase C-eta expressed in COS cells. 142 52

Sphingosine inhibits protein kinase C activity in vitro and has been used to implicate this enzyme in signal transduction and cell function. We report that sphingosine directly inhibits phospholipases A2 and D. Sphingosine inhibits Ca(2+)-dependent phospholipases A2 from Naja naja, porcine pancreas, Crotalus adamanteus, human disc and neutrophil in a dose-dependent manner with IC50 values ranging from 5-40 microM using [1-14C]oleate-labelled autoclaved E. coli (20 microM) as substrate. Inhibition is comparable using the same concentrations (20 microM) of [1-14C]oleate-labelled C. albicans or E. coli, or aqueous dispersions of 1-acyl-2-[1-14C]linoleoylglycerophosphoethanolamine or -choline. Sphinganine and stearylamine are as inhibitory as sphingosine; monoolein is less inhibitory (IC50 = 70 microM), while octylamine, N-acetylsphingosine, sphingomyelin and ceramide have no effect. Inhibition is relieved by increasing concentrations of substrate phospholipid. The molar ratio of sphingosine to phospholipid required for 50% inhibition ranges from 0.5 to 1.0 with 2-100 microM E. coli phospholipid. In contrast, sphingosine has a biphasic effect on the hydrolysis of E. coli by S. chromofuscus phospholipase D; concentrations less than or equal to 25 microM stimulate activity while concentrations greater than 25 microM are inhibitory. Addition of Triton X-100 eliminates both the stimulatory and inhibitory effects of sphingosine on phospholipase D activity.
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PMID:Sphingolipid metabolism and signal transduction: inhibition of in vitro phospholipase activity by sphingosine. 150 2

To study signal transduction directed towards the cell nucleus and at the nuclear membranes, we investigated the association of protein kinase C (PKC) with nuclear membranes obtained from nuclei isolated from bovine brain. By use of phorbol-ester-binding assays, significant amounts of PKC could be demonstrated in nuclei and nuclear membranes. Nuclear membranes are shown to be able to activate purified PKC. The PKC endogenously present in nuclear membranes appears to be a so-called 'membrane-inserted' form: it is permanently active, still binds phorbol ester, but its activity is no longer dependent on Ca2+ and cannot be activated by phorbol ester. On the other hand, this form of PKC can be inhibited by specific PKC inhibitors. By using histone HIIIS and a specific peptide substrate, it could be shown that after extraction with Triton X-100 the PKC can be stimulated by phospholipid again. Immunoblot analysis with isoenzyme-specific antibodies revealed that the alpha- and gamma-isoenzymes, but not the beta-isoenzyme, are associated with membranes derived from brain nuclei.
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PMID:Properties of protein kinase C associated with nuclear membranes. 153 May 69

The delta-subspecies of protein kinase C (delta PKC) was purified to near homogeneity from the Triton X-100 extract of the rat brain particulate fraction by successive chromatographies on S-Sepharose fast flow, phenyl 5PW, heparin 5PW, hydroxyapatite, and Mono Q columns. The purified enzyme was a doublet with molecular masses of 78 and 76 kDa on SDS/PAGE. The doublet proteins were separated partially by Mono Q column chromatography; both were recognized by the antibodies raised against synthetic oligopeptides, parts of the deduced amino acid sequence of the rat delta PKC. Protein phosphatase 2A treatment suggested that the 78-kDa protein was a phosphorylated form of the 76-kDa protein. To confirm the structural and genetic identity of the doublet proteins, delta PKC was expressed in COS 7 cells by transfecting its cDNA-constructed plasmid and was purified for comparison. This recombinant enzyme was also a doublet. The enzymes isolated from the brain and COS 7 cells showed identical reactivities with delta PKC-specific antibodies, chromatographic behaviors, and V8 protease peptide mappings. In addition, these two enzyme preparations were indistinguishable from each other in their responses to phosphatidylserine, diacylglycerol, phorbol esters, free fatty acids, Ca2+, and enzyme inhibitors. Comparison was also made between the enzymologic properties of delta PKC and alpha PKC, which were distinctly different from each other.
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PMID:Isolation and characterization of delta-subspecies of protein kinase C from rat brain. 154 50


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