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)

In the terminal stages of exocytosis from permeabilised mast cells, ATP has a number of modulatory actions, although its presence (and by implication, phosphorylation) is not obligatory for secretion to occur. These effects include (1) the enhancement of the sensitivity to both of the essential effectors (Ca2+ and guanine nucleotide); (2) the maintenance of the responsiveness of permeabilised cells; (3) restoration of responsiveness to cells rendered refractory by previous permeabilisation, and (4) induction of delays in the onset of exocytosis from permeabilised cells. We define the modulatory reactions induced by ATP by characterising their specificity to other potential phosphorylating nucleotides and their requirement for Mg2+. GTP and AppNHp are without effect in any of the modulatory actions. ATP, ATP-gamma-S, ITP, XTP, CTP and UTP all appear to support an enhancement of the sensitivity to GTP-gamma-S when applied immediately at the time of permeabilisation. However, the non-adenine nucleoside triphosphates appear to mediate their effect by transphosphorylation to ADP, and therefore the active species appears to be ATP. Only ATP is capable of maintaining and restoring responsiveness (2 and 3 above). Only ATP and ATP-gamma-S induce onset delays and do so moreover in the absence (less than 10(-8) M) of Mg2+. We conclude that three of the modulatory effects (1, 2 and 3 above) which all express a requirement for Mg2+, and can be prevented by inhibitors of protein kinase C are likely to result from phosphorylation reactions. The induction of delays by ATP is unlikely to incur phosphorylation.
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PMID:Modulation of the exocytotic reaction of permeabilised rat mast cells by ATP, other nucleotides and Mg2+. 191 82

The possibility that protein kinase C is involved in phototransduction by phosphorylating rhodopsin was explored in situ and in vitro. Pretreatment of intact retinas with phorbol myristate acetate markedly increased the light-dependent phosphorylation of rhodopsin, with the greatest effects observed at lower light levels. Phorbol myristate acetate treatment did not affect rhodopsin phosphorylation in retinas not exposed to light, suggesting that protein kinase C modulates the phosphorylation state of rhodopsin in a light-dependent manner. Limited proteolysis of rhodopsin phosphorylated in situ indicates that protein kinase C modifies rhodopsin on a domain distinct from that recognized by rhodopsin kinase. In vitro, protein kinase C purified from bovine retinas phosphorylated unbleached and bleached rhodopsin. Our results are consistent with protein kinase C phosphorylating unbleached rhodopsin in response to low light, suggesting that protein kinase C plays a role in light adaptation.
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PMID:Involvement of protein kinase C in the phosphorylation of rhodopsin. 191 16

Estradiol receptors are discovered in nuclei, cytoplasm and plasmatic membranes of the target cells. Estradiol activates the transmembrane polyphosphoinositide system: it stimulates the protein kinase C translocation from cytosol to cell membranes, the membrane protein phosphorylation being elevated. Transmembrane adenylate cyclase system is also activated. The cAMP system stimulation by estradiol is mediated by protein kinase C, phosphorylating a protein of adenylate cyclase complex. Estradiol causes protein kinases A translocation into the cell nuclei and enhances the protein kinase NII activity. The role of protein phosphorylation, activated by steroid hormones, in the transcription and protein synthesis regulation, is discussed.
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PMID:[The participation of transmembrane messenger systems in the action of steroid hormones on target cells]. 196 59

Cells containing increased levels of the membrane phosphoprotein P-glycoprotein exhibit a multidrug-resistant phenotype. In the present study we have analyzed protein kinases capable of phosphorylating P-glycoprotein in membranes of HL60 cells isolated for resistance to vincristine. Analysis of this system demonstrates that in isolated membranes the protein kinase inhibitor staurosporine greatly reduces P-glycoprotein phosphorylation. In contrast, the kinase inhibitor H-7 does not affect this reaction. Fractionation of solubilized membrane proteins from sensitive and resistant cells on DEAE-cellulose reveals a major protein kinase (PK-1) which exhibits optimal activity in the presence of Mn2+ and histone H1. This enzyme fraction does not contain detectable levels of protein kinase C or cAMP-dependent protein kinase. PK-1 phosphorylation of two endogenous proteins is, however, greatly enhanced in the presence of phosphatidylserine or phosphatidyl-inositol. In reaction mixtures containing Mg2+ or Mn2+ in the absence of phospholipid, PK-1 from resistant cells phosphorylates an endogenous protein of 180 kilodaltons (P180), which exhibits an electrophoretic mobility identical to P-glycoprotein. In parallel experiments with PK-1 from sensitive cells there is no detectable phosphorylation of a P180 protein. P180 phosphorylated by PK-1 from resistant cells is immunoprecipitated by antibody against P-glycoprotein. Additional studies demonstrate that PK-1 is capable of phosphorylating specific synthetic peptides which correspond to the sequence of P-glycoprotein. Peptide phosphorylation occurs at both serine and threonine residues. These studies thus identify a novel membrane-associated protein kinase in HL60 cells which is capable of phosphorylating P-glycoprotein. This enzyme may have an important role in regulating levels of multidrug resistance.
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PMID:Characterization of a membrane-associated protein kinase of multidrug-resistant HL60 cells which phosphorylates P-glycoprotein. 196 66

12-O-Tetradecanoylphorbol-13-acetate (TPA) stimulates the human monoblastoid U937 cell to differentiate into a mature monocyte/macrophage-like cell. Since TPA may produce cellular responses by activating protein kinase C, the effects of TPA on kinase activity in the U937 cell were investigated. Brief exposures (less than or equal to 60 min) to TPA dramatically diminished protein kinase C-dependent phosphorylation of histone and endogenous substrates. However, using a peptide substrate corresponding to residues 720-737 of protein kinase C-epsilon, Ca2(+)-, phospholipid-, and diacylglycerol-dependent kinase activity was reduced only modestly after exposure to TPA. This phospholipid-dependent kinase activity coeluted on DEAE chromatography with protein kinase C. Examination of cytosolic protein kinase C content by Western blot analysis demonstrated a moderate decline in kinase content after TPA treatment. The decline was due primarily to loss of an 80-kDa species with preservation of a 76-kDa protein. The immunoreactive 76-kDa protein observed after TPA treatment comigrated on DEAE chromatography with the kinase activity phosphorylating the protein kinase C-epsilon peptide and had an elution profile similar to protein kinase C derived from untreated cells. Using antisera recognizing the catalytic and regulatory domains of the kinase, no evidence for proteolytic degradation of protein kinase C was observed. Although incubation of extracts from vehicle and TPA-treated cells inhibited the activity of partially purified protein kinase C, the degree of inhibition was similar in the two extracts. These findings suggest that TPA markedly diminishes protein kinase C-dependent phosphorylation of histone and endogenous substrates in part by altering kinase substrate specificity. These observations provide evidence for a novel post-translational process that can modulate protein kinase C-dependent phosphorylation.
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PMID:Effect of phorbol esters on cytosolic protein kinase C content and activity in the human monoblastoid U937 cell. 198 44

Retinoids and thyroid hormones exert profound effects on the development, growth and homeostasis of vertebrates. The receptor proteins which bind retinoic acid, tri-iodothyronine (T3) or steroid hormones and, as a result of this binding, interact with DNA to stimulate expression of specific genes, belong to the same recently discovered superfamily. The functionality of thyroid and steroid hormone receptors is thought to be related to a phosphorylation-dephosphorylation cycle. In the present work, the action of two retinoids (retinol and retinoic acid) was studied on the properties of T3-nuclear receptors and on protein kinase C (PKC) activity in the rat liver (PKC is known to be a phosphorylating enzyme for various proteins). The influence of 12-O-tetradecanoyl phorbol-13-acetate (TPA; known to enhance PKC activity) on the properties of T3-nuclear receptors was also investigated. Measurements of binding characteristics and enzyme activity were performed 4 or 12 h after a single i.p. injection of retinol or retinoic acid (6 mg/kg body weight) or 1 h after a single i.p. injection of TPA (0.7 mg/kg). The activity of PKC was increased 4 h after administration of the retinoids, and the affinity of the T3-nuclear receptor protein was increased markedly after 12 h. The activity of PKC and the affinity of nuclear T3 receptor were both increased 1 h after administration of TPA. These observations provide indirect evidence that retinoids, particularly retinoic acid, induce an increase in PKC activity and a subsequent increase in the affinity of the T3-nuclear receptor protein.
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PMID:Effect of retinoids on protein kinase C activity and on the binding characteristics of the tri-iodothyronine nuclear receptor. 200 15

The subcellular distribution, size, and activation state of protein kinase C (PKC) were studied after short term exposure of rabbit platelets to a saturating dose of 12-O-tetradecanoylphorbol 13-acetate (TPA). Cytosolic and Nonidet P-40-solubilized particulate extracts prepared from TPA-treated platelets were subjected to analytical column chromatography on Mono Q, hydroxylapatite, and Superose 6/12. PKC activity was assayed according to the ability of the enzyme to phosphorylate (i) histone H1 in the presence of the activators calcium, diacylglycerol, and phosphatidylserine; (ii) histone H1 after proteolytic activation of PKC with trypsin; and (iii) protamine in the absence of calcium and lipid. Within 1 min of TPA treatment of platelets, greater than 95% of the PKC activity was particulate associated, as assessed by all three methods. The particulate PKC activity from 1-min TPA-treated cells eluted from Mono Q with approximately 0.35 M NaCl (peak I), and it was highly dependent upon Ca2+ and lipid for optimal histone H1 phosphorylation. With longer exposure times of platelets to TPA, the disappearance of the Mono Q peak I form of PKC was correlated with the production of new PKC species that were released from Mono Q with approximately 0.4 M NaCl (peak II), approximately 0.5 M NaCl (peak III), and approximately 0.6 M NaCl (peak IV). These last forms of PKC were still lipid activated but exhibited little Ca2+ dependence. The Mono Q peak III form displayed a particularly high level of histone H1 phosphorylating activity in the absence of lipid and Ca2+. All of these forms behaved as approximately 65-kDa proteins on Superose 6/12, but on sodium dodecyl sulfate-polyacrylamide gels, Western blotting with anti-PKC-beta antibodies revealed immunoreactive polypeptides of approximately 79 kDa (Mono Q peaks I, II, and IV) and approximately 100-kDa (Mono Q peak III). Hydroxylapatite column chromatography permitted partial resolution of the Mono Q peaks I and II forms, which were eluted within a concentration range of potassium phosphate (100-150 mM) which was typical of the beta isozyme of PKC. Treatment of the Mono Q peak III and IV PKC forms with alkaline phosphatase resulted in the production of the peak I form, which implicated protein phosphorylation in the interconversion of the various PKC forms.
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PMID:Characterization of calcium-independent forms of protein kinase C-beta in phorbol ester-treated rabbit platelets. 202 87

Neutrophils possess a classical Ca2+, phosphatidyl serine (PS) and diglyceride (DG)-dependent protein kinase C (beta-PKC) which was translocatable from cytosol to membrane in response to elevated Ca2+ in the physiologic range or to pretreatment with phorbol myristate acetate (PMA). The translocatable beta-PKC was purified from neutrophil membranes prepared in the presence of Ca2+, eluted with EGTA and subjected to hydroxyapatite chromatography. An 80-kDa protein possessing Ca/DG/PS-dependent histone phosphorylating activity was recognized by a monoclonal antibody to beta-PKC but not to alpha-PKC or gamma-PKC. A cytosolic kinase activity remaining after Ca(2+)-induced translocation of beta-PKC was dependent on PS and DG but did not require Ca2+. This novel Ca(2+)-independent, PS/DG-dependent kinase, termed nPKC, eluted from hydroxyapatite between alpha-PKC and beta-PKC, ran as a 76-kDa band on sodium dodecyl sulfate-polyacrylamide gel electrophoresis, and was reactive to a polyclonal consensus antibody but not to monoclonal antibodies to alpha-PKC, beta-PKC, or gamma-PKC. Long chain fatty acyl-CoA, but not the corresponding free fatty acids, inhibited nPKC in the 1-10 microM range. The chemotactic peptide fMet-Leu-Phe triggered prompt but transient increases in neutrophil long chain fatty acid acyl-CoA, suggesting that nPKC is regulated by fatty acyl-CoA as well as DG during neutrophil activation. Purified beta-PKC phosphorylated a number of cytosolic proteins in a Ca(2+)-dependent manner, including a major 47-kDa cytosolic protein, which may be implicated in superoxide anion generation. In contrast, nPKC did not phosphorylate the 47-kDa protein, but phosphorylated numerous cytosolic proteins in a Ca(2+)-independent manner, including a 66-kDa protein which was not phosphorylated by beta-PKC. Differences in location, substrate specificity, and cofactor dependence between nPKC and beta-PKC suggest these kinases may play selective roles in the activation sequence of the neutrophil.
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PMID:Protein kinase C isotypes and signaling in neutrophils. Differential substrate specificities of a translocatable calcium- and phospholipid-dependent beta-protein kinase C and a phospholipid-dependent protein kinase which is inhibited by long chain fatty acyl coenzyme A. 202 25

The phorbol ester TPA induces down-regulation of protein kinase C (PKC) in Swiss-3T3 fibroblasts, as determined by the use of an alpha, beta, gamma PKC-specific antiserum. PKC is almost completely degraded 10 hours after TPA treatment of the cells and recovers within 72 hours. The staurosporine derivative K252a, known to inhibit PKC activity, causes strong suppression of TPA-induced (PKC-catalyzed) protein phosphorylation in Swiss-3T3 cells. Inhibition of protein phosphorylation by K252a is still effective when the process of down-regulation is completed. However, K252a does not influence TPA-induced down-regulation of PKC at all. Thus, down-regulation of PKC is not dependent on the enzyme's phosphorylating activity and, therefore, most likely not on its autophosphorylation as has been suggested by Ohno et al. [J. Biol. Chem. 265, 6296-6300 (1990)].
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PMID:Down-regulation of protein kinase C in Swiss 3T3 fibroblasts is independent of its phosphorylating activity. 203 8

Regional variations in protein phosphorylating activity in the rat brain were studied. Micro-slices (1 mm diameter) were prepared from 19 brain areas, phosphoproteins labeled by incubation with [32P]phosphate, and the tissue analyzed by nonequilibrium two-dimensional electrophoresis and autoradiography. Attention was focused on three phosphorylating systems that showed consistent variation in activity. (1) A system that phosphorylates a substrate of 47 kDa (ppH-47) whose activity was highest in the hippocampus. The next highest activity of this system was observed in the globus pallidus, followed by the periventricular gray matter of the aqueduct, lateral septum, cerebellar cortex, entorhinal cortex, hypothalamus, mammillary nuclei, amygdala, and substantia nigra. Activity was low or undetectable in the cerebral cortex, neostriatum, and the colliculi. (2) A system that phosphorylates a substrate of 50 kDa (ppC-50) whose activity was highest in the caudate nucleus. The activity of this system was roughly inversely correlated with that of the ppH-47 system. (3) The protein kinase C system that phosphorylates an 82- to 87-kDa substrate known as MARCKS. The highest activity of this system was observed in the cerebellar cortex, followed by the hypothalamus, mammillary nuclei, periventricular gray matter of the aqueduct, and the superior colliculus. Activity of this system was relatively low in several regions of the cerebral cortex, the neostriatum, and the inferior colliculus.
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PMID:Regional variations in protein phosphorylating activity in rat brain studied in micro-slices labeled with [32P]phosphate. 207 77


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