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)

While protein kinase C epsilon has been shown to contribute to acute and chronic mechanical hyperalgesia, its upstream signaling pathway has received little attention. Since phospholipase C can signal to PKC epsilon and has been implicated in nociceptor sensitization, we tested if it is upstream of PKC epsilon in mechanisms underlying primary mechanical hyperalgesia. In the rat, the PKC epsilon-dependent mechanical hyperalgesia and hyperalgesic priming (i.e., a form of chronic latent enhanced hyperalgesia) induced by carrageenan were attenuated by a non-selective PLC inhibitor U-73122. A lipid mediator of PLC signaling, l-alpha-lysophosphatidylcholine produced dose-dependent mechanical hyperalgesia and hyperalgesic priming, which was attenuated by EAVSLKPT, a selective PKC epsilon inhibitor. However, U-73122 did not attenuate hyperalgesia induced by psi epsilon RACK, a selective PKC epsilon activator. Antisense to PLC-beta 3 isoform, which was found in small-diameter dorsal root ganglion neurons, also attenuated carrageenan-induced acute and chronic-latent hyperalgesia. These studies support the suggestion that PLC-beta 3 is an important upstream signaling molecule for PKC epsilon-mediated acute and chronic inflammatory pain.
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PMID:PLC-beta 3 signals upstream of PKC epsilon in acute and chronic inflammatory hyperalgesia. 1735 Jul 63

The phosphoprotein P of Borna disease virus (BDV) is an essential cofactor of the viral RNA-dependent RNA polymerase. It is preferentially phosphorylated at serine residues 26 and 28 by protein kinase C epsilon (PKCepsilon) and, to a lesser extent, at serine residues 70 and 86 by casein kinase II (CKII). To determine whether P phosphorylation is required for viral polymerase activity, we generated P mutants lacking either the PKCepsilon or the CKII phosphate acceptor sites by replacing the corresponding serine residues with alanine (A). Alternatively, these sites were replaced by aspartic acid (D) to mimic phosphorylation. Functional characterization of the various mutants in the BDV minireplicon assay revealed that D substitutions at the CKII sites inhibited the polymerase-supporting activity of P, while A substitutions maintained wild-type activity. Likewise, D substitutions at the PKC sites did not impair the cofactor function of BDV-P, whereas A substitutions at these sites led to increased activity. Interestingly, recombinant viruses could be rescued only when P mutants with modified PKCepsilon sites were used but not when both CKII sites were altered. PKCepsilon mutant viruses showed a reduced capacity to spread in cell culture, while viral RNA and protein expression levels in persistently infected cells were almost normal. Further mutational analyses revealed that substitutions at individual CKII sites were, with the exception of a substitution of A for S86, detrimental for viral rescue. These data demonstrate that, in contrast to other viral P proteins, the cofactor activity of BDV-P is negatively regulated by phosphorylation.
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PMID:Functional characterization of the major and minor phosphorylation sites of the P protein of Borna disease virus. 1737 20

Tat-interactive protein 60 kDa is a nuclear acetyltransferase that both coactivates and corepresses transcription factors and has a definitive function in the DNA damage response. Here, we provide evidence that Tat-interactive protein 60 kDa is phosphorylated by protein kinase C epsilon. In vitro, protein kinase C epsilon phosphorylates Tat-interactive protein 60 kDa on at least two sites within the acetyltransferase domain. In whole cells, activation of protein kinase C increases the levels of phosphorylated Tat-interactive protein 60 kDa and the interaction of Tat-interactive protein 60 kDa with protein kinase C epsilon. A phosphomimetic mutant Tat-interactive protein 60 kDa has distinct subcellular localisation compared to the wild-type protein in whole cells. Taken together, these findings suggest that the protein kinase C epsilon phosphorylation sites on Tat-interactive protein 60 kDa are important for its subcellular localisation. Regulation of the subcellular localisation of Tat-interactive protein 60 kDa via phosphorylation provides a novel means of controlling Tat-interactive protein 60 kDa function.
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PMID:Phosphorylation of Tat-interactive protein 60 kDa by protein kinase C epsilon is important for its subcellular localisation. 1785 Nov 7

Prevention of graft dysfunction is a major objective in transplantation medicine. Previous research on experimental heart transplantation indicated that treatment with the immunomodulatory peptide alpha-melanocyte stimulating hormone (alpha-MSH) improves histopathology, prolongs allograft survival, and reduces expression of the main tissue injury mediators. Because calcium-handling is critical in heart graft function, we determined the effects of transplantation injury and influences of alpha-MSH treatment on representative calcium regulatory proteins in rat heart allografts. Hearts from Brown Norway rats were transplanted heterotopically into MHC incompatible Lewis rats. Ca(2+)/calmodulin-dependent protein kinase II (CaMKII), protein kinase C epsilon (PKC epsilon), sarcoplasmic/endoplasmic reticulum calcium-ATPase 2 (SERCA2a), arrestin-beta1 (Arrb1), cholinergic receptor M2 (Chrm2), and inositol 1,4,5-triphosphate receptor 1 (InsP(3)R1) were examined in: (1) non-transplanted donor hearts; (2) allografts from saline-treated rats; and (3) allografts from rats treated with the synthetic alpha-MSH analog Nle4-DPhe7-alpha-MSH (NDP-alpha-MSH) (100 microg i.p. every 12h). Transplantation injury was associated with severe reduction in calcium regulatory protein transcription and expression level. NDP-alpha-MSH administration partly reversed inhibition of protein transcription and almost completely prevented protein loss. Finally, because certain effects of cyclic 3'-5'-adenosine monophosphate (cAMP) signaling on calcium handling in cardiac myocytes depend on activation of exchange protein directly activated by cAMP 1 (Epac1), we determined Epac1 mRNA and protein expression in heart allografts. Transplantation injury markedly reduced Epac1. NDP-alpha-MSH treatment significantly preserved both Epac1 protein and mRNA in the allografts. Administration of alpha-MSH or related melanocortins could reduce transplantation-induced dysfunction through protection of heart calcium regulatory proteins.
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PMID:Treatment with alpha-melanocyte stimulating hormone preserves calcium regulatory proteins in rat heart allografts. 1817 58

The role of protein kinase C epsilon (PKC epsilon) in polymorphonuclear leukocyte (PMN)-induced myocardial ischemia/reperfusion (MI/R) injury and novel-related mechanisms, such as regulation of vascular endothelium nitric oxide (NO) and hydrogen peroxide (H2O2) release from blood vessels, have not been previously evaluated. A cell-permeable PKC epsilon peptide activator (1-10 microM) significantly increased endothelial NO release from non-ischemic rat aortic segments (p < 0.01). By contrast, PKC epsilon peptide inhibitor (1-10 microM) dose-dependently decreased NO release (p < 0.01). Then, these corresponding doses of PKC epsilon activator or inhibitor were examined in MI/R. The PKC epsilon inhibitor (5 microM given during reperfusion, n=6) significantly attenuated PMN-induced postreperfused cardiac contractile dysfunction and PMN adherence/infiltration (both p < 0.01), and expression of intracellular adhesion molecule-1 (ICAM-1; p < 0.05). By contrast, only PKC epsilon activator pretreated hearts (5 muM PKC epsilon activator given before ischemia (PT), n = 6), not PKC epsilon activator given during reperfusion (5 microM, n=6) exerted significant cardioprotection (p < 0.01). Moreover, the NO synthase inhibitor, N(G)-nitro-L: -arginine methyl ester, did not block the cardioprotection of PKC epsilon inhibitor, whereas it completely abolished the cardioprotective effects of PKC epsilon activator PT. In addition, PKC epsilon inhibitor (0.4 mg/kg) significantly decreased H(2)O(2) release during reperfusion in a femoral I/R model (p < 0.01). Therefore, the cardioprotection of PKC epsilon inhibitor maybe related to attenuating ICAM-1 expression and H2O2 release during reperfusion. By contrast, the cardioprotective effects of PKC epsilon activator PT may be mediated by enhancing vascular endothelial NO release before ischemia.
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PMID:Mechanisms related to the cardioprotective effects of protein kinase C epsilon (PKC epsilon) peptide activator or inhibitor in rat ischemia/reperfusion injury. 1849 74

Adenosine is a major mediator of ischaemic preconditioning (IPC) and cardioprotection. The translocation and activation of protein kinase C epsilon, triggered by adenosine, are essential for these processes. We report here that H9c2 cardiomyoblasts express five PKC isoforms (alpha, beta(I), delta, epsilon and zeta). PKCepsilon is predominantly associated with F-actin fibres in unstimulated H9c2 cells but translocates to the nucleus on stimulation with adenosine. Cytosolic PKCepsilon associated with F-actin fibres is phosphorylated at Ser729 but nuclear PKCepsilon lacks phosphorylation at this site. Adenosine triggers the nuclear translocation after 5 min stimulation. PKCepsilon Ser729Ala and Ser729Glu mutants showed no translocation on adenosine stimulation suggesting both phosphorylation and serine at 729 are critical for this translocation. Among five PKC isoforms (alpha, beta(I), delta, epsilon and zeta) detected, PKCepsilon is the only isoform translocating to the nucleus upon adenosine stimulation. Disruption of microtubules (MTs), but not F-actin-rich fibres, blocked translocation of both endogenous PKCepsilon and overexpressed GFP-PKCepsilon to the nucleus. Ten proteins interacted with cytosolic PKCepsilon; five of which are components of myofibrils. Matrin 3 and vimentin interacted with nuclear PKCepsilon. These findings suggest that adenosine stimulates PKCepsilon translocation to the nucleus in H9c2 cells in a mechanism involving dephosphorylation at Ser729 and MT, which should advance our understanding of the signalling pathways stimulated by adenosine in IPC and cardioprotection.
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PMID:Adenosine triggers the nuclear translocation of protein kinase C epsilon in H9c2 cardiomyoblasts with the loss of phosphorylation at Ser729. 1916 Apr 13

Members of the protein kinase C (PKC) family have long been studied for their contributions to oncogenesis. Among the ten different isoforms of this family of serine/threonine kinases, protein kinase C epsilon (PKC epsilon) is one of the best understood for its role as a transforming oncogene. In vitro, overexpression of PKC epsilon has been demonstrated to increase proliferation, motility, and invasion of fibroblasts or immortalized epithelial cells. In addition, xenograft and transgenic animal models have clearly shown that overexpression of PKC epsilon is tumorigenic resulting in metastatic disease. Perhaps most important in implicating the epsilon isoform in oncogenesis, PKC epsilon has been found to be overexpressed in tumor-derived cell lines and histopathological tumor specimens from various organ sites. Combined, this body of work provides substantial evidence implicating PKC epsilon as a transforming oncogene that plays a crucial role in establishing an aggressive metastatic phenotype. Reviewed here is the literature that has led to the current understanding of PKC epsilon as an oncogene. Moreover, this review focuses on the PKC epsilon-mediated signaling network for cell motility and explores the interaction of PKC epsilon with three major PKC epsilon signaling nodes: RhoA/C, STAT3 and Akt. Lastly, the emerging role of PKC epsilon as a tumor biomarker is discussed.
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PMID:Protein kinase C epsilon: an oncogene and emerging tumor biomarker. 1922 72

We tested hypothesis that acute myocardial infarction (AMI) induces cellular apoptosis and serial changes of protein kinase C epsilon (PKC-epsilon) and p38 mitogen-activated protein kinase (p38 MAPK), and tested cardio-protective effect of losartan in this condition. The rats were assigned to group A (sacrificed on day 2), group B (sacrificed on day 5), and group C (sacrificed on day 14). Rats in each group were further randomized into the following groups: AMI (ligation of left coronary artery) without losartan (AMI-L0); AMI with losartan 20 mg/ kg/d (AMI-L1); and sham groups (L0 and L1). The PKC-epsilon expression in membrane compartment was increased in AMI-L1 group than in other groups on day 5 and in AMI groups than in sham groups on day 14 (P < .01). Phosphorylated form of cytosolic p38 MAPK level was increased in AMI-L1 than in other groups on day 14 (P < .05). Furthermore, 14-day left ventricular ejection fraction was higher and cellular apoptosis was lower in AMI-L1 group than in AMI-L0 group (P < .0001).
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PMID:Time courses of subcellular signal transduction and cellular apoptosis in remote viable myocardium of rat left ventricles following acute myocardial infarction: role of pharmacomodulation. 1932 12

Alcohols regulate the expression and function of PKC (protein kinase C), and it has been proposed that an alcohol-binding site is present in PKC alpha in its C1 domain, which consists of two cysteine-rich subdomains, C1A and C1B. A PKC epsilon-knockout mouse showed a significant decrease in alcohol consumption compared with the wild-type. The aim of the present study was to investigate whether an alcohol-binding site could be present in PKC epsilon. Here we show that ethanol inhibited PKC epsilon activity in a concentration-dependent manner with an EC50 (equilibrium ligand concentration at half-maximum effect) of 43 mM. Ethanol, butanol and octanol increased the binding affinity of a fluorescent phorbol ester SAPD (sapintoxin-D) to PKC epsilon C1B in a concentration-dependent manner with EC50 values of 78 mM, 8 mM and 340 microM respectively, suggesting the presence of an allosteric alcohol-binding site in this subdomain. To identify this site, PKC epsilon C1B was photolabelled with 3-azibutanol and 3-azioctanol and analysed by MS. Whereas azibutanol preferentially labelled His236, Tyr238 was the preferred site for azioctanol. Inspection of the model structure of PKC epsilon C1B reveals that these residues are 3.46 A (1 A=0.1 nm) apart from each other and form a groove where His236 is surface-exposed and Tyr238 is buried inside. When these residues were replaced by alanine, it significantly decreased alcohol binding in terms of both photolabelling and alcohol-induced SAPD binding in the mutant H236A/Y238A. Whereas Tyr238 was labelled in mutant H236A, His236 was labelled in mutant Y238A. The present results provide direct evidence for the presence of an allosteric alcohol-binding site on protein kinase C epsilon and underscore the role of His236 and Tyr238 residues in alcohol binding.
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PMID:PKC epsilon has an alcohol-binding site in its second cysteine-rich regulatory domain. 1943 58

It has been suggested that thiazolidinediones (TZDs) ameliorate insulin resistance in muscle tissue by suppressing muscle lipid storage and the activity of novel protein kinase C (nPKC) isoforms. To test this hypothesis, we analyzed long-term metabolic effects of pioglitazone and the activation of nPKC-epsilon and -theta isoforms in an animal model of the metabolic syndrome, the spontaneously hypertensive rat (a congenic SHR strain with wild type Cd36 gene) fed a diet with 60 % sucrose from the age of 4 to 8 months. Compared to untreated controls, pioglitazone treatment was associated with significantly increased basal (809+/-36 vs 527+/-47 nmol glucose/g/2h, P<0.005) and insulin-stimulated glycogenesis (1321+/-62 vs 749+/-60 nmol glucose/g/2h, P<0.0001) in isolated gastrocnemius muscles despite increased concentrations of muscle triglycerides (3.83+/-0.33 vs 2.25+/-0.12 micromol/g, P<0.005). Pioglitazone-treated rats exhibited significantly increased membrane/total (cytosolic plus membrane) ratio of both PKC-epsilon and PKC-theta isoforms compared to untreated controls. These results suggest that amelioration of insulin resistance after long-term pioglitazone treatment is associated with increased activation of PKC-epsilon and -theta isoforms in spite of increased lipid concentration in skeletal muscles.
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PMID:Long-term pioglitazone treatment augments insulin sensitivity and PKC-epsilon and PKC-theta activation in skeletal muscles in sucrose fed rats. 1992 30


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