Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.7.11.13 (protein kinase C)
 49,245 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Stress, catecholamines (CA), cAMP and protein-kinase A do not affect superoxide dismutase, catalase, thioredoxin reductase, thiol transferase and glutathione reductase (GR). However, they activate glutathione peroxidase and glutathione transferase (GT) in a number of organs and inhibit renal gamma-glutamyl transferase. Ca2+ ions activate GT through calmodulin. CA were found to stimulate GSH transport from liver to blood and GT phosphorylation by protein kinase C. This suggests a regulation of the GSH metabolism by hormones and a second messenger. This regulation favours metabolism of active O2 substances (including protection from peroxide stress and leukotriene C4 synthesis), supporting of SH-proteins in reduced state, xenobiotics detoxication. GT and GR induction can play an important role in the mechanism of anti-peroxide action of butylhydroxytoluene.
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PMID:[The physiological significance of regulation by catecholamines, second messengers and enzyme inducers of glutathione metabolism]. 196 98

Thioredoxin (Trx) catalyzes thiol-disulfide oxidoreductions. We and others recently showed that human Trx could function as an autocrine growth factor for human lymphoid cells immortalized by the human T-lymphotrophic virus type I or the Epstein-Barr virus. Here we report that reduced Trx from Escherichia coli generated by NADPH and thioredoxin reductase increases the proliferation of an Epstein-barr virus(+)-B cell line 1G8, which constitutively produces low amounts of human Trx. This proliferative effect involved the activation of protein kinase C through its translocation to the membrane. Staurosporin and calphostin C, two inhibitors of protein kinase C, but not of H8, a protein kinase A inhibitor, were able to block Trx-dependent proliferation. The addition of Trx to 1G8 cells resulted in the formation of inositol 1,4,5-triphosphate and sn-1,2-diacylglycerol by a phosphoinositide-specific phospholipase C, as well as increased free calcium concentration. Diacylglycerol showed a biphasic increase; the first phase, corresponding to an early peak (30 s) of inositol 1,4,5-triphosphate and a second larger, prolonged phase. The second phase was inhibited by propranolol, a specific inhibitor of phosphohydrolase, indicating that it is most likely derived from phosphatidylcholine hydrolysis by the sequential action of phospholipase D and phosphatidic acid phosphohydrolase. Our data suggest that enhanced phosphoinositide-specific phospholipase C activity induced by the dithiol form of Trx in 1G8 cells is associated to protein kinase C activation, and thus plays a role in the permanent growth of Epstein-Barr virus-infected B cells.
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PMID:Thioredoxin increases the proliferation of human B-cell lines through a protein kinase C-dependent mechanism. 796 46

Damage to the endothelium by reactive oxygen species favours atherogenesis. Such damage can be prevented by selenium, which is thought to exert its actions through the expression of selenoproteins. The family of glutathione peroxidases (GPXs) may have antioxidant roles in the endothelium but other intracellular and extracellular selenoproteins with antioxidant actions may also be important. The selenoproteins expressed by cultured human umbilical-vein endothelial cells (HUVECs) were labelled with [(75)Se]selenite and separated using SDS/PAGE. HUVECs secreted no extracellular selenoproteins. There were distinct differences between the intracellular selenoprotein profile of (75)Se-labelled HUVECs and those of other tissues. A single selenoprotein with a molecular mass of 58 kDa accounted for approx. 43% of the intracellular (75)Se-labelled proteins in HUVECs. This protein was identified by Western blotting as the redox-active lipid-hydroperoxide-detoxifying selenoprotein, thioredoxin reductase (TR). TR expression in HUVECs was down-regulated by transiently exposing cells to the phorbol ester PMA for periods as short as 1 min. However, there was a delay of 48 h after PMA exposure before maximal down-regulation of TR was observed. The protein kinase C (PKC) inhibitor bisindolylmaleimide I hydrochloride had no effect on TR expression when added alone, but the agent prevented the down-regulation of TR expression seen with PMA. The calcium ionophore A23187 increased TR expression in HUVECs after a 12-h exposure, but the maximal effect was only observed after a 35-h exposure. These findings suggest that TR may be an important factor in the known ability of Se to protect HUVECs from peroxidative damage. Furthermore, the results also suggest that TR expression can be negatively regulated through PKC. It is possible that TR expression may be positively regulated by the calcium-signalling cascade, although TR induction by A23187 may be due to toxicity.
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PMID:Thioredoxin reductase is the major selenoprotein expressed in human umbilical-vein endothelial cells and is regulated by protein kinase C. 1043 7

Numerous studies in animal models and more recent studies in humans have demonstrated cancer chemopreventive effects with Se. There is extensive evidence that monomethylated forms of Se are critical metabolites for chemopreventive effects of Se. Induction of apoptosis in transformed cells is an important chemopreventive mechanism. Apoptosis can be triggered by micromolar levels of monomethylated forms of Se independent of DNA damage and in cells having a null p53 phenotype. Cell cycle protein kinase cdk2 and protein kinase C are strongly inhibited by various forms of Se. Inhibitory mechanisms involving modification of cysteine residues in proteins by Se have been proposed that involve formation of Se adducts of the selenotrisulfide (S-Se-S) or selenenylsulfide (S-Se) type or catalysis of disulfide formation. Selenium may facilitate reactions of protein cysteine residues by the transient formation of more reactive S-Se intermediates. A novel chemopreventive mechanism is proposed involving Se catalysis of reversible cysteine/disulfide transformations that occur in a number of redox-regulated proteins, including transcription factors. A time-limited activation mechanism for such proteins, with deactivation facilitated by Se, would allow normalization of critical cellular processes in the early stages of transformation. There is uncertainty at the present time regarding the role of selenoproteins in chemoprevention model systems where supranutritional levels of Se are employed. Mammalian thioredoxin reductase is one selenoprotein that shows increased activity with Se supplementation in the nutritional to supranutritional range. Enhanced thioredoxin reduction could have beneficial effects in oxidative stress, but possible adverse effects are considered. Other functions of thioredoxin reductase may be relevant to cell signaling pathways. The functional status of the thioredoxin/thioredoxin reductase system during in vivo chemoprevention with Se has not been established. Some in vitro studies have shown inhibitory effects of Se on the thioredoxin system correlated with growth inhibition by Se. A potential inactivating mechanism for thioredoxin reductase or other selenoenzymes involving formation of a stable diselenide form resistant to reduction is discussed. New aspects of Se biochemistry and possible functions of new selenoproteins in chemoprevention are described.
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PMID:Selenium metabolism, selenoproteins and mechanisms of cancer prevention: complexities with thioredoxin reductase. 1046 8

We have measured the levels of thioredoxin, thioredoxin reductase and glutaredoxin enzyme activity in mouse skin following topical application of the phorbol ester 12-O-tetradecanoylphorbol-13-acetate (TPA), a protein kinase C (PKC) activator and tumor promoter. The specific activity of thioredoxin and thioredoxin reductase in extracts from normal epidermis increased by 40 and 50%, respectively, after single or multiple application of TPA. Multiple applications (twice per week for 2 weeks) of TPA increased glutaredoxin activity by >300%. Induction of the proteins lasted several days. Other PKC activators, like 12-O-retinoylphorbol 13-acetate, mezerein, 1-oleoyl-2-acetylglycerol and the calcium ionophore A23187, also induced all the enzyme activities. Phorbol and 4-O-methyl-12-O-tetradecanoylphorbol-13-acetate, weak activators of PKC, selectively induced the thioredoxin system only and did not influence glutaredoxin activity. Multiple applications of TPA to tumor initiated (7,12-dimethyl[a]benzanthracene-treated) skin resulted in elevated levels of both the thioredoxin and glutaredoxin systems when examined 6 days after the last phorbol ester treatment. Induction of thioredoxin, thioredoxin reductase and glutaredoxin activities by TPA and calcium ionophores may play a general role in the epigenetic mechanism of tumor promotion via thiol redox control mechanisms.
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PMID:Induction of thioredoxin, thioredoxin reductase and glutaredoxin activity in mouse skin by TPA, a calcium ionophore and other tumor promoters. 1046 22

Although superoxide can directly quench endothelium-generated nitric oxide (NO), there is considerable evidence that oxidants derived from superoxide--notably peroxides and their further derivatives--can also impair NO bioactivity. In part, this reflects inhibition of NO synthase activity, perhaps mediated by the oxidation of labile sulfhydryl groups, as well as the activation of protein kinase C. Selenium deficiency exacerbates these effects, presumably owing to the crucial role of selenium-dependent thioredoxin reductase and glutathione peroxidases in preventing and reversing oxidant damage to proteins. High-normal homocyst(e)ine levels may induce an 'effective selenium deficiency' by suppressing glutathione peroxidase transcription in endothelial cells. Considerable epidemiology, primarily of European origin, points to mediocre selenium nutrition as a significant vascular risk factor; the risk associated with elevated plasma homocyst(e)ine levels is now well established. In addition to preventing LDL oxidation, vitamin E can be expected to minimize the contribution of lipid peroxides to endothelial dysfunction. Lipoic acid, which can function in vivo as a versatile antioxidant and sulfhydryl reductant, may have particular value for protecting endothelium from oxidants; its clinical utility in diabetic neuropathy may reflect this benefit. Good selenium status, as well as supra-nutritional intakes of lipoic acid, may down-regulate cytokine-mediated endothelial activation by helping to maintain the proper structure of oxidant-labile proteins--such as tyrosine phosphatases--that modulate this signaling. It can be concluded that a number of supplemental nutrients--including selenium, vitamin E, lipoic acid, and the vitamins that promote catabolism of homocysteine--have the potential to promote vascular health by mitigating the adverse impact of superoxide-derived oxidants on endothelial function.
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PMID:Oxidants downstream from superoxide inhibit nitric oxide production by vascular endothelium--a key role for selenium-dependent enzymes in vascular health. 1060 66

Besides scavenging free radicals, antioxidants inhibit signaling enzymes such as protein kinase C (PKC) that play a crucial role in tumor promotion. By having different oxidation susceptible regions, PKC can respond to both oxidant tumor promoters and cancer-preventive antioxidants to elicit opposite cellular responses. Oxidant tumor promoters activate PKC by reacting with zinc-thiolates present within the regulatory domain. In contrast, the oxidized forms of some cancer-preventive agents, such as polyphenolics (ellagic acid, 4-hydroxytamoxifen and curcumin) and selenocompounds, can inactivate PKC by oxidizing the vicinal thiols present within the catalytic domain. This brings an efficient counteractive mechanism to block the signal transduction induced by tumor promoters at the first step itself. Because prostate cancer prevention clinical trials in large human population are under way, we have focused more on understanding the cancer-preventive mechanism of selenium. Methylselenol, the postulated cancer-preventive metabolite, has no direct effect on PKC activity. However, methylseleninic acid, locally generated by the reaction of membrane methylselenol with PKC-bound tumor-promoting fatty acid hydroperoxides, selectively inactivates PKC. This mechanism clarifies how the volatile methylselenol that is present in a low concentration induces the inactivation of PKC selectively in the promoting precancer cells. Selenoprotein thioredoxin reductase reverses selenium-induced inactivation of PKC, suggesting that selenoproteins may serve as a safeguard against the toxicity induced by selenometabolites. Moreover, this also explains how a resistance to selenium develops in advanced malignant cells. The redox-mediated inactivation of PKC may, at least in part, be responsible for the antioxidant-induced inhibition of tumor promotion and cell growth, as well as for the induction of cell death.
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PMID:Antioxidant regulation of protein kinase C in cancer prevention. 1246 31

We previously reported that exposure to exogenous nitric oxide (NO) causes diminished expression of thioredoxin/thioredoxin reductase, a critical component of the redox system that regulates the functions of redox-sensitive enzymes, receptors, and transcription factors. Here we examined the role of thioredoxin in NO-induced inhibition of protein kinase C (PKC) isoform(s) and potential interaction of PKC and thioredoxin in pulmonary artery endothelial cells (PAEC) in culture. Exposure to NO gas (8 ppm) significantly diminished the catalytic activity of the representative isoforms of the conventional, novel, and atypical PKCs alpha, epsilon, and zeta, respectively, in PAEC. Further examination of NO's effect on PKC-zeta revealed that NO-induced inhibition of the catalytic activity of PKC-zeta was time-dependent and regulated by a posttranscriptional mechanism. NO-induced loss of the catalytic activity of PKC-zeta was restored by incubation with the disulfide reducing agent dithiothreitol (DTT) as well as by purified thioredoxin or thioredoxin reductase. Confocal imaging studies revealed co-localization of PKC and thioredoxin in PAEC. These results indicate that: (1) NO-induced inhibition of PKC isoforms is associated with S-nitrosylation-mediated disulfide formation of active site thiols in PKC-zeta as the disulfide reducing agent DTT and/or the thioredoxin enzyme system restore PKC-zeta catalytic activity and (2) NO causes oxidation of endogenous thioredoxin as exogenous reduced thioredoxin or thioredoxin reductase are required to reduce thioredoxin and to restore the catalytic activity of PKC-zeta in PAEC.
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PMID:Thioredoxin restores nitric oxide-induced inhibition of protein kinase C activity in lung endothelial cells. 1467 81

In a recent study, we described that UV-C irradiation resulted in redox-dependent activation and relocalization of A-SMase (acid sphingomyelinase) to the external surface of raft membrane microdomains, hydrolysis of SM (sphingomyelin) associated with the plasma membrane outer leaflet, ceramide generation and apoptosis. In the present study, we have investigated the influence of PKCzeta (protein kinase Czeta), an atypical form of PKC on this pathway. This study shows that PKCzeta overexpression resulted in the abrogation of UV-C-induced A-SMase translocation and activation into the raft microdomains, lack of ceramide generation and apoptosis inhibition. Moreover, PKCzeta overexpression resulted in a decrease in UV-C-induced ROS (reactive oxygen species) production, which correlated with increased gene expression level of various antioxidant enzymes, including TRx (thioredoxin), TR (thioredoxin reductase) 1, TR2 and peroxiredoxin 1/TPx2 (thioredoxin peroxidase 2). Importantly, enforced TPx2 gene expression inhibited UV-C-induced A-SMase translocation. Finally, PKCzeta inhibition led to a significant reduction in TPx2 protein expression. Altogether, these results suggest that PKCzeta interferes with the UV-activated sphingolipid signalling pathway by regulating the TRx system. These findings may have important consequences for UV-induced carcinogenesis and resistance to phototherapy.
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PMID:PKCzeta protects against UV-C-induced apoptosis by inhibiting acid sphingomyelinase-dependent ceramide production. 1734 42

Endothelial dysfunction by proinflammatory stimuli represents an important link between risk factors and the pathologic mechanisms underlying atherosclerosis. Thus, control of the inflammatory status of endothelial cells is crucial to limiting the disease. Tobacco smoking induces inflammatory reactions and promotes atherosclerosis; however, the mechanism that links cigarette smoking to an increased incidence of atherosclerosis is poorly understood. Our study demonstrates that acrolein, a known toxin in tobacco smoke, elevates oxidative stress via inactivation of thioredoxin reductase and stimulates expression of cyclooxygenase-2 through activation of the protein kinase C, p38 mitogen-activated protein kinase, and cAMP response element-binding protein pathway in endothelial cells. Our finding suggests that acrolein may play a role in the progression of atherosclerosis.
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PMID:Acrolein induces inflammatory response underlying endothelial dysfunction: a risk factor for atherosclerosis. 1844 14


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