EC:2.7.11.13 - FACTA Search

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)

Although copper is an essential metal, it is capable of catalyzing the formation of reactive oxygen species that can cause intracellular oxidative damage. We investigated the hypothesis that metal- and oxidative stress-responsive signal transduction pathways mediate the cellular and molecular responses associated with copper exposure. Transient transfection assays using COS-7 cells and mouse metallothionein-I (MT-I) or rat NAD(P)H:oxidoreductase 1-based reporter genes demonstrate that copper activates transcription via metal and antioxidant response elements. Concomitant with copper exposures is a decrease in the level of total glutathione and an increase in oxidized glutathione. Depletion of glutathione, before copper exposure, increases metal- and oxidative stress-inducible transcription and cytotoxicity. Pretreatment with the reactive oxygen scavengers aspirin or vitamin E provides partial protection against copper toxicity and reduces inducible transcription. Experiments using signal transduction inhibitors and a metal transcription factor (MTF)-1 null cell line demonstrate that copper-inducible MT-I transcription is regulated by protein kinase C and mitogen-activated protein kinase signaling pathways and requires MTF-1. The results of these studies indicate that copper activates transcription through both metal- and oxidative stress-responsive signal transduction pathways.
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PMID:Copper-inducible transcription: regulation by metal- and oxidative stress-responsive pathways. 1457 86

Both protein kinase C (PKC) activation and increased oxidative stress have been paid attention to as important causative factors for diabetic vascular complications. In this article, we show a PKC-dependent increase in oxidative stress in vascular tissues of diabetes and insulin resistant state. High glucose level and free fatty acids stimulate de novo diacylglycerol (DAG)-PKC pathway and subsequently stimulate reactive oxygen species (ROS) production through a PKC-dependent activation of NAD(P)H oxidase. Increasing evidence has also shown that NAD(P)H oxidase components are upregulated in micro- and macro- vascular tissues of animal models and patients of diabetes and obesity. It is also noted that increased intrinsic angiotensin II production may amplify such a PKC-dependent activation of NAD(P)H oxidase in diabetic vascular tissues. These mechanisms may play an important role in the diabetic vascular complications and the accelerated atherosclerosis associated with diabetes and obesity. In addition, recent reports have shown that NAD(P)H oxidases exist in pancreatic beta-cells and adipocytes, and this oxidase-generated ROS production may play an important role in both the progressive beta-cell dysfunction and the dysregulated adipocytokine production and subsequent obesity-induced metabolic syndrome. These results suggest that an NAD(P)H oxidase activation may be a useful therapeutic target for preventing diabetic vascular complications, progressive beta-cell dysfunction and metabolic syndrome.
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PMID:NAD(P)H oxidase activation: a potential target mechanism for diabetic vascular complications, progressive beta-cell dysfunction and metabolic syndrome. 1602 68

One of the most prominent strategies of cancer chemoprevention might be protecting cells or tissues against various carcinogens and carcinogenic metabolites derived from exogenous or endogenous sources. This protection could be achieved through the induction of phase 2 detoxifying enzymes and antioxidant enzymes such as glutathione S-transferase, NAD(P)H quinone oxidoreductase 1, and heme oxygenase-1, a process that is mediated mainly by the antioxidant response elements (ARE) within the promoter regions of these genes. Nuclear factor-erythroid 2-related factor 2 (Nrf2), a member of the Cap 'n' collar (CNC) family of basic region-leucine zipper transcription factors, plays a key role in ARE-mediated gene expression. Under normal condition, Nrf2 is sequestered in the cytoplasm by an actin-binding protein, Kelch-like ECH associating protein 1 (Keap1), and upon exposure of cells to inducers such as oxidative stress and certain chemopreventive agents, Nrf2 dissociates from Keap1, translocates to the nucleus, binds to AREs, and transactivates phase 2 detoxifying and antioxidant genes. Several upstream signaling pathways including mitogen-activated protein kinases, protein kinase C, phosphatidylinositol 3-kinase, and transmembrane kinase are implicated in the regulation of Nrf2/ARE activity. Furthermore, many natural chemopreventive agents are known to induce Nrf2/ARE-dependent gene expression, also in part by regulating the turnover of the Nrf2 protein itself. This review discusses our current understanding of the Nrf2/ARE pathway as a potential molecular target for cancer chemoprevention, as well as the feasibility of screening natural compounds for activation of this pathway and as potential cancer preventive agents for human use.
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PMID:Nrf2: a potential molecular target for cancer chemoprevention by natural compounds. 1648 42

The NAD(P)H oxidase is an enzyme assembled at the cellular membrane able to produce superoxide anion from NADH or NAD(P)H (nicotinamide adenine dinucleotide phosphate). It is one of the main sources of superoxide anion in cardiovascular tissues and its role in a variety of cardiovascular disorders such as atherosclerosis, cardiac hypertrophy, and endothelial dysfunction was recently proposed. Although, many factors and receptors were shown to lead to the activation of the enzyme, particulary the type 1 angiotensin receptor, the pathways involved are still widely unknown. Despite the identification of factors such as c-Src and protein kinase C implicated in the acute activation of NAD(P)H oxidase, the signalling involved in the sustained activation of the enzyme is probably far more complex than was previously envisioned. In this review, we describe the role of endothelin-1 in NAD(P)H oxidase signalling after a sustained stimulation by angiotensin II. Since most pathologies caused by an NAD(P)H oxidase overactivation develop over a relatively long period of time, it is necessary to better understand the long-term signalling of the enzyme for the development or use of more specific therapeutic tools.
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PMID:The interrelation of the angiotensin and endothelin systems on the modulation of NAD(P)H oxidase. 1684 87

Pseudomonas aeruginosa causes life-threatening infections in compromised and cystic fibrosis patients. Pathogenesis stems from a number of virulence factors, including four type III translocated cytotoxins: ExoS, ExoT, ExoY and ExoU. ExoS is a bifunctional toxin: the N terminus (amino acids 96-219) encodes a Rho GTPase Activating Protein (GAP) domain. The C terminus (amino acids 234-453) encodes a 14-3-3-dependent ADP-ribosyltransferase domain which transfers ADP-ribose from NAD onto substrates such as the Ras GTPases and vimentin. Ezrin/radixin/moesin (ERM) proteins have recently been identified as high-affinity substrates for ADP-ribosylation by ExoS. Expression of ExoS in HeLa cells led to a loss of phosphorylation of ERM proteins that was dependent upon the expression of ADP-ribosyltransferase activity. MALDI-MS and site-directed mutagenesis studies determined that ExoS ADP-ribosylated moesin at three C-terminal arginines (Arg553, Arg560 and Arg563), which cluster Thr558, the site of phosphorylation by protein kinase C and Rho kinase. ADP-ribosylated-moesin was a poor target for phosphorylation by protein kinase C and Rho kinase, which showed that ADP-ribosylation directly inhibited ERM phosphorylation. Expression of dominant active-moesin inhibited cell rounding elicited by ExoS, indicating that moesin is a physiological target in cultured cells. This is the first demonstration that a bacterial toxin inhibits the phosphorylation of a mammalian protein through ADP-ribosylation. These data explain how the expression of the ADP-ribosylation of ExoS modifies the actin cytoskeleton and indicate that ExoS possesses redundant enzymatic activities to depolymerize the actin cytoskeleton.
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PMID:Pseudomonas aeruginosa ExoS ADP-ribosyltransferase inhibits ERM phosphorylation. 1688 25

Oxidant pollutants such as diesel exhaust particles (DEPs) can initiate and exacerbate airway allergic responses through enhanced IgE production. These effects are especially pronounced in individuals in whom phase II antioxidant enzyme responses are impaired. We confirmed that DEPs and DEP extracts (DEPX) can act directly on B lymphocytes and showed that DEPX could enhance IgH epsilon germline transcription in a B cell line and in PBMCs. We therefore studied the regulation in B cells of NAD(P)H: quinone oxidoreductase (NQO1) as a typical model phase II enzyme and its role in modulating DEPX-enhanced IgE responses. DEPX increased NQO1 mRNA expression in a dose-dependent manner. NQO1 protein induction by DEPX was confirmed by Western blot. DEPs induced activity of the antioxidant response element located in the NQO1 gene promoter. Induction of both NQO1 mRNA and protein expression could be blocked by coculture with an antioxidant and partly repressed by inhibitors of PI3K and p38 MAPK, but not by inhibitors of MAPK/ERK kinase (MEK/ERK) or protein kinase C. The ability of DEPX to enhance IgE production was blocked by the induction of phase II enzymes, including NQO1 in B cells by the chemical sulforaphane. These findings suggest that a natural protective mechanism in B cells from oxidant pollutants such as diesel particles is the expression of phase II enzymes through induction of antioxidant response elements and support the approach of overexpression of these enzymes as a potential future chemopreventative strategy.
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PMID:Phase II enzymes induction blocks the enhanced IgE production in B cells by diesel exhaust particles. 1692 Sep 90

Nuclear NAD(+) metabolism constitutes a major component of signaling pathways. It includes NAD(+)-dependent protein deacetylation by members of the Sir2 family and protein modification by poly(ADP-ribose) polymerase 1 (PARP-1). PARP-1 has emerged as an important mediator of processes involving DNA rearrangements. High-affinity binding to breaks in DNA activates PARP-1, which attaches poly(ADP-ribose) (PAR) to target proteins. NMN adenylyl transferases (NMNATs) catalyze the final step of NAD(+) biosynthesis. We report here that the nuclear isoform NMNAT-1 stimulates PARP-1 activity and binds to PAR. Its overexpression in HeLa cells promotes the relocation of apoptosis-inducing factor from the mitochondria to the nucleus, a process known to depend on poly(ADP-ribosyl)ation. Moreover, NMNAT-1 is subject to phosphorylation by protein kinase C, resulting in reduced binding to PAR. Mimicking phosphorylation, substitution of the target serine residue by aspartate precludes PAR binding and stimulation of PARP-1. We conclude that, depending on its state of phosphorylation, NMNAT-1 binds to activated, automodifying PARP-1 and thereby amplifies poly(ADP-ribosyl)ation.
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PMID:Regulation of poly(ADP-ribose) polymerase 1 activity by the phosphorylation state of the nuclear NAD biosynthetic enzyme NMN adenylyl transferase 1. 1736 Apr 27

Electrophile and free radical detoxifying enzymes including NAD(P)H:quinine oxidoreductase 1 (Nqo1) play an important role in the defense system by enhancing cellular antioxidant capacity. Chemopreventive efficacy of 3H-1,2-dithiole-3-thione (D3T) is mediated through activation of the transcription factor Nrf2 and subsequent elevation of detoxifying enzymes. In the present study, we have investigated the potential role of extracellular signal-regulated kinase (ERK) in regulation of D3T-induced and Nrf2-dependent gene expression in murine keratinocytes. Expression levels of Nqo1 were highly inducible by D3T treatment and increased nuclear levels of Nrf2 were observed in these cells. Treatment with pharmacological inhibitor of ERK1/2 largely blocked nuclear accumulation of Nrf2, ARE-driven reporter gene expression, and induction of Nqo1, as well as other phase 2 genes. Activation of ERK1/2 has been demonstrated following treatment with D3T. While, inhibitors of p38, PKC and PI3K did not affect ARE-driven gene expression. Involvement of the ERK1/2 cascade in inducible ARE-transcription activities was also observed in cells treated with other types of inducers oltipraz, sulforaphane and hydrogen peroxide. Collectively, current study suggests that phosphorylation cascade via ERK1/2 is associated with the activation process of Nrf2 and subsequent transactivation of its target gene Nqo1 following treatment with dithiolethione in murine keratinocyte.
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PMID:Induction of Nrf2-regulated genes by 3H-1, 2-dithiole-3-thione through the ERK signaling pathway in murine keratinocytes. 1785 98

The induction of NF-E2-related factor-2 (Nrf2)-mediated detoxifying/antioxidant enzymes is recognized as an effective strategy for cancer chemoprevention. Here, we report that 3-morpholinopropyl isothiocyanate (3MP-ITC) is an exceptionally strong chemical inducer of these enzymes. Exposure of 3MP-ITC in HepG2C8 cells not only induced endogenous Nrf2 protein but also suppressed endogenous Kelch-like ECH-associated protein 1, resulting in an increased nuclear accumulation of Nrf2. Using chemical inhibitors of protein synthesis (cycloheximide) and 26S proteosomal degradation (MG-132), we observed that the induction of Nrf2 protein by 3MP-ITC appeared to be post-translationally regulated. 3MP-ITC activated ERK1/2 and JNK1/2 and the activation of antioxidant response element (ARE) by 3MP-ITC was significantly attenuated by chemical inhibition of PKC and PI3K signaling pathways in HepG2C8 cells. Treatment with 3MP-ITC significantly depleted the intracellular level of glutathione (GSH) in HepG2C8 cells and oral administration of 3MP-ITC increased the protein expression of hepatic NAD[P]H:quinone oxidoreductase-1 and Nrf2 in Nrf2 (+/+) but not in Nrf2 (-/-) mice, whereas UDP-glucuronosyl transferase 1A1 was induced in both genotypes. Our results indicate that 3MP-ITC is a novel ITC that strongly induces Nrf2-dependent ARE-mediated detoxifying/antioxidant enzymes in vitro and in vivo via the Nrf2 signaling pathway coupled with GSH depletion and activation of multiple signaling kinase pathways, which could be potentially useful agent for cancer chemoprevention.
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PMID:3-Morpholinopropyl isothiocyanate is a novel synthetic isothiocyanate that strongly induces the antioxidant response element-dependent Nrf2-mediated detoxifying/antioxidant enzymes in vitro and in vivo. 1791 1

Reactive oxygen species (ROS) play an important role in the pathogenesis of numerous pulmonary diseases. Various mainly membrane-bound ROS-generating processes exist in alveolar cells. Vitamin E (vit. E) is the most important lipophilic antioxidant. However, the significance of vit. E levels in alveolar cells for the regulation of ROS generation has not been investigated so far. We demonstrated here that feeding rats with vit. E-depleted nourishment for 5 weeks reduced the concentration of vit. E in alveolar type II cell preparations to one-fifth the amount of control animals. This reduction of vit. E levels was associated with an approximately threefold increase in ROS generation in type II pneumocytes, lymphocytes, and macrophages. The contribution of individual processes of ROS formation in control animals differed strongly among these three cell types. However, vit. E deficiency induced predominantly nonmitochondrial ROS formation in alveolar cells. Expression and NAD(P)H-oxidase activity in alveolar type II cell preparations was not affected by vit. E deficiency. Moreover, protein kinase C (PKC) also did not seem to be responsible for vit. E deficiency-induced ROS generation in alveolar cells. Alimentary vit. E supplementation for 2 days corrected the cellular vit. E concentration but failed to normalize ROS generation in alveolar cells. These data let us assume that alimentary vit. E deficiency caused a preferentially nonmitochondria-mediated increase of ROS formation in type II pneumocytes, macrophages, and lymphocytes. However, the short-term supplementation of vit. E does not reverse these effects.
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PMID:Formation of reactive oxygen species in lung alveolar cells: effect of vitamin E deficiency. 1831 37

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