Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P30044 (antioxidant enzyme)
 8,037 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Evidence from a number of studies suggests that the mechanism by which tumor necrosis factor (TNF) kills transformed cells involves oxidative stress. NAD(P)H:(quinone acceptor) oxidoreductase (NQO1) is an antioxidant enzyme with particular relevance to cancer. The MCF-7 breast cancer cell line was stably transfected with rat NQO1 cDNA to determine whether increased NQO1 activity alters sensitivity to TNF-induced apoptosis. Five clones, with a range of NQO1 enzyme activities from 5- to 50-fold greater than the MCF-7 line, and two control transfectants were examined. Northern blot hybridization analyses and reverse transcription-PCR demonstrated that the increase in NQO1 activity in the transfectants was attributable to expression from the transfected rat sequence. Based on sulforhodamine B assays for the number of viable cells, the NQO1 clones showed increased sensitivity to EO9, an indoloquinone that undergoes bioactive reduction by NQO1. Viability studies also demonstrated that the NQO1 transfectants were significantly more sensitive to TNF than the control transfectants or MCF-7 parent. This increased sensitivity could not be explained by changes in superoxide dismutase or catalase activity or to increased sensitivity to oxidative stress in general, as assessed by response to hydrogen peroxide and paraquat treatment. Using dichlorodihydrofluorescein diacetate as a probe, we found that the NQO1 transfectants had no difference in baseline level of oxidative stress compared to the control cells but did exhibit greater intracellular oxidative stress after TNF treatment. We conclude that NQO1 can affect the TNF-mediated pathway to apoptosis.
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PMID:Increased tumor necrosis factor-alpha sensitivity of MCF-7 cells transfected with NAD(P)H:quinone reductase. 1091 79

The antioxidant responsive element (ARE) is a cis-acting regulatory element located in the 5'-flanking region of several genes encoding phase II detoxification enzymes, including NAD(P)H:quinone oxidoreductase (NQO1). We report here that activation of the NQO1 ARE by tert-butylhydroquinone (tBHQ) is dependent on Nrf2 and not oxidative stress in IMR-32 human neuroblastoma cells. Overexpression of wild-type Nrf2 activated ARE in a dose-dependent manner, and ARE activation by tBHQ or diethyl maleate (DEM) was inhibited by dominant/negative Nrf2 not by dominant/negative c-Jun. According to our observation, the palindromic sequence (5' to the core) and the GC box in the ARE core sequence are essential for maximal inducibility by tBHQ or DEM. Overexpression of Nrf2 selectively activated wild-type ARE up to 24 h. In addition, a dramatic nuclear translocation of Nrf2 by tBHQ supports a role for Nrf2 in ARE activation. Although oxidative stress is hypothesized to be a major driving force for ARE activation, pretreatment of antioxidant or antioxidant enzyme did not block tBHQ-mediated ARE activation. In contrast, ARE activation by DEM was inhibited by antioxidants or catalase. These results suggest that ARE activation signals from tBHQ and DEM converge at Nrf2 transcription factor through independent mechanisms.
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PMID:Nrf2-dependent activation of the antioxidant responsive element by tert-butylhydroquinone is independent of oxidative stress in IMR-32 human neuroblastoma cells. 1116 12

A direct involvement of the antioxidant enzyme NAD(P)H:quinone oxidoreductase (NQO1) in neuroprotection has not yet been shown. The aim of this study was to examine changes, localization and role of NQO1 after different neuronal injury paradigms. In primary cultures of rat cortex the activity of NQO1 was measured after treatment with ethylcholine aziridinium (AF64A; 40 micro m), inducing mainly apoptotic cell death, or oxygen-glucose deprivation (OGD; 120 min), which combines features of apoptotic and necrotic cell death. After treatment with AF64A a significant NQO1 activation started after 24 h. Sixty minutes after OGD a significant early induction of the enzyme was observed, followed by a second increase 24 h later. Enzyme activity was preferentially localized in glial cells in control and injured cultures, however, expression also occurred in injured neuronal cells. Inhibition of the NQO1 activity by dicoumarol, cibacron blue or chrysin (1-100 nM) protected the cells both after exposure to AF64A or OGD as assessed by the decreased release of lactate dehydrogenase. Comparable results were obtained in vivo using a mouse model of focal cerebral ischaemia. Dicoumarol treatment (30 nmol intracerebroventricular) reduced the infarct volume by 29% (p = 0.005) 48 h after the insult. After chemical induction of NQO1 activity by t-butylhydroquinone in vitro neuronal damage was exaggerated. Our data suggest that the activity of NQO1 is a deteriorating rather than a protective factor in neuronal cell death.
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PMID:Role of NAD(P)H:quinone oxidoreductase in the progression of neuronal cell death in vitro and following cerebral ischaemia in vivo. 1260 27

NAD(P)H: quinone oxidoreductase 1 (NQO1) is an antioxidant enzyme, important in the detoxification of environmental carcinogens. A single base substitution (C --> T) polymorphism at nucleotide 609 (null-allele) of NQO1 gene impairs stability and function of the NQO1 protein. To investigate the association of this NQO1 polymorphism with susceptibility to esophageal squamous cell carcinoma (ESCC), the NQO1 C609T genotypes were determined by PCR-RFLP analysis in 450 patients with ESCC (257 German Caucasians and 193 northern Chinese) and 393 unrelated healthy controls (252 German Caucasians and 141 northern Chinese). Additionally, NQO1 protein expression was determined by immunohistochemistry in a subset of 74 ESCC (50 German, 24 Chinese). A significant difference in NQO1 C609T genotype distribution was observed between Caucasian healthy controls (C/C, 73.4%; C/T, 25.0%; T/T, 1.6%) and Chinese healthy controls (C/C, 34.0%; C/T, 49.7%; T/T, 16.3%) (chi(2) = 68.40, P < 0.001). The NQO1 T/T genotype significantly increased the risk for developing ESCC in both Caucasian subjects (OR = 4.62, 95% CI = 1.54-13.86) and Chinese subjects (OR = 1.81, 95% CI = 1.04-3.15), compared with the combined C/C and C/T genotypes. In Chinese subjects, this increased susceptibility was pronounced in patients with family history of upper gastrointestinal cancers (OR = 2.18, 95% CI = 1.14-4.17). Immunohistochemical analysis showed NQO1 protein expression in 53 carcinomas, whereas 21 carcinomas were negative. Negativity for NQO1 expression correlated strongly with the NQO1 genotype, being present in 8.6% of cases with C/C, 22.2% of cases with C/T and 100% of cases with T/T genotype (chi(2) = 16.60, P < 0.001). In summary, the association of the NQO1 C609T polymorphism with ESCC in genetically distinct populations makes a strong argument for its importance in carcinogenesis of ESCC in the German Caucasian and the northern Chinese population.
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PMID:Association of NAD(P)H: quinone oxidoreductase 1 (NQO1) C609T polymorphism with esophageal squamous cell carcinoma in a German Caucasian and a northern Chinese population. 1277 Oct 35

NQO1 is an antioxidant enzyme, important in the detoxification of environmental carcinogens. A single nucleotide polymorphism (C-->T) at position 609 of the NQO1 cDNA has been associated with susceptibility to tumours induced by chemical carcinogens. In our case-control study, we determined the prevalence of the C609T NQO1 polymorphism by PCR-RFLP analysis in Caucasian patients with oesophageal adenocarcinoma (OAC; n=61), cardiac adenocarcinoma (CAC; n=120) or gastric adenocarcinoma (GAC; n=203) vs. a control group that consisted of 252 healthy blood donors. Additionally, NQO1 mRNA expression and NQO1 protein expression were determined by RT-PCR and immunohistochemistry in a subset of cases. The NQO1 C609T genotype distribution was significantly different among controls (C/C, 73.4%; C/T, 25.0%; T/T, 1.6%) as compared to OAC patients (C/C, 49.2%; C/T, 47.5%; T/T, 3.3%; p=0.0004), CAC patients (C/C, 55.8%; C/T, 40.0%; T/T, 4.2%; p=0.0005) and with GAC patients (C/C, 65.5%; C/T; 30.6%, T/T; 3.9%; p=0.0377). The 609T allele overall frequency was 0.141 in controls, 0.270 in OAC patients, 0.241 in CAC patients and 0.192 in GAC patients. Individuals carrying 1 or 2 609T alleles had a 2.85-fold higher risk (95% CI: 1.61-5.07; p=0.0003) for the development of OAC and a 2.18-fold higher risk (95% CI: 1.38-3.44; p=0.0007) for the development of CAC than wild-type gene homozygotes. Immunohistochemical analysis showed NQO1 protein expression in 133 carcinomas, whereas 17 carcinomas were negative. Negativity for NQO1 protein expression correlated strongly with the NQO1 genotype being present in 3.9% of cases with C/C, 13.9% of cases with C/T and 62.5% of cases with T/T genotype (p<0.001). In contrast, NQO1 mRNA expression was detectable irrespective of underlying genotype. In conclusion, determination of the NQO1 genotype may gain importance as a stratification marker in future prevention trials for adenocarcinoma of upper gastrointestinal tract.
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PMID:Association between NAD(P)H: quinone oxidoreductase 1 (NQ01) inactivating C609T polymorphism and adenocarcinoma of the upper gastrointestinal tract. 1450 37

I-compounds are bulky indigenous DNA adducts that can be detected by (32)P-postlabeling. A subgroup, termed type II I-compounds, represents DNA lesions induced by oxidative stress. Several major type II I-compounds have been identified as dinucleotides containing 3'-terminal 8,5'-cyclo-2'-deoxyadenosine (cA). Levels of type II I-compounds depend on the pro-oxidant status of the cell. For example, enhanced formation of such oxidative DNA lesions in newborn rodents appears to be a consequence of incomplete development of neonatal antioxidant defense systems. We tested the hypothesis that young mice deficient in NAD(P)H:quinone oxidoreductase 1 (NQO1), an antioxidant enzyme catalyzing the detoxification of quinones and their derivatives, show increased formation of these oxidative DNA lesions. Type II I-compound levels were determined by (32)P-postlabeling in liver and kidney DNA of untreated male wild-type or NQO1-null C57BL/6 mice of different ages. NQO1 catalytic activities and contents were measured by spectrophotometric and Western blotting techniques, respectively. Elevated oxidative adduct levels including those containing cA were detected in NQO1-null compared to wild-type mice at 10, 30 and 90 days in liver and at 30 and 90 days in kidney DNA. Furthermore, there were statistically significant inverse relationships between type II I-compound levels and NQO1 activities in wild-type mice up to 30 days of age. Taken together, the results suggest that NQO1 plays an important role in attenuating endogenous oxidative DNA damage in vivo. Our results show also that type II I-compounds represent useful and sensitive biomarkers with utility in studies of oxidative DNA damage and its consequences.
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PMID:Effects of NQO1 deficiency on levels of cyclopurines and other oxidative DNA lesions in liver and kidney of young mice. 1538 90

Hypercholesterolemia has been suggested as a risk factor for Alzheimer's disease (AD). A genetic risk factor for AD is the E4 allele of apolipoprotein E (apoE). ApoE is the major lipoprotein transporter in the brain, and is mainly produced by glial cells. The present study is focussed on analysing the effects of high cholesterol (HC) diet, duration 9 months, on glial activation in the brain, both in wild type (WT) mice and in mice with a null mutation in the apoE gene (knock-out, KO) mice. The activation of astrocytes and microglia was analysed after immunohistochemical labelling of glial fibrillary acidic protein (GFAP), and F4/80, respectively. In addition, the expression of the antioxidant enzyme NAD(P)H:quinone oxidoreductase (NQO1) was analysed. There was a marked stimulation of astrocyte and microglial activation as well as induced expression of NQO1 in the hippocampus and cerebral cortex upon HC diet. Furthermore, there was significant astrocyte activation in the apoE KO mice, as compared to the WT mice, on ND. The long time exposure to HC diet combined with apoE deficiency resulted in a synergistic effect on the expression of NQO1 in the brain.
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PMID:Effects of high cholesterol diet on gliosis in apolipoprotein E knockout mice. Implications for Alzheimer's disease and stroke. 1545 Jun 74

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

In Parkinson's disease (PD), the pathogenic factors oxidative stress and protein aggregation interact and culminate in the apoptotic death of (mainly catecholaminergic) neurons. The dithiolethiones comprise thiol antioxidants that are well known for their activation of the expression of a wide collection of cytoprotective genes, including genes coding for antioxidant enzymes. Given the observation that heat shock proteins (HSPs), in particular the heat shock protein 72 (HSP72), protects against cellular degeneration in various models of PD, the ability of the unsubstituted dithiolethione 1,2-dithiole-3-thione (D3T) to stimulate heat shock protein gene and protein expression was studied using the dopaminergic PC12 cell line. As anticipated, D3T stimulated the expression of the antioxidant enzyme NAD(P)H:quinone oxidoreductase 1 (NQO1). Quantitative PCR analysis revealed that D3T stimulates the expression of the inducible, cytoplasmic HSP72. Moreover, D3T strongly potentiated HSP72 gene and protein expression in heat-stressed cells. Taken together, our data show that, in addition to antioxidant enzymes, D3T stimulates the expression of HSP72, a chaperone shown to be neuroprotective in various models of PD, in particular under conditions of cellular stress. Thus, the broad range manipulation of endogenous cellular defense mechanisms, through D3T, may represent an innovative approach to therapeutic intervention in PD.
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PMID:The thiol antioxidant 1,2-dithiole-3-thione stimulates the expression of heat shock protein 70 in dopaminergic PC12 cells. 1730 31

Phase II detoxification enzymes are responsible for the detoxification and elimination of activated carcinogens, and thus act as important biomarkers for chemoprevention. In this study, we tested the chemopreventive activity of taxifolin, a flavanon compound purified from a mongolian medicinal plant, by measuring quinone reductase (QR) activity in HCT 116 cells. Taxifolin induced significant QR activity, but displayed relatively low cytotoxicity in cells (chemoprevention index=5.75). To identify the target genes regulated by taxifolin, DNA microarray was performed with a 3K human cancer chip containing 3096 human genes associated with carcinogenesis. Significant analysis of microarray (SAM) revealed 428 differentially expressed (DE) genes as statistically significant, with a false discovery rate (FDR) of 57.2% (delta=0.3366). Sixty-five genes, including a few detoxification enzymes (NQO1, GSTM1) and an antioxidant enzyme (TXNRD1), were up-regulated and 363 genes were down-regulated in the presence of 60 microM taxifolin. In view of the finding that selected genes of interest contained antioxidant response element (ARE), we hypothesize that taxifolin modulates chemopreventive genes through activation of the ARE. Transient transfection experiments using the ARE QR-CAT construct demonstrate that taxifolin significantly activates ARE, but not xenobiotic response element (XRE). In conclusion, taxifolin acts as a potential chemopreventive agent by regulating genes via an ARE-dependent mechanism.
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PMID:The chemopreventive effect of taxifolin is exerted through ARE-dependent gene regulation. 1754 Nov 56


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