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Query: EC:1.6.5.2 (
NQO1
)
6,196
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
In the last decade, it has become recognized that reactive oxygen species (ROS) play important roles in the multiple biological processes involved in the pathophysiology of chronic inflammation such as cell proliferation, adhesion molecule expression, cytokine and chemoattractant production and matrix metalloproteinase generation. Intracellular redox homeostasis is maintained by balancing the production of ROS with their removal through cellular antioxidant defense systems. The antioxidant response element (ARE) is a cis-acting DNA regulatory element located in the regulatory regions of multiple genes including phase II detoxification enzymes as well as antioxidant proteins including glutathione-S-transferases,
NAD(P)H:quinone oxidoreductase
-1, gamma-glutamylcysteine synthase,
ferritin
, and heme oxygenase-1. Nrf2 is the primary transcription factor that binds to the ARE, and through heterodimerization with other leucine-zipper containing transcription factors, activates the expression of these genes. It is evident that activation of ARE-regulated genes contributes to the regulation of cellular antioxidant defense systems. More importantly, there is a growing body of evidence suggesting that modulation of these cytoprotective genes has profound effects on immune and inflammatory responses. Activation of cytoprotective Nrf2/ARE-regulated genes can suppress inflammatory responses, whereas decreased expression of these genes results in autoimmune disease and enhanced inflammatory responses to oxidant insults. Thus, coordinate induction of cytoprotective genes through Nrf2/ARE pathway may represent a novel therapeutic approach for the treatment of immune and inflammatory diseases.
...
PMID:Induction of cytoprotective genes through Nrf2/antioxidant response element pathway: a new therapeutic approach for the treatment of inflammatory diseases. 1503 91
Rats were exposed to three levels of bromobenzene, sampled at 6, 24, and 48 h, and liver gene expression profiles were determined to identify dose and time-related changes. Expression of many genes changed transiently, and dependent on the dose. Few changes were identified after 6 h, but many genes were differentially expressed after 24 h, while after 48 h, only the high dose elicited large effects. Differentially expressed genes were involved in drug metabolism (upregulated GSTs, mEH,
NQO1
, Mrps, downregulated CYPs, sulfotransferases), oxidative stress (induced HO-1, peroxiredoxin,
ferritin
), GSH depletion (induced GCS-l, GSTA, GSTM) the acute phase response, and in processes like cholesterol, fatty acid and protein metabolism, and intracellular signaling. Trancriptional regulation via the electrophile and sterol response elements seemed to mediate part of the response to bromobenzene. Recovery of the liver was suggested in response to BB by the altered expression of genes involved in protein synthesis and cytoskeleton rearrangement. Furthermore, after 48 h, rats in the mid dose group showed no toxicity, and gene expression patterns resembled the normal situation. For certain genes (e.g., CYP4A, metallothioneins), intraday variation in expression levels was found, regardless of the treatment. Selected cDNA microarray measurements were confirmed using the specific and sensitive branched DNA signal amplification assay.
...
PMID:Bromobenzene-induced hepatotoxicity at the transcriptome level. 1505
Ferritins, an ancient family of protein nanocages, concentrate iron in iron-oxy minerals for iron-protein biosynthesis and protection against oxy radical damage. Of the two genetic mechanisms that regulate rates of
ferritin
-L synthesis, DNA transcription and mRNA translation, more is known about mRNA regulation where iron targets complexes of an mRNA structure, the iron-responsive element (IRE) sequence, and
ferritin
IRE repressors (iron regulatory proteins 1 and 2). Neither the integration of mRNA and DNA regulation nor the
ferritin
-L DNA promoter are well studied. We now report the combined effects of DNA transcription and mRNA translation regulation of
ferritin
-L synthesis. First, the promoter of human
ferritin
-L, encoding the animal-specific subunit associated with human diseases, was identified, and contained an overlapping Maf recognition element (MARE) and antioxidant responsive element (ARE) that was positively regulated by tert-butylhydroquinone, sulforaphane, and hemin with responses comparable to thioredoxin reductase (ARE regulator) or
quinone reductase
(MARE/ARE regulator). Iron, a poor regulator of the
ferritin
-L promoter, was 800 times less effective than sulforaphane. Combining the
ferritin
-L MARE/ARE and IRE produced a response to hemin that was 3-fold greater than the sum of responses of the MARE/ARE or IRE alone. Regulation of
ferritin
-L by a MARE/ARE DNA sequence emphasizes the importance of
ferritin
-L in oxidative stress that complements the mRNA regulation in iron stress. Combining DNA and mRNA mechanisms of regulation, as for
ferritin
-L, illustrates the advantages of using two types of genetic targets to achieve sensitive responses to multiple signals.
...
PMID:DNA and mRNA elements with complementary responses to hemin, antioxidant inducers, and iron control ferritin-L expression. 1621 41
Twenty-six Helicobacter pylori targeted mutant strains with deficiencies in oxidative stress combating proteins, including 12 double mutant strains were analyzed via physiological and proteomic approaches to distinguish the major expression changes caused by the mutations. Mutations were introduced into both a Mtz(S) and a Mtz(R) strain background. Most of the mutations caused increased growth sensitivity of the strains to oxygen, and they all exhibited clear compensatory up-expression of oxidative stress resistance proteins enabling survival of the bacterium. The most frequent up-expressed oxidative stress resistance factor (observed in 16 of the mutants) was the iron-sequestering protein NapA, linking iron sequestration with oxidative stress resistance. The up-expression of individual proteins in mutants ranged from 2 to 10 fold that of the wild type strain, even when incubated in a low O(2) environment. For example, a considerably higher level of catalase expression (4 fold of that in the wild-type strain) was observed in ahpC napA and ahpC sodB double mutants. A Fur mutant up-expressed
ferritin
(Pfr) protein 20-fold. In some mutant strains the bacterial DNA is protected from oxidative stress damage apparently via overexpression of oxidative stress-combating proteins such as NapA, catalase or MdaB (an NADPH
quinone reductase
). Our results show that H. pylori has a variety of ways to compensate for loss of major oxidative stress combating factors.
...
PMID:Up-expression of NapA and other oxidative stress proteins is a compensatory response to loss of major Helicobacter pylori stress resistance factors. 1629 43
An effective utilization of intracellular iron is a prerequisite for erythroid differentiation and hemoglobinization. Ferritin, consisting of 24 subunits of H and L, plays a crucial role in iron homeostasis. Here, we have found that the H subunit of the
ferritin
gene is activated at the transcriptional level during hemin-induced differentiation of K562 human erythroleukemic cells. Transfection of various 5' regions of the human
ferritin
H gene fused to a luciferase reporter into K562 cells demonstrated that hemin activates
ferritin
H transcription through an antioxidant-responsive element (ARE) that is responsible for induction of a battery of phase II detoxification genes by oxidative stress. Gel retardation and chromatin immunoprecipitation assays demonstrated that hemin induced binding of cJun, JunD, FosB, and Nrf2 b-zip transcription factors to AP1 motifs of the
ferritin
H ARE, despite no significant change in expression levels or nuclear localization of these transcription factors. A Gal4-luciferase reporter assay did not show activation of these b-zip transcription factors after hemin treatment; however, redox factor 1 (Ref-1), which increases DNA binding of Jun/Fos family members via reduction of a conserved cysteine in their DNA binding domains, showed induced nuclear translocation after hemin treatment in K562 cells. Consistently, Ref-1 enhanced Nrf2 binding to the ARE and
ferritin
H transcription. Hemin also activated ARE sequences of other phase II genes, such as GSTpi and
NQO1
. Collectively, these results suggest that hemin activates the transcription of the
ferritin
H gene during K562 erythroid differentiation by Ref-1-mediated activation of these b-zip transcription factors to the ARE.
...
PMID:Hemin-mediated regulation of an antioxidant-responsive element of the human ferritin H gene and role of Ref-1 during erythroid differentiation of K562 cells. 1653 25
In order to identify an enzyme capable of Fenton reaction in Synechocystis, we purified an enzyme catalyzing one-electron reduction of t-butyl hydroperoxide in the presence of FAD and Fe(III)-EDTA. The enzyme was a 26 kDa protein, and its N-terminal amino acid sequencing revealed it to be DrgA protein previously reported as
quinone reductase
[Matsuo M, Endo T and Asada K (1998) Plant Cell Physiol39, 751-755]. The DrgA protein exhibited potent
quinone reductase
activity and, furthermore, we newly found that it contained FMN and highly catalyzed nitroreductase, flavin reductase and ferric reductase activities. This is the first demonstration of nitroreductase activity of DrgA protein previously identified by a drgA mutant phenotype. DrgA protein strongly catalyzed the Fenton reaction in the presence of synthetic chelate compounds, but did so poorly in the presence of natural chelate compounds. Its ferric reductase activity was observed with both natural and synthetic chelate compounds with a better efficiency with the latter. In addition to small molecular-weight chemical chelators, an iron transporter protein, transferrin, and an iron storage protein,
ferritin
, turned out to be substrates of the DrgA protein, suggesting it might play a role in iron metabolism under physiological conditions and possibly catalyze the Fenton reaction under hyper-reductive conditions in this microorganism.
...
PMID:Synechocystis DrgA protein functioning as nitroreductase and ferric reductase is capable of catalyzing the Fenton reaction. 1729 43
Ferritin gene transcription is regulated by heme as is
ferritin
mRNA translation, which is mediated by the well studied mRNA.IRE/IRP protein complex. The heme-sensitive DNA sequence in
ferritin
genes is the maf recognition/antioxidant response element present in several other genes that are induced by heme and repressed by Bach1. We now report that chromatin immunoprecipitated with Bach1 antiserum contains
ferritin
DNA sequences. In addition, overexpression of Bach1 protein in the transfected cells decreased
ferritin
expression, indicating insufficient endogenous Bach1 for full repression; decreasing Bach1 with antisense RNA increased
ferritin
expression. Thioredoxin reductase1, a gene that also contains a maf recognition/antioxidant response element but is less studied, responded similarly to
ferritin
, as did the positive controls heme oxygenase1 and NADP(H) quinone (oxido) reductase1. Bach1-DNA promoter interactions in cells were confirmed in vitro with soluble, recombinant Bach1 protein and revealed a quantitative range of Bach1/DNA stabilities:
ferritin
L approximately
ferritin
H approximately beta-globin, beta-globin approximately 2-fold >heme oxygenase1 =
quinone reductase
beta-globin approximately 4-fold >thioredoxin reductase1. Such results indicate the possibility that modulation of cellular Bach1 concentrations will have variable effects among the genes coordinately regulated by maf recognition/antioxidant response elements in iron/oxygen/antioxidant metabolism.
...
PMID:Bach1 repression of ferritin and thioredoxin reductase1 is heme-sensitive in cells and in vitro and coordinates expression with heme oxygenase1, beta-globin, and NADP(H) quinone (oxido) reductase1. 1790 Oct 53
We report herein a study of aging using in vitro and in vivo models. Glial fibrillary acidic protein and
ferritin
expression levels increased, and the levels of glutamate transporter 1 and transferrin receptor 1 decreased in aging mouse spinal cord and its astrocytes. Mitochondrial transmembrane potential in astrocytes decreased after 60 d of culture. Given the relationship between aging and loss of antioxidant tolerance capacity, we examined the expression of heme oxygenase 1 (HO1) and NAD(P)H/quinone oxidoreductase 1 (
NQO1
) in the old mouse astrocytes and spinal cord. Indeed, both antioxidant enzymes decreased there. Total nuclear factor E2-related factor 2, which governs basal and inducible expression of HO1 and
NQO1
, decreased significantly. Significantly, epigallocatechin gallate restored the Nrf2 activity.
...
PMID:Nrf2 activity is lost in the spinal cord and its astrocytes of aged mice. 1945 31
NFE2-related factor 2 (Nrf2), which belongs to the cap "n" collar family of basic region leucine zipper transcription factors, is a key protein in the coordinated transcriptional induction of expression of various antioxidant genes. The purpose of this study was to analyze the expression of Nrf2 target genes, such as heme oxygenase 1 (HO-1),
ferritin heavy polypeptide 1
(
FTH1
), NAD(P)H dehydrogenase, quinone 1 (
NQO1
), glutamate-cysteine ligase catalytic subunit, glutamate-cysteine ligase modifier subunit, glutathione reductase (GSR) and thioredoxin reductase 1 (TXNRD1), after X irradiation of CD34(+) cells that were prepared from human placental/umbilical cord blood hematopoietic stem cells (HSCs). We evaluated the relationship between radiosensitivity and expression of Nrf2 target genes in HSCs. The number of colony-forming cells derived from 2-Gy-irradiated HSCs decreased to approximately 20% of the nonirradiated control. At the same time, the mRNA expression of HO-1,
FTH1
,
NQO1
, GSR and TXNRD1 was significantly increased after X irradiation. A statistically significant negative correlation was observed between the surviving fraction of HSCs and the intrinsic
NQO1
mRNA expression, indicating that HSCs in which
NQO1
mRNA levels are low may also be radioresistant. The present results suggest that the antioxidant system associated with Nrf2 is involved in the radiosensitivity of HSCs.
...
PMID:Relationship between radiosensitivity and Nrf2 target gene expression in human hematopoietic stem cells. 2068 84
ATF1 (activating transcription factor 1), a stimulus-induced CREB family transcription factor, plays important roles in cell survival and proliferation. Phosphorylation of ATF1 at Ser63 by PKA (cAMP-dependent protein kinase) and related kinases was the only known post-translational regulatory mechanism of ATF1. Here, we found that HIPK2 (homeodomain-interacting protein kinase 2), a DNA-damage-responsive nuclear kinase, is a new ATF1 kinase that phosphorylates Ser198 but not Ser63. ATF1 phosphorylation by HIPK2 activated ATF1 transcription function in the GAL4-reporter system. ATF1 is a transcriptional repressor of
ferritin
H, the major intracellular iron storage gene, through an ARE (antioxidant-responsive element). HIPK2 overrode the ATF1-mediated ARE repression in a kinase-activity-dependent manner in HepG2 cells. Furthermore, DNA-damage-inducing agents doxorubicin, etoposide and sodium arsenite induced
ferritin
H mRNA expression in HIPK2(+/+) MEF cells, whereas it was significantly impaired in HIPK2(-/-) MEF cells. Induction of other ARE-regulated detoxification genes such as
NQO1
(NADPH quinone oxidoreductase 1), GST (glutathione S-transferase) and HO1 (heme oxygenase 1) by genotoxic stress was also decreased in HIPK2-deficient cells. Taken together, these results suggest that HIPK2 is a new ATF1 kinase involved in the regulation of
ferritin
H and other antioxidant detoxification genes in genotoxic stress conditions.
...
PMID:Transcriptional regulation of ferritin and antioxidant genes by HIPK2 under genotoxic stress. 2098 Mar 92
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