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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)
The extent of ferrihemoglobin formation in human erythrocytes by 4-nitrosophenetol and its metabolisation rate strongly depended on the availability of cellular
GSH
. Ferrihemoglobin formation rate was increased by inhibition of the red cell glutathione reductase, and 4-nitrosophenetol disappeared more slowly. When red cells were completely depleted from SH groups, ferrihemoglobin formation was retarded, despite 4-nitrosophenetol was hardly metabolized. In turn, the glutathione status of human red cells was strongly affected by 4-nitrosophenetol. GSSG, which was produced in large amounts, was reduced, as long as the reducing system was intact. The decreased total glutathione content, however, did not recover completely, indicating formation of stable glutathione S-conjugates. The active export of the stable model glutathione thioether S-(2,4-dinitrophenyl)glutathione was strongly inhibited by 4-nitrosophenetol. A Lineweaver-Burk plot of the transport data suggested a competitive inhibition mechanism, presumably caused by glutathione adducts. The results indicate that the strong pi-donor substituent in 4-nitrosophenetol enables metabolic reactions with glutathione, producing biological effects hitherto not observed with nitrosobenzene. Bicyclic arylamines and glutathione S-conjugates may cause ferrihemoglobin formation that is not brought about by the
diaphorase
reaction. The latter may be responsible for transport inhibition of GSSG and other glutathione S-conjugates.
...
PMID:Effects of the phenacetin metabolite 4-nitrosophenetol on the glutathione status and the transport of glutathione S-conjugates in human red cells. 843 97
One mechanism by which chemicals cause cellular injury is the formation of reactive oxygen species. In vitro studies have shown that metallothionein (MT), a small metal-binding, sulfhydryl-rich, readily inducible protein, can scavenge reactive oxygen species, especially hydroxyl radicals. Nevertheless, whether or not MT protects against oxidative stress in the intact animal is not known. Experimental induction of MT could help to clarify this question, however, it is unclear whether agents that induce MT also influence known antioxidant systems. Therefore, the present study was designed to determine whether the well-known MT inducers are specific for induction of MT or whether they might also influence other hepatic systems that protect against oxidative stress. Male rats were administered cadmium chloride (Cd; 30 mumol/kg, s.c.), zinc chloride (Zn; 1000 mumol/kg, s.c.), alpha-hederin (alpha-H, 30 mumol/kg, s.c.) or lipopolysaccharide (LPS; 1 mg/kg, s.c.) 24 h prior to measurement of antioxidant systems. Zn and alpha-H increased hepatic
GSH
concentration 20% and 55%, respectively. Cd significantly increased, whereas LPS reduced, the activities of selenium-dependent glutathione peroxidase and glutathione reductase.
Glutathione
S-transferases were not altered by any of the inducers. Cd also increased
DT-diaphorase
activity. Cd, Zn and alpha-H all decreased catalase activity 20-35%, while the activity of superoxide dismutase was unaffected by the inducers. The amount of total cytochrome P450 enzymes and cytochrome b5 were decreased by LPS, Cd and alpha-H, while Zn appeared to have no effect. The activities of P450 enzymes towards testosterone oxidation were also decreased by LPS, Cd and alpha-H. In conclusion, all four MT inducers examined affect systems known to protect cells against oxidative stress. Therefore, using these chemicals to determine the in vivo role of MT in protecting against oxidative stress poses difficulties.
...
PMID:Effect of several metallothionein inducers on oxidative stress defense mechanisms in rats. 856 Apr 99
The effects of dicoumarol, an inhibitor of
DT-diaphorase
, on the cytotoxicity of tert-butylhydroquinone (tBHQ) were studied in freshly isolated rat hepatocytes. Addition of tBHQ (0.5 mM) to hepatocytes resulted in a time-dependent cell death accompanied by depletion of intracellular ATP, glutathione (
GSH
), and protein thiols. Pretreatment of hepatocytes with dicoumarol (30 microM) did not affect cell viability or cellular levels of ATP,
GSH
, or protein thiols during the incubation period; however, dicoumarol did promote the appearance of cell blebs and the depletion of ATP and protein thiols induced by tBHQ and ultimately enhanced the cytotoxicity of tBHQ.
...
PMID:Effects of dicoumarol on cytotoxicity caused by tert-butylhydroquinone in isolated rat hepatocytes. 861 6
This study describes characteristics of a mitomycin C (MMC)-resistant human bladder cancer cell line, J82/MMC-2, which was established by repeated in vitro exposures of a 6-fold MMC-resistant variant (J82/MMC) to 18 nM MMC. A 9.6-fold higher concentration of MMC was required to kill 50% of the J82/MMC-2 sub-line compared with parental cells (J82/WT). NADPH cytochrome P450 reductase and
DT-diaphorase
activities were significantly lower in J82/MMC-2 cells compared with J82/WT, suggesting that reduced sensitivity of J82/MMC-2 cells to MMC resulted from impaired drug activation. Consistent with this hypothesis, the formation of MMC-alkylating metabolites was significantly lower in J82/MMC-2 cells compared with J82/WT. Furthermore,
DT-diaphorase
activity in J82/MMC-2 cells was significantly lower compared with the 6-fold MMC-resistant variant.
Glutathione
(
GSH
) levels were comparable in all 3 cell lines. Although
GSH
transferase (GST) activity was significantly higher in the J82/MMC-2 cells compared with J82/WT, this enzyme activity did not differ between 6- and 9.6-fold MMC-resistant variants. Whereas DNA polymerase alpha mRNA expression was comparable in these cell lines, levels of DNA ligase I mRNA were slightly lower in both MMC-resistant variants relative to J82/WT. However, the DNA polymerase beta mRNA level was markedly higher in the J82/MMC-2 cell line compared with either J82/WT or J82/MMC. Thus, emergence of a higher level of resistance to MMC in J82/MMC-2 cells compared with J82/MMC may be attributed to (i) impaired drug activation through further reduction in
DT-diaphorase
activity and (ii) enhanced DNA repair through over-expression of DNA polymerase beta.
...
PMID:Biochemical characterization of a mitomycin C-resistant human bladder cancer cell line. 863 3
Hepatic levels of
GSH
and Phase II detoxication enzymes were compared to biochemical and histological indices of hepatic damage in 4- to 76-week-old nontransgenic mice and their transgenic littermates that overexpress the hepatitis B virus large envelope protein. The mice were fed a low-sucrose AIN-76A diet ad libitum. Hepatic-specific activities of
quinone reductase
(QR) and glutathione S-transferase (GST) were increased 2- to 10-fold beginning at 12 weeks of age in transgenic mice and correlated with increases in serum alanine aminotransferase (ALT) (r = 0.84 and 0.59, respectively). Quantitative histological analysis demonstrated that apoptosis was the predominant feature in 4- to 12-week-old transgenic mice, whereas necrosis and inflammation predominated at later time points. Surprisingly, 3-fold elevations in ALT were observed beginning at 52 weeks of age in nontransgenic mice, and hepatic-specific activities of QR and GST were also modestly increased in elderly nontransgenic animals. In contrast to transgenic mice, apoptosis was not a prominent feature. The strongest histological correlates to ALT in 4- to 76-week-old nontransgenic mice were necrosis and inflammation (r > 0.96), which in turn may have been evoked by hepatic fat accumulation. Profiles of specific GST isoforms were quantitated chromatographically and identified by sequencing tryptic digests. The Ya1 subunit of alpha-class GST was markedly increased from undetectable levels in transgenic mice, while more modest increases were observed in nontransgenic mice more than 1 year old. Fivefold elevations of the Yb1 subunit, a constitutively expressed mu-class GST, were found in transgenic mice older than 4 weeks of age, while 2-fold increases were observed in nontransgenic animals that were more than 1 year old. These studies demonstrate that selected increases in Phase II detoxication enzymes are a stereotyped response to chronic hepatitis that is strikingly reminiscent of the treatment of mice with anticarcinogenic enzyme inducers.
...
PMID:Elevations of hepatic quinone reductase, glutathione, and alpha- and mu-class glutathione S-transferase isoforms in mice with chronic hepatitis: a compensatory response to injury. 866 Jun 89
In a series of ovarian carcinoma cell lines selected in vitro for resistance to cisplatin by continuous exposure to increasing drug concentrations, the level of resistance is proportional to the expression of gamma-glutamylcysteine synthetase (gamma-GCS). To determine if other detoxicating genes are coordinately expressed, we measured the activity of
DT-diaphorase
and cytochrome P450 reductase. The specific activity of
DT-diaphorase
, but not that of cytochrome P450 reductase, increased with increasing resistance to cisplatin. Steady-state mRNA levels for
DT-diaphorase
correlated with enzyme activity and hence with cisplatin resistance. Since the activity of
DT-diaphorase
has been associated with sensitivity to quinones, we studied the cytotoxicity of mitomycin C under oxic conditions. Unexpectedly, resistance to mitomycin C increased proportionally with that to cisplatin (r = 0.997). Pretreatment with buthionine sulfoximine, which inhibits glutathione (
GSH
) synthesis, failed to sensitize either the sensitive or the resistant lines to mitomycin C. Thus, the basis for collateral resistance to mitomycin C in the cisplatin-resistant lines under oxic conditions is unrelated to overproduction of
GSH
. Under hypoxia, the toxicity of mitomycin C to the most sensitive (A2780) cell line was unchanged. However, the most resistant (C200) line was 2-fold more resistant to mitomycin C under hypoxic conditions. The coordinate overexpression of
DT-diaphorase
and gamma-GCS in the resistant cell lines is thus associated with hypoxic cell resistance, and supports the involvement of shared mechanisms of gene regulation in the observed resistant phenotype.
...
PMID:Increased DT-diaphorase expression and cross-resistance to mitomycin C in a series of cisplatin-resistant human ovarian cancer cell lines. 867 4
Incubation of cultured Chinese hamster V79 cells with menadione (2-methyl-1,4-naphthoquinone), a generator of superoxide anion radicals, caused a rapid increase in the level of glutathione disulfide (GSSG) and a decrease in the level of glutathione (
GSH
), which followed a 1.5- to 2-fold increase in the level of
GSH
during post-treatment incubation. Menadione also caused a concentration- and time-dependent increase in the activity of gamma-glutamylcysteine synthetase (gamma-GCS), a rate-limiting enzyme in the synthesis of
GSH
. These results suggested that the increase in level of
GSH
after treatment with menadione was due to the increase in the activity of gamma-GCS. Dicoumarol, an inhibitor of
DT-diaphorase
, did not influence the increase in the activity of gamma-GCS caused by menadione but it did enhance the cytotoxicity and the increase in the level GSSG caused by menadione. This result suggested that neither the
DT-diaphorase
-mediated metabolism of menadione nor the increase in level of GSSG caused by menadione was associated with the increase in the activity of gamma-GCS. Chelators of divalent iron and copper (I), and cycloheximide did not influence the increase in the activity of gamma-GCS caused by menadione. Thus, it appeared that reactive oxygen radicals, generated from hydrogen peroxide by an iron- or copper-catalyzed Fenton reaction, were not responsible for the increase in the activity of gamma-GCS and that the increase was not an inducible phenomenon.
...
PMID:Menadione causes increases in the level of glutathione and in the activity of gamma-glutamylcysteine synthetase in cultured Chinese hamster V79 cells. 879 48
Redox cycling compounds such as daunorubicin have been assumed to be toxic because they stimulate reactive oxygen-mediated lipid peroxidation. Furthermore, both
DT-diaphorase
and glutathione (
GSH
) have been regarded as protective cellular compounds against daunorubicin cardiotoxicity, but their role in daunorubicin nephrotoxicity remains unclear. To investigate this issue, 10 adult Wistar rats were twice injected with a single dose of 20 mg/kg body weight daunorubicin into the tail vein; the interval between injections was 48 h. A control group of 10 rats were injected with normal saline. One day after the second injection, all the animals were sacrificed and their kidneys were analyzed for malondialdehyde (MDA) as an index of lipid peroxidation,
DT-diaphorase
activity, and
GSH
and glutathione disulphide (GSSG) content. A significant increase of MDA concentration (2.41 vs. 1.64 p < 0.001) and
DT-diaphorase
activity (0.2 vs. 0.12, p < 0.001) was found in the renal tissue of daunorubicin injected rats. In contrast,
GSH
and GSSG levels were decreased in those animals (566 vs. 1282, p < 0.001 and 115 vs 187, p < 0.01, respectively). The results of this study give evidence that a high dosage of daunorubicin induces lipid peroxidation in renal tissue of rats stimulating the activation of
DT-diaphorase
and the detoxificative depletion of
GSH
.
...
PMID:Lipid peroxidation and antioxidant defense mechanisms in rat renal tissue after daunorubicin administration. 887 77
Since the toxicity of diesel exhaust particles (DEP) after intratracheal injection, was suppressed by pretreatment with superoxide dismutase (SOD) modified with polyethylene glycol (Sagai et al. Free Rad. Biol. Med. 14: 37-47; 1993), the possibility that superoxide could be enzymatically and continuously generated from diesel exhaust particles (DEP), was examined. Nicotinamide-adenine dinucleotide phosphate, reduced (NADPH) oxidation was stimulated during interaction of a methanol extract of DEP with the Triton N-101 treated microsomal preparation of mouse lung whereas the cytosolic fraction was less active, suggesting that DEP contains substrates for NADPH-cytochrome P450 reductase (EC 1.6.2.4, P450 reductase) rather than
DT-diaphorase
. When purified P450 reductase was used as the enzyme source, the turnover value was enhanced approximately 260-fold. Quinones appeared to be served as substrate for P450 reductase because reaction was inhibited by addition of glutathione (
GSH
) to form those
GSH
adduct or pretreatment with NaBH4 to reduce those to the hydroxy compounds although a possibility of nitroarenes as the alternative substrates cannot be excluded. A methanol extract of DEP (37.5 micrograms) caused a significant formation of superoxide (3240 nmol/min/mg protein) in the presence of P450 reductase. Electron spin resonance (ESR) experiments revealed that hydroxyl radical was formed as well. The reactive species generated by DEP in the presence of P450 reductase caused DNA scission which was reduced in the presence of superoxide dismutase (SOD), catalase, or hydroxyl radical scavenging agents. Taken together, these results indicate that DEP components, probably quinoid or nitroaromatic structures, that appear to promote DNA damage through the redox cycling based generation of superoxide.
...
PMID:Generation of reactive oxygen species during interaction of diesel exhaust particle components with NADPH-cytochrome P450 reductase and involvement of the bioactivation in the DNA damage. 898 Oct 40
A goal of our research is to identify biochemical factors that underlie the susceptibility of bone marrow cell populations to benzene metabolites so as to develop a mechanistically based chemoprotective strategy that may be used in susceptible humans exposed to benzene. By doing biochemical risk analysis of bone marrow stromal cells from mice and rats and the human myeloid cell lines, HL-60 and ML-1; and by using buthionine sulfoximine and dicumarol we have observed that the susceptibility of these cell populations to hydroquinone (HQ) correlates with their concentration of glutathione (
GSH
) and activity of
quinone reductase
(QR). Accordingly, the induction of QR and
GSH
by 1,2-dithiole-3-thione (D3T) in these cell populations has resulted in a significant protection against the following hydroquinone-mediated toxicities: inhibition of cell proliferation and viability; reduced ability of stromal cells to support myelopoiesis; and altered differentiated of ML-1 cells to monocytes/macrophages. Preliminary in vivo experiments indicate that feeding mice D3T results in an induction of QR in the bone marrow compartment such that stromal cells are more resistant to hydroquinone-induced cytotoxicity in vitro. Overall, these studies suggest that in addition to hepatic cytochrome P4502E1, bone marrow QR and
GSH
are factors that could determine an individual's relative susceptibility to the toxic effects of benzene.
...
PMID:Analysis of target cell susceptibility as a basis for the development of a chemoprotective strategy against benzene-induced hematotoxicities. 911 97
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