Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
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Gene/Protein
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Target Concepts:
Gene/Protein
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Query: EC:2.5.1.18 (
glutathione S-transferase
)
22,582
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
HA-1 hamster fibroblasts receiving fresh media every 24 h were continuously passaged in progressively increasing O2 concentrations for 18 mo (designated O2R95). These cells were significantly more resistant than parental HA-1 to clonogenic inactivation mediated by 95% O2 without media replacement. The O2R95 cell line exhibited increases in the activities of catalase (CAT), Mn superoxide dismutase (MnSOD), Cu,Zn superoxide dismutase (Cu,Zn SOD), and glutathione peroxidase (GPx). O2R95 cells demonstrated uniformly distributed increased staining for CAT, MnSOD, Cu,Zn SOD, and GPx proteins, as determined by immunohistochemistry. Cellular resistance to and metabolism of 4-hydroxy-2-nonenal (4HNE), a toxic byproduct of lipid peroxidation implicated in mechanisms of O2 toxicity, was examined in HA-1 and O2R95 cell lines. O2R95 cells were significantly more resistant to 4HNE cytotoxicity, which was accompanied by a significant increase in 4HNE metabolism. O2R95 cells also demonstrated an increase in total glutathione (GSH) and
glutathione S-transferase
(
GST
) activity, an enzymatic system believed to be involved with 4HNE metabolism. Furthermore, homogenates from O2R95 cells consumed greater quantities of 4HNE in the presence of NADPH (but not NADH, NAD+, or
NADP+
), suggesting that an enzyme(s) utilizing NADPH contributes to 4HNE metabolism, resistance to 95% O2 and 4HNE as well as increased total GSH, antioxidant enzyme activities, and NADPH-dependent metabolism of 4HNE, persisted in O2R95 cells for 75 days of growth in 21% O2. These findings are compatible with the hypothesis that aldehydic byproducts of lipid peroxidation contribute to mechanisms of O2 toxicity and the selective pressure exerted by exposure of cells to hyperoxia.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:A stable O2-resistant cell line: role of lipid peroxidation byproducts in O2-mediated injury. 161 58
The time courses of induction of liver cytosolic aldehyde dehydrogenases using benzaldehyde and propionaldehyde as substrates and
NADP
and NAD as co-factors after i.p. and intragastric (i.g.) administration of 2-acetylaminofluorene (2-AAF), 20-methylcholanthrene (20-MC), beta-naphthoflavone (beta-NF) and benzo[alpha]pyrene (B[alpha]P) were investigated in male Wistar rats. 2-AAF did not induce the aldehyde dehydrogenase activities with any substrate:co-factor combination. The other three inducers all induced the oxidation of the aldehydes in a reversible manner. With an i.p. route of administration (one daily dose for four consecutive days) (20-MC) was the most potent inducer giving a 240-fold increase of benzaldehyde:
NADP
activity on the ninth day. beta-NF elevated the activity 20-fold with peak activity at day 7, while B[alpha]P gave maximal induction on day 5 with a 60-fold increase in activity over the corresponding value for normal liver. The i.g. administration resulted in a weaker but coordinated induction of activity with peak activity on the sixth day for the different inducers. The activity ratio benzaldehyde:
NADP
/propionaldehyde:NAD, 0.78 in normal rats, was altered in all induced states to a level close to 4. The interpretation of our work supports the hypothesis that the inducers in this respect use the same mechanisms of induction. The differences noted can be explained by variations in the exposure of the liver to the administered dose and/or by differences in receptor affinity. The inducibility of benzaldehyde:
NADP
aldehyde dehydrogenase in rat liver exceeds by orders of magnitude the ability of the same inducers to increase the amount of the activity of other drug metabolizing enzymes such as
glutathione S-transferase
, cytochrome P450 and cytochrome b5. The reversible, drug-dependent induction characterized in normal rat liver in this work differs entirely from the persistent constitutive elevation of the same enzymes in preneoplastic liver nodules.
...
PMID:Kinetics of induction of cytosolic benzaldehyde: NADP and propionaldehyde: NAD aldehyde dehydrogenase activities in rat livers from male Wistar rats. 202 38
Crude extracts from a number of helminths including Schistosoma intercalatum and Fasciola hepatica were able to detoxify known aldehydic products of lipid peroxidation. A major route for alk-2-enal and alka-2,4-dienal detoxification in parasitic helminths was via glutathione conjugation and
glutathione transferase
appeared to be responsible for the activity. As yet uncharacterised NADPH-linked systems may provide an important secondary pathway for detoxification of alk-2-enals and alka-2,4-dienals in parasitic helminths. The free-living nematode Panagrellus redivivus had higher active NADH/NADPH-linked aldehyde reduction systems compared to parasitic helminths. The NADH linked and NADPH linked reductions in P. redivivus were mitochondrial and cytosolic activities respectively. NADH/NADPH-linked systems may be responsible for alkanal reduction in helminths as there is no evidence of conjugation of alkanals with glutathione. P. redivivus and Haemonchus contortus were also able to oxidise aldehydes via NAD/
NADP
-linked systems.
...
PMID:Strategies for detoxification of aldehydic products of lipid peroxidation in helminths. 227 Jan 3
We found that Adriamycin increased the pentose phosphate shunt activity in both Adriamycin-sensitive (WT) and Adriamycin-resistant (ADRR) human breast cancer MCF-7 cells. In contrast, hydrogen peroxide and cumene hydroperoxide markedly stimulated pentose-shunt activity in ADRR but only moderately increased the activity in WT cells. Furthermore, the altered oxidation-reduction regulation is associated with changes intrinsic to the key enzymes of the pentose-shunt pathway, glucose-6-phosphate dehydrogenase, and 6-phosphogluconate dehydrogenase and with glutathione peroxidase. We found the Vmax values for glucose-6-phosphate dehydrogenase and 6-phosphogluconate dehydrogenase were 50- and 4-fold lower, respectively, in ADRR than WT cells and the Kms of
NADP+
were 10-fold lower in ADRR than WT. The activity of glutathione reductase in ADRR is 42% of that in WT. In spite of these changes, the response of the cells to both hydrogen peroxide and organic peroxide is not limited by either the capacity of the pentose shunt or glutathione reductase, but is determined by the activity of glutathione peroxidase and a
glutathione transferase
which possess peroxidase activity. The kinetic properties of the glucose-6-phosphate dehydrogenase in ADRR may, however, seriously limit the activity of cytochrome P-450 reductase, a major enzyme of Adriamycin conversion to a free radical.
...
PMID:Adriamycin resistance in human tumor cells associated with marked alteration in the regulation of the hexose monophosphate shunt and its response to oxidant stress. 366 3
The biotransformation of allyl alcohol and acrolein by rat lung and liver preparations was investigated by measuring acrolein, acrylic acid, glycidol, and glycidaldehyde. Acrolein was detected by high-pressure liquid chromatography from incubation mixtures containing allyl alcohol, NAD+, and liver 9000g supernatant fraction or cytosol. Acrolein was not formed when lung fractions were treated similarly. Addition of pyrazole in the incubation mixture inhibited the reaction. The metabolism of acrolein to acrylic acid by liver 9000g supernatant fraction, cytosol, and microsomes has been demonstrated; acrylic acid formation was greater with NAD+ than with
NADP+
in all three fractions. Acrylic acid was also formed from allyl alcohol. Disulfiram inhibited the NAD+- and
NADP+
-dependent reactions. Acrylic acid was not formed when lung preparations were used. Lung and liver microsomal epoxidation products of allyl alcohol and acrolein have been identified. Conversion of glycidol to glycerol and glycidaldehyde to glyceraldehyde by liver epoxide hydrase has been demonstrated. Epoxides, glycidol, and glycidaldehyde were also found to be substrates for lung and liver cytosolic
glutathione S-transferase
.
...
PMID:The biotransformation of allyl alcohol and acrolein in rat liver and lung preparations. 610 26
Various natural and synthetic compounds are known to protect against cancer by elevating phase II detoxification enzymes. Generally classified as monofunctional, these inducers are believed to trigger cellular signal(s) that activate gene transcription through an antioxidant or electrophile response element (ARE/EpRE) in responsive genes. In contrast, the phase I enzymes of drug metabolism (cytochrome P450s) are not believed to be induced by monofunctional inducers and P450 genes have not been found to contain functional ARE/EpREs. In this study, rats were treated with the monofunctional inducers tert-butylated hydroxyanisole, ethoxyquin, and oltipraz to study the inducibility of individual
glutathione S-transferase
isozymes,
NADP
(H):quinone oxidoreductase, gamma-glutamylcysteine synthetase, UDP-glucuronosyl transferase, and cytochrome P450 enzymes. Hepatic mRNAs were analyzed on Northern blots using gene-specific oligonucleotide probes for
GST
Ya1, Ya2, Yc1, Yc2, Yb1, Yb2, and Yf, for UGT 1*06, and for P450 1A1, 1A2, 2B1, 2C11, 3A2, and 4A1.
NADP
(H):quinone oxidoreductase and gamma-glutamylcysteine synthetase mRNAs were detected using cDNA probes. All the phase II detoxification enzymes analyzed, except
GST
Yf, were induced by the three monofunctional inducers, suggesting that these genes may be regulated by a mechanism involving an ARE/EpRE element in their promoter region. Interestingly, it was found that ethoxyquin was a particularly good inducer for both members of the P450 2B family, 2B1 and 2B2, and both ethoxyquin and oltipraz were also capable of modestly inducing P450 1A2 and 3A2. Oltipraz was found to slightly induce P450 2B2, but not 2B1, at the dose and time analyzed. Induction of mRNA generally correlated well with induction of protein levels determined by Western blot and/or enzyme activity measurements for selected enzymes. The results of this study suggest that many phase II enzymes may contain ARE/EpRE elements in addition to those confirmed to be regulated by a mechanism involving ARE/EpRE elements. In addition, it was found that several P450 enzymes were induced by monofunctional inducers, suggesting a possibility that some phase I enzymes may also be regulated by a mechanism involving ARE/EpRE elements.
...
PMID:Induction of phase I and phase II drug-metabolizing enzyme mRNA, protein, and activity by BHA, ethoxyquin, and oltipraz. 748 39
This work reports the structure of a cDNA (ME) encoding a human malic enzyme (ME) (malate NADP oxidoreductase, EC 1.1.1.40) elucidated by joining several overlapping fragments amplified by PCR from human hepatic cDNA or from cDNA libraries. The full-length cDNA has an open reading frame (ORF) of 1719 bp that encodes a 572-amino-acid protein of 64 113 Da, similar to the native monomeric, cytosolic,
NADP
-dependent ME isolated from human liver. The comparison of the structure of this cDNA with that of the human mitochondrial
NAD(P)
-dependent ME (EC 1.1.1.39) shows a homology of 63%, suggesting that these two forms originated from the same gene. The expression of the cDNA in Escherichia coli as a translational fusion (
glutathione S-transferase
::ME) protein yielded a product of the predicted mass. The recombinant protein shows
NADP
-dependent malate oxidoreductase activity and is virtually inactive with NAD. It also shows other distinct features of the native cytosolic
NADP
-dependent ME, like Mn2+ dependence, similar substrate (Km = 117 microM) and cofactor affinity (Km = 2 microM) constants, and a lack of allosteric regulation. In human proliferative cells, the
NADP
-dependent ME activity is poorly expressed and barely inducible by thyroid hormones.
...
PMID:Cloning, sequencing and functional expression of a cDNA encoding a NADP-dependent malic enzyme from human liver. 762 60
Although the mechanisms responsible for chemically induced oxidative stress are under intense investigation, little is known about the effects of prooxidant chemicals on the expression of drug-metabolizing enzymes. We examined the effects of diquat (0.1 mmol/kg, ip) and ciprofibrate (0.025% w/w, diet), chemicals which induce oxidative stress via different biochemical mechanisms, on the steady-state messenger RNA (mRNA) levels of six cytochrome P450 enzymes, seven
glutathione S-transferase
(
GST
) isoenzymes, UDP-glucuronosyl transferase 1-06 (UGT1*06), gamma-glutamylcysteine synthetase (gamma GCS),
NADP
(H):quinone oxidoreductase (quinone reductase), Cu/Zn superoxide dismutase (SOD), catalase, and 18S ribosomal RNA in the livers of male Sprague-Dawley rats. Effects of chemical treatments on mRNA levels were compared to changes in catalytic activities for selected enzymes. Ciprofibrate treatment selectively decreased CYP1A2 mRNA expression, whereas both chemicals suppressed CYP3A2 mRNA expression. CYP4A1 mRNA expression and lauric acid hydroxylase activities were induced by ciprofibrate treatment, whereas diquat treatment moderately increased CYP4A1 mRNA levels without affecting lauric acid hydroxylase activities. The steady-state mRNA levels encoding constitutively expressed
GST
isozymes (Ya1, Ya2, Yb1, Yb2, and Yc1) were decreased by diquat exposure, and the mRNA encoding four of the five constitutively expressed GSTs (Ya1, Ya2, Yb1, and Yc1) were also decreased by ciprofibrate treatment. Nonconstitutively expressed or low constitutively expressed genes (CYP1A1, CYP2B1, CYP2B2,
GST
Yc2,
GST
Yf, and UGT1*06) were not induced by exposure to the prooxidants. Changes in isozyme-specific catalytic activities were more consistent with the observed changes in mRNA expression for the GSTs than for the P450s. Both treatments had inhibitory effects on hepatic GSH biosynthesis by decreasing gamma GCS large-subunit mRNA expression, gamma GCS catalytic activities, and hepatic GSH concentrations. Cu/Zn SOD and quinone reductase mRNA levels were increased after ciprofibrate exposure, whereas Cu/Zn SOD mRNA expression was decreased in the diquat-treated animals. The results of this study indicate that diquat and ciprofibrate can decrease the expression profile of a number of phase I, phase II, and antioxidant enzymes and inhibit GSH biosynthesis. These effects may involve the pretranslational loss of hepatic mRNAs, possibly due to accelerated production of reactive oxygen species.
...
PMID:The effects of diquat and ciprofibrate on mRNA expression and catalytic activities of hepatic xenobiotic metabolizing and antioxidant enzymes in rat liver. 767 60
In recent years we and others have shown the cancer chemopreventive effects of green tea in several animal tumor models. In this study we assessed the cancer chemopreventive effects of water extract of green tea (WEGT) and the polyphenolic fraction (GTP) isolated from WEGT against N-nitrosodiethylamine (DEN)- and benzo[a]pyrene (BP)-induced forestomach and lung tumorigenesis in A/J mice. The protective effects, both in forestomach and lungs, were evident by a decrease in number of tumors and the percentage of mice with tumors when WEGT and GTP were fed to animals during initiation, post-initiation and entire period of tumorigenesis protocols. Oral feeding of 0.2% GTP in drinking water to mice afforded 68-82 and 39-66% protection against DEN- and BP-induced forestomach tumorigenesis respectively. In case of pulmonary tumor multiplicity caused by DEN and BP, the protective effects of GTP were between 38-43 and 25-46% respectively. Similarly, oral feeding of 2.5% WEGT to mice also afforded 80-85 and 61-71% protection against DEN- and BP-induced forestomach tumorigenesis respectively. In case of lung tumorigenesis, the protective effects of WEGT were 43-62 and 25-51% respectively. Histological studies of forestomach tumors showed significantly lower squamous cell carcinoma counts in GTP- and WEGT-fed groups of mice compared to carcinogen alone treated control group of mice. When pulmonary tumors were examined histologically, no adenocarcinomas were observed in GTP- and WEGT-fed groups of mice compared to 20% mice with adenocarcinomas in carcinogen alone treated control group. Oral feeding of GTP and WEGT in drinking water also showed significant enhancement in the activities of
glutathione S-transferase
and
NADP
(H): quinone reductase in liver, small bowel, stomach and lung. The results of this study suggest that green tea possesses chemopreventive effects against carcinogen-induced tumorigenesis in internal body organs, and that the mechanism of such effects may involve the enhancement of phase II and anti-oxidant enzyme systems.
...
PMID:Protection against N-nitrosodiethylamine and benzo[a]pyrene-induced forestomach and lung tumorigenesis in A/J mice by green tea. 850 76
Ellagic acid is a complex planar molecule which demonstrates a variety of anticarcinogenic activities. Ellagic acid has been shown to inhibit the CYP1A1-dependent activation of benzo[a]pyrene; to bind to and detoxify the diolepoxide of benzo[a]pyrene; to bind to DNA and reduce the formation of O6-methylguanine by methylating carcinogens; and to induce the phase II detoxification enzymes
glutathione S-transferase
Ya and NAD(P)H:quinone reductase. Chemical analogs of ellagic acid were synthesized to examine the relationship between the hydroxyl and lactone groups of the ellagic acid molecule and its different anticarcinogenic activities. These studies demonstrated that both the 3-hydroxyl and the 4-hydroxyl groups were required for ellagic acid to directly detoxify the diolepoxide of benzo[a]pyrene, while only the 4-hydroxyl groups were necessary for ellagic acid to inhibit CYP1A1-dependent benzo[a]pyrene hydroxylase activity. Induction of
glutathione S-transferase
Ya and
NAD(P)
:quinone reductase required the lactone groups of ellagic acid, but the hydroxyl groups were not required for the induction of these phase II enzymes. In addition, the lactone groups, but not the hydroxyl groups, were required for the analogs to reduce the carcinogen-induced formation of O6-methylguanine. Thus, different portions of the ellagic acid molecule are responsible for its different putative anticarcinogenic activities.
...
PMID:Structure-function relationships of the dietary anticarcinogen ellagic acid. 862 48
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