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)
Cytosolic proteins may play an important role in the intracellular transport of bile acids in enterocytes. The lithocholate binding properties of cytosolic protein from bovine small intestine were studied. Lithocholate binding was observed in the Y (45-50 kDa), Y' (30-35 kDa), and Z fractions (10-15 kDa) following gel filtration of cytosol. A Y protein with
glutathione S-transferase
activity (46 kDa) was purified by S-octyl-glutathione affinity chromatography and chromatofocusing (eluted at pH 7.5) of the Y fraction. Two Y' bile acid binding proteins with
dihydrodiol dehydrogenase
activity were partially purified from the Y' fraction by chromatofocusing and hydroxyapatite-HPLC. The lithocholate binding affinity of Y' protein (Kd < 0.35 microM) was higher than that of Y protein (Kd = 2 microM) and was comparable to that of Z protein (Kd = 0.2 microM). The binding affinity of Y protein was higher for bilirubin (Kd = 2.5 microM) than that for BSP (Kd = 200 microM). This was comparable to the binding affinity of bovine hepatic Y protein. These data indicate that Y' and Z proteins participate in the intracellular transport of bile acids from the brush border to the basolateral pole in enterocytes.
...
PMID:Lithocholate binding by Y and Y' proteins in bovine small intestine. 132 60
The direct molecular weight determination and structural analysis of polypeptides and peptide mixtures have become amenable by the recent development of fast atom bombardment (FABMS) and 252Cf-plasma desorption (PDMS) mass spectrometry. FABMS and PDMS peptide mapping, i.e., the direct analysis of peptide mixtures resulting from proteolytic digestion, have been developed as powerful methods for the structural characterization of epoxide-metabolizing isoenzymes. The major advantage of this approach is provided by the selectivity of the endoproteolytic cleavage, combined with the specific and accurate molecular weight determination of complex digest mixtures containing peptides up to several thousands daltons in size. Furthermore, the mass spectrometric peptide mapping analysis can be combined with a range of protein-chemical modification reactions and with sequential degradation such as by carboxypeptidases. Both FABMS and PDMS peptide mapping have already been successfully applied to the structural differentiation of
glutathione transferase
and epoxide hydrolase isoenzymes in cases where references sequence data for at least one isoenzyme form was available. In the application described here, for a series of
dihydrodiol dehydrogenase
(
DDH
) isoenzymes with hitherto undetermined primary structures, a direct correlation between the structural differentiation from peptide mapping data and differences in their substrate specificities could be demonstrated. The mass spectrometric peptide mapping analysis of isoenzymes proved to be an efficient basis for the elucidation of the structure of one major
DDH
isoenzyme form; partial sequence data for this protein are reported.
...
PMID:Mass spectrometric peptide mapping analysis and structural characterization of dihydrodiol dehydrogenase isoenzymes. 227 34
Treatment of male Fischer 344 rats with various hypolipidemic drugs of different peroxisome proliferating potency (1-benzylimidazole, acetylsalicylic acid, clofibrate, tiadenol) led to an induction of liver lauric acid hydroxylase, whereas probucol, which is not a peroxisome proliferator, did not induce this enzyme. Activity of bilirubin UDP-glucuronosyltransferase was increased by all the compounds tested. The highest increase was observed after treatment with acetylsalicylic acid (2.3-fold). High correlation (r = 0.953) was observed between the activities of lauric acid hydroxylase and the corresponding activities of cytosolic epoxide hydrolase reported previously. The amount of microsomal epoxide hydrolase was not changed by any of the compounds. Whereas clofibrate and tiadenol decreased
glutathione S-transferase
activity with 1-chloro-2,4-dinitrobenzene as substrate, 1-benzylimidazole and probucol increased this activity. With 4-hydroxynonenal as a substrate qualitatively the same results were obtained with the exception that probucol did not affect the enzyme activity. When
glutathione S-transferase
activity was measured with cis-stilbene oxide as substrate only the more than five-fold increase after treatment with 1-benzylimidazole was significantly different from control values. Activity of
dihydrodiol dehydrogenase
was increased after treatment of rats with 1-benzylimidazole (1.5-fold), whereas application of tiadenol led to a decrease of enzyme activity. Feeding of male guinea pigs with clofibrate did not change the activity of peroxisomal beta-oxidation, cytosolic epoxide hydrolase or lauric acid hydroxylase. However, treatment with tiadenol caused an increase of these activities.
...
PMID:Effect of hypolipidemic compounds on lauric acid hydroxylation and phase II enzymes. 250 Sep 33
Four glutathione transferases (
EC 2.5.1.18
), glutathione transferases A, B, and C and a hitherto unknown form, termed X, were purified to apparent homogeneity from rat liver cytosol. They were investigated for their abilities to inactivate two mutagenic epoxides derived from the polycyclic aromatic hydrocarbon benz(a)anthracene, the K-region epoxide benz(a)anthracene 5,6-oxide and the diol-epoxide r-8,t-9-dihydroxy-t-10,11-oxy-8,9,10, 11-tetrahydrobenz(a)anthracene. Mutagenic activity was determined using Salmonella typhimurium his- strain TA100. Glutathione alone had little if any influence on the mutagenicity of the diol-epoxide but significantly decreased the mutagenic effect of the K-region epoxide. This inactivation was enhanced by the addition of glutathione transferases. Both epoxides were inactivated by glutathione in the presence of each of the four enzymes, but with varying efficiencies. Inactivation of the K-region epoxide (in terms of its mutagenicity in the presence of glutathione) required extremely little enzyme, about 1000 times less than for the diol-epoxide. On a molar basis,
glutathione transferase
X (followed by C greater than A greater than or equal to B) was clearly the most efficient enzyme in inactivating both substrates and also more efficient than were three other purified enzymes (microsomal epoxide hydrolase, cytosolic epoxide hydrolase, and
dihydrodiol dehydrogenase
) previously investigated in this test system. Taking into account the amounts of enzyme present in rat liver, the glutathione transferases C and X were most effective in inactivating the epoxides examined. Thus, the newly discovered
glutathione transferase
X appears to be of substantial significance in the inactivation of two structural prototypes of epoxides derived from polycyclic aromatic hydrocarbons, a K-region epoxide and a non-bay-region vicinal diol-epoxide.
...
PMID:Inactivation of a diol-epoxide and a K-region epoxide with high efficiency by glutathione transferase X. 635 30
Ethacrynic acid (EA) is a plant phenolic acid that is both an inhibitor and an inducer of
glutathione S-transferase
(
GST
) activity. To determine contributory factors in the increased
GST
activity caused by EA treatment, human colon carcinoma HT29 cells were compared with a cloned EA-resistant population (HT6-8) maintained in medium containing 72 microM EA. Several factors are involved in the increased expression of
GST
pi in HT6-8. For example, nuclear run-on experiments showed an approximately 2-fold increase in the rate of transcription of
GST
pi. In addition, the half-life of
GST
pi transcript was increased from 4.1 (wild type, HT29, HT4-1) to 8.4 hr. The half-life of
GST
pi protein was 1-2 hr in HT4-1 cells versus 8-9 hr in HT6-8 cells. When either human ovarian carcinoma cells (SKOV3) or human prostatic carcinoma cells (DU145) were treated with EA, the half-life of the
GST
pi transcript was also increased. The transcript half-lives of another thiol-metabolism enzyme, gamma-glutamylcysteine synthetase (gamma-GCS), and a phase II detoxification enzyme,
dihydrodiol dehydrogenase
(
DDH
), were also increased in HT6-8, SKOV3 and DU145 cells treated with EA. However, the half-lives of transcripts from "housekeeping genes," such as glyceraldehyde 3-phosphate dehydrogenase (G3PDH), beta-actin and beta-tubulin, were not changed in these cell lines following EA. Apparently, a number of coordinated factors are involved in EA-enhanced expression of
GST
pi and other detoxification enzymes.
...
PMID:Influence of ethacrynic acid on glutathione S-transferase pi transcript and protein half-lives in human colon cancer cells. 748 39
1. The influence of the endogenous steroid epoxides 16 alpha, 17 alpha-epoxyestra-1,3,5(10)-trien-3-ol (estroxide) and 16 alpha, 17 alpha-expoxiandrost-4-en-3-one (androstene oxide) and their metabolic precursors estra-1,3,5(10), 16-tetraen-3-ol (estratetraenol) and androsta-4, 16-dien-3-one (androstadienone) on the specific activities of hepatic microsomal and soluble epoxide hydrolase,
glutathione S-transferase
,
dihydrodiol dehydrogenase
, and 7-ethoxycoumarin deethylase was investigated in the male Sprague-Dawley rat. 2. Both estroxide and estratetraenol induced microsomal epoxide hydrolase activity towards styrene oxide and estroxide itself 2-2.5-fold and glutathione conjugation of 1-chloro-2,4-dinitrobenzene (CDNB) 1.6-fold after intraperitoneal administration of a high dose of compound (300 mg per kg of body weight). 3. In addition, estroxide decreased 7-ethoxycoumarin deethylation down to 20% of the activity observed in the untreated rat, whereas estratetraenol enhanced the activity of soluble epoxide hydrolase towards trans-stilbene oxide by a factor of 1.7. 4. In contrast, neither androstene oxide nor androstadienone showed a significant influence on any of the parameters under investigation. Dihydrodiol dehydrogenase was not significantly changed by any of the treatments.
...
PMID:Induction of rat liver microsomal epoxide hydrolase by its endogenous substrate 16 alpha, 17 alpha-epoxyestra-1,3,5-trien-3-ol. 761 50
Maintenance of cellular homeostasis is a critical survival trait in tumors when exposed to anticancer drugs. Because conjugation and elimination of drugs and their metabolites is dependent upon sequential and coordinated pathways, acquired drug resistance through a gradual adaptive response would rarely be expected to be the consequence of changes in the expression of one gene product. We have used a number of drug-resistant human cell lines to characterize those genes that are implicated in maintaining a resistant phenotype. Human HT29 colon cancer cells chronically exposed to ethacrynic acid (EA) [a glutathione (GSH) and
glutathione S-transferase
(
GST
) modulator] have acquired resistance to the drug. Commensurate with resistance, EA is more effectively conjugated to GSH and effluxed from the resistant cells. Using directed and random (differential display) approaches, a number of detoxification and/or protective gene products have been shown to be expressed at elevated levels. These include: gamma-glutamyl cysteine synthetase (gamma-GCS, the rate-limiting enzyme in GSH biosynthesis);
GST
pi (the enzyme catalyzing the conjugation reaction); multidrug resistance associated protein (MRP) (the membrane pump responsible for effluxing the conjugate from the cell interior). In addition, other gene products not directly linked with EA metabolism were induced, including
dihydrodiol dehydrogenase
(an alpha-ketoreductase) (30-fold), DT-diaphorase (threefold), and a transcriptional regulator SSP 3521 (threefold). HL60 cells resistant to a GSH paralog Ter199 also show increased expression of some of these gene products. Furthermore, an adriamycin-resistant human HL60 cell line also shows overexpression of
GST
pi, gamma-GCS, and MRP, but in addition has approximately 20-fold more DNA-dependent protein kinase catalytic subunit (DNA-PKcs). This enzyme is an early stress response gene that can phosphorylate and activate downstream transcription factors. Such overexpression could impact on the transcriptional control of the other detoxification gene products. Both adriamycin and a typical drug-GSH conjugate (APA-SG) are inhibitors of DNA-PK. Because cellular levels of these conjugates would presumably be a good indicator of stress, it would seem reasonable to speculate that DNA-PK may act as a receiver and transmitter of signals that are crucial to the drug-resistant phenotype. Additionally, this enzyme may prove to be a potentially important target for drug design based upon the inhibitory activity of GSH conjugates.
...
PMID:Importance of glutathione and associated enzymes in drug response. 940 35
The anti-malarial artesunate (ART) also inhibits the growth of cancer cells. The active moiety is an endoperoxide bridge whose cleavage generates reactive oxygen species and free radicals. We analyzed whether glutathione-related enzymes contribute to tumor resistance to ART and to the low toxicity of ART towards normal organs. The microarray-based mRNA expression of
dihydrodiol dehydrogenase
, gamma-glutamylcysteine synthase (gamma-GCS), glutathione S-transferases GSTM4, GSTT2, GSTZ1, and microsomal
glutathione S-transferase
MGST3 showed significant relationships (p <0.05) to cellular response to ART in 55 cell lines of the National Cancer Institute, USA. A tendency for correlation (0.05<p<0.1) was observed for GSTA1, GSTA2, GSTP1 and MGST1. A further 12 glutathione-related genes were not linked to ART resistance. MSC-HL13 cells transfected with cDNAs for heavy and light subunits of gamma-GCS were more resistant to ART than mock control vector-transfected MSV-PC4 cells. L-buthionine sulfoximine, a gamma-GCS inhibitor that depletes cellular glutathione pools, completely reversed ART resistance in MSV-HL13 cells, while a partial reversion was obtained by ethacrynic acid, an inhibitor of
GST
. The expression of
GST
-P was analyzed immunohistochemically in normal rat organs.
GST
-P immunostaining was found in all organs analyzed, albeit with varying staining intensities and in different histological structures of the organs.
GST
expression in normal organs may, therefore, contribute to the good tolerability and minimal toxicity of ART in normal organs.
...
PMID:Glutathione-related enzymes contribute to resistance of tumor cells and low toxicity in normal organs to artesunate. 1579 79
Identification of secreted proteins of lung cancer could provide new candidates of serum biomarkers for cancer diagnosis and prognosis evaluation. In this study, non-small cell lung cancer (NSCLC) cell line A549 was cultured. Proteins in the conditioned medium of A549 were recovered and the proteome analysis was subsequently performed. Secreted proteins of A549 were identified using mass spectrometry and database search. Fourteen human proteins were identified, including peptidyl-prolyl cis-trans isomerase A, manganese superoxide dismutase, peroxiredoxin 1, phosphatidylethanolamine-binding protein,
glutathione S-transferase
P, PGP9.5, alpha enolase, phosphoglycerate mutase 1, galectin-1 and
dihydrodiol dehydrogenase
(
DDH
).
DDH
was selected for further analysis using RT-PCR, immunoblotting, immunohistochemical staining and ELISA in NSCLC patients. Compared with normal lung tissues, higher
DDH
mRNA and protein expression level were found in 15 NSCLC cancer tissues (p<0.05).
DDH
overexpression was identified to be located in cytoplasm and cell membrane by immunohistochemical staining in NSCLC tissue. The serum level of
DDH
was significantly higher in NSCLC patients (n=64) than nonmalignant lung tumor (n=20) and healthy controls (n=20) (p<0.05). The results show that
DDH
was one of the secreted proteins in NSCLC. It can serve as a tissue marker and a novel serological marker of NSCLC. Identification of secreted proteins could be a feasible and effective strategy to search potential serum biomarkers of cancer.
...
PMID:Proteomics-based identification of secreted protein dihydrodiol dehydrogenase as a novel serum markers of non-small cell lung cancer. 1687 4
Pseudomonas putida GJ31 has been reported to grow on chlorobenzene using a meta-cleavage pathway with chlorocatechol 2,3-dioxygenase (CbzE) as a key enzyme. The CbzE-encoding gene was found to be localized on the 180 kb plasmid pKW1 in a cbzTEXGS cluster, which is flanked by transposases and encodes only a partial (chloro)catechol meta-cleavage pathway comprising ferredoxin reductase, chlorocatechol 2,3-dioxygenase, an unknown protein, 2-hydroxymuconic semialdehyde dehydrogenase and
glutathione S-transferase
. Downstream of cbzTEXGS are located cbzJ, encoding a novel type of 2-hydroxypent-2,4-dienoate hydratase, and a transposon region highly similar to Tn5501. Upstream of cbzTEXGS, traNEOFG transfer genes were found. The search for gene clusters possibly completing the (chloro)catechol metabolic pathway of GJ31 revealed the presence of two additional catabolic gene clusters on pKW1. The mhpRBCDFETP cluster encodes enzymes for the dissimilation of 2,3-dihydroxyphenylpropionate in a novel arrangement characterized by the absence of a gene encoding 3-(3-hydroxyphenyl)propionate monooxygenase and the presence of a GntR-type regulator, whereas the nahINLOMKJ cluster encodes part of the naphthalene metabolic pathway. Transcription studies supported their possible involvement in chlorobenzene degradation. The upper pathway cluster, comprising genes encoding a chlorobenzene dioxygenase and a chlorobenzene
dihydrodiol dehydrogenase
, was localized on the chromosome. A high level of transcription in response to chlorobenzene revealed it to be crucial for chlorobenzene degradation. The chlorobenzene degradation pathway in strain GJ31 is thus a mosaic encoded by four gene clusters.
...
PMID:Degradation of chloroaromatics by Pseudomonas putida GJ31: assembled route for chlorobenzene degradation encoded by clusters on plasmid pKW1 and the chromosome. 1974 88
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