Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

Our laboratory has been involved in the study of Glutathione S-transferase pi (GST pi) for many years, both in terms of regulation of gene expression and in trying to understand the endogenous function(s) of this enzyme and also what role it may play in the carcinogenic process [1]. Over-expression of GST pi has been associated with carcinogenesis and the development of many different human tumours, for example testis [2], ovarian [3] and colorectal [4] and is often inversely correlated with prognosis or patient survival [5,6]. In addition, GST Pi has been implicated in the acquisition of antineoplastic drug resistance [7-9]. In order to study the transcriptional regulation of this gene, we have utilised a multi-drug resistant derivative (VCREMS) of the human mammary carcinoma cell line, MCF7, in which GST P1 mRNA and protein are significantly elevated in the absence of gene amplification [10-13]. Interestingly, we have recently reported the discovery of polymorphisms at the GSTP1 locus, resulting in two alleles GSTP1a and GSTP1b. In the study, the GSTP1b allele was found with increased frequency in bladder and testicular cancer, while the GSTP1a allele was significantly decreased in cases of prostate cancer [14]. In an attempt to elucidate the endogenous role(s) of GST pi, we have used homologous recombination in embryonic stem (ES) cells to inactivate both murine GST Pi genes and create a mouse strain completely deficient in the expression of this enzyme. This provides us with a unique animal model with which to study the effects of the absence of GST pi expression on the metabolism and pharmacokinetics of xenobiotics.
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PMID:Pi-class glutathione S-transferase: regulation and function. 967 44

The effect of acute exposure to lead acetate on the expression of glutathione S-transferase (GST) subunits and the levels of reduced and oxidized glutathione (GSH) and malondialdehyde (MDA) in rat kidney and liver was determined. The purpose of this study was to determine if GSH depletion and/or oxidative stress were responsible for changes in the expression of some or all GSTs that followed lead exposure. In kidney, all GST subunits increased following injection of lead. The level of kidney GSH was not changed at either 0.5 or 1 h after lead exposure, but increased 3, 6, 12 and 24 h after a single injection of lead. MDA levels (a marker of lipid peroxidation) did not change in kidney following lead injection. Immunohistochemical markers of oxidative stress and nitric oxide production were also unchanged by lead administration. Therefore. we conclude that the increases in GST levels in kidney following lead exposure were not dependent on oxidative stress. In liver, lead injection caused GSH depletion (61% of control 12 h after lead treatment) and increased MDA production (2.5-fold increase 6 h after lead exposure), while GSTA1, GSTA2, GSTM1 and GSTM2 did not increase. Analysis of the effects of lead on GST mRNA and GST cellular localization were performed by Northern blot and immunohistochemical techniques. Immunoperoxidase light microscopy and immunogold electron microscopy revealed that the increase in kidney GSTM1 and GSTP1 occurred in nuclei, cytoplasm and microvilli of proximal tubules. Northern blot analysis of GSTA2 and GSTP1 mRNAs showed that their increase following lead exposure was inhibited by actinomycin D, suggesting transcriptional induction. This study demonstrates that acute lead exposure causes dramatic changes in the subcellular distribution and expression of rat kidney GSTs, and that these changes are not a result of oxidative stress.
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PMID:Effects of lead on rat kidney and liver: GST expression and oxidative stress. 975 42

Isothiocyanates (ITCs), degradation products of glucosinolates (which occur naturally in a variety of cruciferous vegetables), have been shown to exhibit chemopreventive activity. These compounds are metabolized in vivo to form the corresponding dithiocarbamates, which are the major urinary metabolites of ITCs, by a pathway involving the glutathione S-transferase (GST) class of enzymes. Using a newly developed assay that measures total ITC (primarily ITC conjugates) in urine, we examined the relationships between cruciferous vegetable intake (obtained from a food frequency/portion size questionnaire administered in person); dietary total ITC level; GSTM1, GSTT1, and GSTP1 genotypes; and levels of total ITC in spot urine samples collected from 246 Singapore Chinese (111 men and 135 women), ages 45-74 years, who are participants of the Singapore Cohort Study on diet and cancer. Consumption level of cruciferous vegetables was high in study subjects (mean consumption = 345 times per year, mean daily intake = 40.6 g), which was >3 times the comparable level of intake in the United States. Mean daily intake of total ITC among study subjects was 9.1 micromol, and there was a 2.5-fold difference between the 25th and 75th percentile values. Seventy-three % of study subjects tested positive for ITC in urine, and there was a 4-fold difference between the 25th and 75th percentile values among the positive subjects. There was a highly significant positive association between dietary intake and urinary excretion levels of total ITC (two-sided P = 0.0003) that was stronger than the association between overall cruciferous vegetable intake and urinary ITC level, which also was statistically significant (P = 0.0004). There was no difference in urinary ITC levels between GSTM1-null and GSTM1-positive study subjects (P = 0.61) or between subjects with differing GSTP1 genotypes (P = 0.77), but urinary excretion of ITC was significantly higher among GSTT1-positive subjects, relative to GSTT1-null subjects (P = 0.006). The strength of the association between GSTT1 genotype and urinary total ITC level was highly dependent on the level of cruciferous vegetable consumption (or dietary ITC level) in study subjects. Among subjects in the lowest tertile of cruciferous vegetable intake, there was little evidence of an association between GSTT1 genotype and urinary total ITC level (P = 0.67). In contrast, there was a strong and statistically significant association between GSTT1 genotype and urinary total ITC among subjects in the highest tertile of cruciferous vegetable intake (P = 0.02), whereas those in the middle tertile of cruciferous vegetable consumption exhibited an association of intermediate strength (P = 0.04). These results suggest the presence of GSTT1 inducers in cruciferous vegetables.
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PMID:Urinary total isothiocyanate (ITC) in a population-based sample of middle-aged and older Chinese in Singapore: relationship with dietary total ITC and glutathione S-transferase M1/T1/P1 genotypes. 975 85

A previous intervention study had shown that consumption of carotenoid-containing vegetable juices reduces oxidative DNA damage in lymphocytes of 23 male subjects. It was the aim of this study to elucidate the potential mechanisms involved. Specifically, we studied the modulation of protein expression and determined susceptibility factors. Cryopreserved lymphocytes from the study were analyzed for genetic polymorphisms of glutathione S-transferase (GSTM1, GSTP1, and GSTT1) using multiplex PCR, GSTP1-protein with an ELISA, total protein by a colorimetric enzyme reaction, and DNA-repair enzymes with the Comet Assay. Analyses of the genotoxicity data revealed a more steady state of protection for GSTM1*+ than for GSTM1*0 (15 and 8 of 23, respectively) genotypes. Increased expression of cytosolic protein was observed in 11 of 23 subjects, increased expression of GSTP1 in 6 of 23 subjects, and capacity of repair of oxidized DNA bases in 9 of 21 subjects. GSTP1 induction was independent of the GSTP1 genotype (GSTP1a or GSTP1b/c alleles). Kinetics of induction of cytosolic protein and of GSTP1 were compared in one GSTM1*+ and one GSTM1*0 subject and showed an efficacy of tomato and carrots, but not of spinach. Reduced genetic DNA damage in lymphocytes may be due to the enhancement of cytosolic GSTP1, and DNA-repair proteins by tomato and carrot juices. Enhancement of cytosolic proteins may be indicative of increased gene expression by vegetable juices, some of which may be associated with protective activities.
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PMID:Mechanisms by which vegetable consumption reduces genetic damage in humans. 979 34

Glutathione S-transferases are involved in the conjugation of a number of human carcinogens. The frequencies of the deletion alleles coding for GSTM1, and GSTT1, related to deficient conjugation of xenobiotics, as well as a recently reported variant in the exon 5 of GSTP1 were investigated in this study. A multiplex polymerase chain reaction based method for a rapid and high throughput genotype analysis of all three GSTM1, GSTT1 and GSTP1 genes in a single tube was developed. Leukocyte DNA from two hundred and thirty-nine (n = 239) breast cancer patients were genotyped. Tumors from a subset of these breast cancer patients (n = 131) have previously been investigated for mutations in the TP53 gene, levels of p53 protein accumulation and loss of heterozygosity at several loci on chromosome 17. When genetic alterations in the tumors were analyzed with respect to glutathione S-transferase genotypes, a significantly higher proportion of the patients with a G allele (GG + AG) of the GSTP1 had loss of heterozygosity at the TP53 gene locus mapping to 17p, compared with non-G allele carriers (74% versus 29%) (P = 0.018). The patients carrying the G allele of GSTP1 also had more frequently mutations in the TP53 gene in their tumor (38%), compared with patients with the AA genotype (21%) (P = 0.055). G allele carriers had predominantly deletion or transversion mutations in the TP53 gene (5 of 7 and 5 of 6 respectively). A higher frequency of the G allele carriers was observed among patients with negative lymph node status (P = 0.0004). A higher proportion of the patients with positive lymph node status at the time of diagnosis had a combined GSTM1 null/GSTT1 null genotype (P = 0.05). Patients who were homozygous for the deleted GSTM1 allele were found to have a significantly shorter overall survival (P = 0.036).
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PMID:Single tube multiplex polymerase chain reaction genotype analysis of GSTM1, GSTT1 and GSTP1: relation of genotypes to TP53 tumor status and clinicopathological variables in breast cancer patients. 982 36

Although some blood parameters have been suggested to modulate in-vitro induction of sister chromatid exchanges by 1,2:3,4-diepoxybutane (DEB), a metabolite of 1,3-butadiene, the increased sensitivity has largely been assigned to a homozygous deletion of glutathione S-transferase T1 gene (GSTT1 null genotype). However, some DEB-sensitive individuals have been shown to be GSTT1 positive (having at least one undeleted GSTT1 allele). To examine potential causes for this overlap, we evaluated the effect of GSTM1, GSTP1, and GSTT1 genotypes, together with various life-style and blood parameters, on the DEB induction of sister chromatid exchanges and cells with chromosomal aberrations (aberrant cells) in lymphocyte cultures of 115 and 62 human donors, respectively. Our results supported the important role of the GSTT1 genotype in DEB sensitivity; 76% of cultures from GSTT1 null donors but only 4% of those from GSTT1 positive donors were DEB-sensitive, as defined by sister chromatid exchange measurements. The GSTT1 genotype also clearly affected DEB-induced aberrant cells, 92% of GSTT1 null and 8% of GSTT1 positive donors being sensitive to DEB. All individuals showing a high response to DEB in both sister chromatid exchange and aberrant cell analyses were GSTT1 null. Baseline aberrant cell measurements but not sister chromatid exchange measurements were marginally higher among GSTT1 null donors compared with GSTT1 positive donors. GSTM1 and GSTP1 genotypes had no influence on these cytogenetic end-points. Blood transaminases, gamma-glutamyl transferase, urea, creatinine and white blood cell count showed a clear negative association with DEB-induced aberrant cells, whereas wine drinkers had more aberrant cells than non-drinkers. A higher sister chromatid exchange-response to DEB was observed in lymphocytes from women and smokers than from men and non-smokers, respectively. Erythrocyte count correlated negatively with DEB-induced sister chromatid exchanges. Thus, a variety of parameters seemed to modulate the individual DEB-sensitivity together with the GSTT1 genotype. Although the known contributing factors accounted for a considerable part of individual variability in sister chromatid exchanges (59.4%) and aberrant cells (46.7%) in DEB treatment, they did not, however, fully explain the overlap in cytogenetic response between GSTT1 positive and null individuals.
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PMID:Individual sensitivity to cytogenetic effects of 1,2:3,4-diepoxybutane in cultured human lymphocytes: influence of glutathione S-transferase M1, P1 and T1 genotypes. 991 29

Factors determining individual susceptibility to esophageal cancer or premalignant Barrett's epithelium are still largely unclear. An imbalance between phase I drug metabolism [e.g., cytochrome P450 (CYP)] and phase II detoxification [e.g., glutathione S-transferase (GST)] may contribute to the development of these diseases. Polymorphic variants in the CYP1A1 gene were described leading to increased levels of bioactive compounds, whereas polymorphisms in GST genes often resulted in impaired detoxification. We studied the frequencies of polymorphic variants in CYP1A1, GSTP1, GSTT1, and GSTM1 genes in 98 patients with Barrett's epithelium and 34 patients with esophageal cancer. The results were compared with those obtained from 247 healthy blood donors. DNA was extracted, and PCR-RFLP methods were used to detect genetic polymorphisms. Chi2 analysis, Spearman rank correlation, and Wilcoxon rank sum tests were used for statistical evaluation. Polymorphisms in CYP1A1, GSTM1, and GSTT1 occurred at an equal frequency in patients and controls. Occurrence of the polymorphic GSTP1b variant in the GSTP1 gene resulted in a significantly lower GST enzyme activity (P < 0.05), and GSTP1b was found significantly more often in patients with Barrett's epithelium (70%; P < 0.001) and patients with esophageal adenocarcinoma (76%; P = 0.005), as compared to healthy blood donors (41%). In conclusion, presence of the GSTP1b allele leads to lower GST enzyme activity levels and, consequently, impaired detoxification. This most important esophageal GST isoform may, therefore, contribute to the development of Barrett's epithelium and adenocarcinoma.
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PMID:Polymorphic expression of the glutathione S-transferase P1 gene and its susceptibility to Barrett's esophagus and esophageal carcinoma. 997 4

It has become clear that several polymorphisms of human drug-metabolizing enzymes influence an individual's susceptibility for chemical carcinogenesis. This review gives an overview on relevant polymorphisms of four families of drug-metabolizing enzymes. Rapid acetylators (with respect to N-acetyltransferase NAT2) were shown to have an increased risk of colon cancer, but a decreased risk of bladder cancer. In addition an association between a NAT1 variant allele (NAT*10, due to mutations in the polyadenylation site causing approximately two fold higher activity) and colorectal cancer among NAT2 rapid acetylators was observed, suggesting a possible interaction between NAT1 and NAT2. Glutathione S-transferases M1 and T1 (GSTM1 and GSTT1) are polymorphic due to large deletions in the structural gene. Meta-analysis of 12 case-control studies demonstrated a significant association between the homozygous deletion of GSTM1 (GSTM1-0) and lung cancer (odds ratio: 1.41; 95% CI: 1.23-1.61). Combination of GSTM1-0 with two allelic variants of cytochrome P4501A1 (CYP1A1), CYP1A1 m2/m2 and CYP1A1 Val/Val further increases the risk for lung cancer. Indirect mechanisms by which deletion of GSTM1 increases risk for lung cancer may include GSTM1-0 associated decreased expression of GST M3 and increased activity of CYP1A1 and 1A2. Combination of GST M1-0 and NAT2 slow acetylation was associated with markedly increased risk for lung cancer (odds ratio: 7.8; 95% CI: 1.4-78.7). In addition GSTM1-0 is clearly associated with bladder cancer and possibly also with colorectal, hepatocellular, gastric, esophageal (interaction with CYP1A1), head and neck as well as cutaneous cancer. In individuals with the GSTT1-0 genotype more chromosomal aberrations and sister chromatid exchanges (SCEs) were observed after exposure to 1,3-butadiene or various haloalkanes or haloalkenes. Evidence for an association between GSTT1-0 and myelodysplastic syndrome and acute lymphoblastic leukemia has been presented. A polymorphic site of GSTP1 (valine to isoleucine at codon 104) decreases activity to several carcinogenic diol epoxides and was associated with testicular, bladder and lung cancer. Microsomal expoxide hydrolase (mEH) is polymorphic due to amino acid variation at residues 113 and 139. Polymorphic variants of mEH were associated with hepatocellular cancer (His-113 allele), ovarian cancer (Tyr-113 allele) and chronic obstructive pulmonary disease (His-113 allele). Three human sulfotransferases (STs) are regulated by genetic polymorphisms (hDHEAST, hM-PST, TS PST). Since a large number of environmental mutagens are activated by STs an association with human cancer risk might be expected.
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PMID:Polymorphisms of N-acetyltransferases, glutathione S-transferases, microsomal epoxide hydrolase and sulfotransferases: influence on cancer susceptibility. 1002 93

3,3',4,4',5-Pentachlorobiphenyl (PenCB), one of the most toxic co-planar polychlorinated biphenyl congeners, specifically induces class Pi glutathione S-transferase (GSTP1) as well as cytochrome P-450 1A1 in primary cultured rat liver parenchymal cells [Aoki, Matsumoto and Suzuki (1993) FEBS Lett. 333, 114-118]. However, the 5'-flanking sequence of the GSTP1 gene does not contain a xenobiotic responsive element, to which arylhydrocarbon receptor binds. Using a chloramphenicol acetyltransferase assay we demonstrate here that the enhancer termed GSTP1 enhancer I (GPEI) is necessary for the stimulation by PenCB of GSTP1 gene expression in primary cultured rat liver parenchymal cells. GPEI is already known to contain a dyad of PMA responsive element-like elements oriented palindromically. It is suggested that a novel signal transduction pathway activated by PenCB contributes to the stimulation of GSTP1 expression.
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PMID:Identification of an enhancer element of class Pi glutathione S-transferase gene required for expression by a co-planar polychlorinated biphenyl. 1005 28

Recently, we examined normal human pancreas tissue for DNA adducts derived from either exogenous chemical exposure and/or endogenous agents. In an effort to explain the different types and levels of DNA adducts formed in the context of individual susceptibility to cancer, we have focused on gene-environment interactions. Here, we report on the levels of hydrophobic aromatic amines (AAs), specifically those derived from 4-aminobiphenyl (ABP), and DNA adducts associated with oxidative stress in human pancreas. Although these adducts have been reported in several human tissues by different laboratories, a comparison of the levels of these adducts in the same tissue samples has not been performed. Using the same DNA, the genotypes were determined for N-acetyltransferase 1 (NAT1), the glutathione S-transferase (GST) M1, GSTP1, GSTT1, and NAD(P)H quinone reductase-1 (NQO1) as possible modulators of adduct levels because their gene products are involved in the detoxification of AAs, lipid peroxidation products and in redox cycling. These results indicate that ABP-DNA adducts, malondialdehyde-DNA adducts, and 8-oxo-2'-deoxyguanosine (8-oxo-dG) adducts are present at similar levels. Of the metabolic genotypes examined, the presence of ABP-DNA adducts was strongly associated with the putative slow NAT1*4/*4 genotype, suggesting a role for this pathway in ABP detoxification.
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PMID:Comparison of DNA adduct levels associated with exogenous and endogenous exposures in human pancreas in relation to metabolic genotype. 1006 66


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