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)

We describe expression of alpha, mu and pi class glutathione S-transferase (GST) and, CuZn- and Mn superoxide dismutase (SOD) in human synovium and cultured synovial fibroblasts. Immunohistochemical and immunoblotting studies showed synovium and cultured cells expressed pi GST and both isoforms of SOD. Cellular localisation was largely perinuclear. No expression of alpha or mu GST was detected even though polymerase chain reaction analysis showed 4/6 subjects had positive genotypes at the polymorphic, mu class GSTM1 locus. Incubation of cultured synovial fibroblasts with H2O2, IL-1 alpha and the cyclooxygenase and lipoxygenase inhibitor, Tenidap, did not induce expression of alpha, mu or pi GST though treatment with IL-1 alpha caused a marked increase in the expression of Mn SOD.
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PMID:Alpha, mu and pi class glutathione S-transferases in human synovium and cultured synovial fibroblasts: effects of interleukin-1 alpha, hydrogen peroxide and inhibition of eicosanoid synthesis. 824 85

Liver tissues were obtained from 20 liver cancer patients from Thailand, an area where the incidence of this tumour is high and where exposure to aflatoxin occurs. The expression of hepatic cytochrome P450s (P450) and glutathione S-transferase (GST) was examined and this expression was compared to the in vitro metabolism of aflatoxin B1 (AFB1). There was a > 10-fold inter-individual variation in expression of the various P450s including CYP3A4 (57-fold), CYP2B6 (56-fold) and CYP2A6 (120-fold). Microsomal metabolism of AFB1 to AFB1 8,9-epoxide (as measured by AFB1 tris-diol formation) and aflatoxin Q1 (AFQ1), the major metabolite produced, was significantly correlated with CYP3A3/4 expression (P < 0.001) and, to a lesser extent, with CYP2B6 expression (P < 0.01). There was a significantly reduced expression of major P450 proteins in microsomes from liver tumours compared to microsomes from the paired normal liver when analysed by Western immunoblot analysis. The production of AFQ1 and AFB1 tris-diol was almost uniformly reduced in tumours, but interestingly, the production of AFP1 was significantly increased. The immunoreactive expression of the major human classes of cytosolic GSTs (alpha, mu and pi) was also analyzed in normal and tumorous liver tissue. The expression of GSTA (alpha) and GSTM (mu) class proteins was markedly decreased and GSTP (pi) increased in the majority of tumour cytosols compared to normal liver. The cytosolic GST activity (1-chloro-2,4-dinitrobenzene conjugation) was significantly lower in liver tumours compared to normal liver (193 +/- 149 versus 875 +/- 299 nmol/min/mg, P < 0.0001), as was glutathione peroxidase (GPx) activity (cumene hydroperoxide) (26 +/- 23 versus 70 +/- 26 nmol/min/mg respectively, P < 0.005). Ten out of 14 individuals (71%) were homozygous null when genotyped for GSTM1. There was no detectable conjugation of AFB1 8,9-epoxide to glutathione by cytosol either from tumorous or normal liver. Thus, capacity of human cytosols to conjugate reactive AFB1 metabolites to GSH resembled AFB1-sensitive species such as rat, trout and duck rather than resistant species such as mouse and hamster. These data indicate a strong capacity of multiple forms of human hepatic P450s to metabolize AFB1 to both the reactive intermediate AFB1 8,9-epoxide and the detoxification product AFQ1. These results suggest that in view of the lack of significant GST-mediated protection against AFB1 in human liver, variations in expression of hepatic P450, due either to genetic polymorphisms or to modulation by environmental factors, may be important determinants in the risk of liver cancer development in AFB1-exposed populations.
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PMID:In vitro metabolism of aflatoxin B1 by normal and tumorous liver tissue from Thailand. 826 34

The chromosomal localization of the human Mu class glutathione S-transferase (GST) genes has been complicated by two factors; the total number of genes is unknown and there is a polymorphism that results from the presence or absence of the GSTM1 gene. Three human Mu class glutathione S-transferase isoenzymes, GSTM1, GSTM2, and GSTM3, have been characterized previously, and we have recently cloned and characterized GSTM4, another member of this class. Here we report that a probe derived from GSTM4 cross-hybridizes with the other three known human Mu class GST genes. In situ hybridization with the GSTM4 probe localized a major region of hybridization on chromosome band 1p13. Although there is a region of very weak hybridization on chromosome 6, these data indicate that the human Mu class gene family is largely clustered and not dispersed on different chromosomes. The identical hybridization patterns in individuals with or without the GSTM1 gene suggest that this locus is a component of the Mu class GST gene cluster.
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PMID:Chromosomal mapping of the human Mu class glutathione S-transferases to 1p13. 827 20

Recently, homozygous gene deletion of GSTM1, one of the Mu class glutathione S-transferase isozymes, was found to occur in approximately half of the population of various ethnic origins and has been implicated in tobacco-related carcinogenesis. In the present study we evaluated the risk of GSTM1 null genotype for lung cancer in relation to the extent of tobacco smoke exposure in 178 lung cancer patients (157 males, 21 females) and 201 healthy controls (140 males, 61 females), who were all Japanese and current smokers aged < or = 69 at the time of diagnosis. GSTM1 genotype was determined by polymerase chain reaction. We found GSTM1 gene to be lacking in 45.3% of the control population and demonstrated that the null genotype was aggregated a lot more in the squamous and small cell carcinoma groups (63-64%) than the control group but slightly more in the adenocarcinoma group (54.3%). Furthermore, when male patients and controls were analysed in relation to the degrees (< 800, 800-1200 and > or = 1200) of smoking index (sigma (cigarettes smoked per day) x (years of smoking)], the proportion of GSTM1 null genotype was found to increase progressively in the squamous and small cell carcinoma groups from 42-50% (odds ratio 0.8-1.3) in the patients with smoking index < 800 to 72-75% (odds ratio 3.1-3.7) in the patients with smoking index > or = 1200, while it was unrelated in the adenocarcinoma (50-55%, odds ratio 1.2-1.5) and in the control groups (42-48%). These results support the hypothesis that the GSTM1 null genotype is one of the genetic traits for smoking-related lung cancers, the risk of which, however, appears to be dependent on the extent of tobacco smoke exposure.
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PMID:Lung cancer risk of GSTM1 null genotype is dependent on the extent of tobacco smoke exposure. 831 38

The GSTM1, GSTM2, GSTM3, GSTM4, and GSTM5 glutathione transferase genes have been mapped to human chromosome 1 by using locus-specific PCR primer pairs spanning exon 6, intron 6, and exon 7, as probes on DNA from human/hamster somatic cell hybrids. For GSTM1, the assignment was confirmed by Southern blot hybridization to a pair of 12.5/2.4-kb HindIII fragments. The GSTM1-specific primer pairs can be used to identify individuals carrying non-null GSTM1 alleles. The organization of these five genes was confirmed by the isolation of a yeast artificial chromosome clone (GSTM-YAC2) that contains all five genes. With this clone, the location of the GSTM1-GSTM5 gene cluster on chromosome 1 was confirmed by fluorescence in situ hybridization. Both regional assignment using the fractional length method and examination of probe signal with reference to R-banded chromosomes induced by BrdU places the gene cluster in or near the 1p13.3 region. The close physical proximity of the GSTM1 and GSTM2 loci, which share 99% nucleotide sequence identity over 460 nucleotides of 3'-untranslated mRNA, suggests that the GSTM1-null allele may result from unequal crossing-over.
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PMID:Identification of class-mu glutathione transferase genes GSTM1-GSTM5 on human chromosome 1p13. 831 88

Mammalian cytosolic glutathione S-transferases (GSTs; EC 2.5.1.18) form a supergene family consisting of four distinct families, named alpha, mu, pi and theta. In humans one member of the mu class gene family (GSTM1) has been shown to be polymorphic and is only expressed in 55-60% of individuals. Previous studies have shown a possible link with the null phenotype and susceptibility to cancer, in particular to lung cancer. In this study we genotyped individuals with breast, bladder and colorectal cancer. A total of 490 individuals with cancer were studied, and consisted of 97 bladder, 197 breast and 196 colorectal cancers. No significant differences were observed in the frequency of nulled individuals in bladder or breast cancer patients when compared with a control population of 225 individuals. However, a significant excess of nulled individuals were seen in colorectal cancer: 56.1% compared with the control group value of 41.8%. This was shown to be highly significant depending on the site of the tumours and > 70% of individuals with a tumour in the proximal colon were GSTM1 nulled. This is an approximately 2-fold increase in colon cancer risk in these individuals.
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PMID:Relationship between the GSTM1 genetic polymorphism and susceptibility to bladder, breast and colon cancer. 840 4

Glutathione S-transferase class mu (GSTM1) is known to detoxify certain carcinogens or their activated metabolites. In a previous study using phenotyping methods, individuals genetically devoid of this enzyme activity were significantly overrepresented among lung cancer patients compared to controls, suggesting that this trait is a risk factor for lung cancer. Here, GST class mu status has been determined both pheno- and genotypically, i.e., (a) by ex vivo measurement of trans-stilbene oxide conjugation in lymphocytes, (b) by GSTM1 quantification in blood using an immunoassay, and (c) by the application of polymerase chain reaction to genomic DNA with characterization of an inactivating mutation responsible for the null allele and a G/C single base allelic variance corresponding to the polymorphism of GSTM1 isoenzymes mu and psi, respectively. One hundred seventeen lung cancer patients and 155 control patients were studied. The two groups were of German origin and were similar with respect to age, sex, smoking history, and catchment area. In about 97% of cases, the three methods of assigning activity type of GSTM1 gave corresponding results. By genotype, 55 of 117 lung cancer patients (47.0%) and 73 of 155 control patients (47.1%) were GSTM1 active. The control group was confirmed by analysis of GSTM1 genotype in 200 further, independently studied reference patients; 101 of them were GSTM1 active (50.5%). Thus, the hypothesis of heritable GSTM1 deficiency as a host factor predisposing to lung cancer proved inappropriate. Detailed analysis of subgroups with respect to smoking habits, age, and sex failed to reveal an impact of GST class mu genotype on lung cancer risk. Among the total of 272 patients studied, 36 individuals carried at least one psi allele; however, no unexpected frequency distribution was observed.
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PMID:Genotype and phenotype of glutathione S-transferase class mu isoenzymes mu and psi in lung cancer patients and controls. 843 46

The Mu-Class glutathione S-transferases (GSTs) are subject to marked inter-individual variation in man, owing to the fact that 40-50% of the population fail to express M1 subunits. Mu-Class GST from two lymphoblastoid cell lines (expressing M1 subunits and the other 'nulled' for M1) have been studied. Both cell lines were found to express a Mu-Class GST that has not been described previously. The cDNA encoding this novel transferase, designated 'GSTM4' has been isolated and the enzyme shown to be comprised of 218 amino acids (including the initiator methionine residue) with an M(r) of approx. 25.5 kDa. Molecular cloning demonstrated that the lymphoblastoid cell line which expressed GSTM1 possessed the b allelic variant (i.e. that with an asparagine residue at position 173). The genes for GSTM4 and GSTM1b have been cloned and found to contain seven introns and eight exons. The coding region of the GSTM4 gene, including the seven introns, encompasses 5.0 kb, whereas the same region of GSTM1b is 5.5 kb; the difference in the size of the two genes is due to the length of intron 7. DNA sequencing allowed a GSTM4-gene-specific oligo-primer to be designed which has been utilized in a PCR-based assay to determine that the GSTM4 gene is located on chromosome 1.
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PMID:Deduced amino acid sequence, gene structure and chromosomal location of a novel human class Mu glutathione S-transferase, GSTM4. 847 Oct 52

Specific cDNA probes and antisera were employed to interpret genetic polymorphisms of human Mu-class glutathione S-transferases and to provide a basis for identifying individual forms in human tissues. A cDNA probe that cross-hybridized with various human and rodent Mu-glutathione S-transferase transcripts, hybridized with at least three discrete components by Northern analysis of RNA from human tissue. The smallest (1.3 kb) transcript was identified as the one that encodes GSTM3-3 subunits. A form designated GSTM5, was cloned from a human brain cDNA library and its sequence determined. The open reading frame of GSTM5 shared a high degree of homology with the sequences of other Mu-class glutathione S-transferases, but its 846-nucleotide 3'-noncoding region was unique and considerably larger than that of any of the other Mu forms. Specific synthetic peptide antigens were utilized to distinguish among Mu-class glutathione S-transferases in different tissues of representative individuals. The primary hepatic transcript was that encoding GSTM1-1 with much lesser amounts of GSTM3-3, but livers were devoid of GSTM2-2, and GSTM5-5. Immunoblots confirmed that null-phenotype individuals lacked the GSTM1 gene rather than its GSTM2 homologue that is nearly identical in its exon sequences. The null phenotype therefore was conspicuous in liver, where GSTM1-1 ordinarily was the predominant Mu transcript, but brain and testis contained all four forms. A general strategy was devised to distinguish among and assign primary structures to individual glutathione S-transferases from human tissue.
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PMID:A basis for differentiating among the multiple human Mu-glutathione S-transferases and molecular cloning of brain GSTM5. 847 33

Studies were carried out to test the hypothesis that the GSTM1 null phenotype at the mu (mu) class glutathione S-transferase 1 locus is associated with an increased predisposition to primary biliary cirrhosis. Starch gel electrophoresis was used to compare the prevalence of GSTM1 null phenotype 0 in patients with end stage primary biliary cirrhosis and a group of controls without evidence of liver disease. The prevalence of GSTM1 null phenotype in the primary biliary cirrhosis and control groups was similar; 39% and 45% respectively. In the primary biliary cirrhosis group all subjects were of the common GSTM1 0, GSTM1 A, GSTM1 B or GSTM1 A, B phenotypes while in the controls, one subject showed an isoform with an anodal mobility compatible with it being a product of the putative GSTM1*3 allele. As the GSTM1 phenotype might be changed by the disease process, the polymerase chain reaction was used to amplify the exon 4-exon 5 region of GSTM1 and show that in 13 control subjects and 11 patients with primary biliary cirrhosis, GSTM1 positive and negative genotypes were associated with corresponding GSTM1 expressing and non-expressing phenotypes respectively. The control subject with GSTM1 3 phenotype showed a positive genotype.
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PMID:GSTM1 null polymorphism at the glutathione S-transferase M1 locus: phenotype and genotype studies in patients with primary biliary cirrhosis. 849 5


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