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)

The recently discovered human class theta glutathione S-transferase T1-1 (GSTT1-1) is responsible for the GSH-dependent detoxification of naturally occurring monohalomethanes. The detoxifying role of GSTT1-1 has not been investigated in cancer susceptibility and the polymorphism of the protein is unknown in different populations. The purpose of our work was to produce a panel of mouse monoclonal antibodies (MAbs) that could bind to different regions of the GSTT1-1 protein and would help us select suitable MAbs for Western blot analyses and immunohistochemistry, and develop an ELISA assay for detection of GSTT1-1 in whole blood. Six highly specific MAbs were generated against GSTT1-1. Out of six MAbs, one was able to recognize only the native form of the enzyme and possesses two binding sites on the dimeric GSTT1-1 molecule. The other five MAbs bind to both native and denatured GSTT1-1 enzyme in direct and antigen capture ELISA or Western blot. The antibodies recognize at least four different epitopes on the GSTT1-1 molecule. Using MAbs 4G1 and 2D8, a sensitive ELISA assay for determination of GSTT1-1 in whole blood was developed.
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PMID:Production and characterization of monoclonal antibodies against class theta glutathione S-transferase T1-1. 906 89

The mu (GSTM1 and theta (GSTT1) members of the glutathione S-transferase multigene family are candidate cancer susceptibility genes because of their ability to regulate the conjugation of carcinogenic compounds to excretable hydrophilic metabolites. Deletion variants that are associated with a lack of enzyme function exist at both these loci. Individuals who are carriers of homozygous deletions in the GSTM1 of GSTT1 genes may have an impaired ability to metabolically eliminate carcinogenic compounds and may therefore be at increased cancer risk. Molecular epidemiological studies have provided three pieces of information about the relationship of GSTM1 and GSTT1 with cancer susceptibility. First, the frequencies of homozygous GSTM1 and GSTT1 deletion carriers is very high (i.e., 20-50%) in most populations studied to date. Second, GSTM1 and, possibly, GSTT1 may be involved in the etiology of cancer at more than one site. Third, the risk conferred to individuals who carry homozygous deletions in GSTM1 and GSTT1 appears to be small in magnitude. (e.g., odds ration of < 2). However, the magnitude of risk is larger (e.g., odds ratio of 3-5) when interactions of GSTM1 of GSTT1 with other factors (e.g., cigarette smoking) are considered. These findings have implications for studies of GSTM1 and GSTT1 in cancer susceptibility and for future applications of these biomarkers in cancer prevention of control strategies. First, molecular epidemiological studies should consider both the common frequency of deletion genotypes and the relatively low cancer risk these deletion genotypes may impart. For example, the common frequency of deletion variants may improve statistical power in some molecular epidemiological studies, but large samples may still be required to detect relatively small effect sizes or important interaction effects. Second, the fact that deletion genotypes are common implies that the proportion of cancer attributable to these variants may be large in the general population. However, these genotypes may be less suited for individual cancer risk assessment because of their relatively small contribution to the absolute risk of cancer.
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PMID:Molecular epidemiology of the human glutathione S-transferase genotypes GSTM1 and GSTT1 in cancer susceptibility. 929 82

Though a developing body of data indicates polymorphism at GST genes influences cancer susceptibility, it is unclear why a genotype is associated with one cancer but not another. We believe the GST exert a critical role in normal cell house-keeping activities. GSTM1, GSTM3 and GSTT1 influence tumorigenesis because these enzymes utilise the products of UV-induced oxidative stress. Further support for the importance of these genes in the protection of skin from UV comes from studies in systemic lupus erythematosus (Ollier et al, 1996). Thus, GSTM1 null is associated with increased anti-Ro (but not anti-La) antibodies, a phenotype associated with photosensitivity. At present there is no basis for predicting which cancers will be influenced by GST polymorphisms though other studies do indicate that the GSTs are critical in the metabolism of environmental carcinogens. For example, GSTT1 null confers an increased risk of astrocytoma (Hand et al, 1996). While brain tumours are not clearly associated with environmental pollutants, N-methyl-N-nitrosourea, processed meats and occupation have been implicated. Why GSTT1 but not GSTM1 or GSTM3 influences the risk of astrocytoma is unclear. GSTM3 appears a good susceptibility candidate, as some astrocytes demonstrate strong expression (Hand et al, 1996). Susceptibility to squamous cell cancer of the larynx, a pathology associated with chronic consumption of tobacco and alcohol, is also influenced by allelism at GSTM3 (Jahnke et al, 1996). The roles of CYP2D6 and CYP1A1 are even more unclear, though the finding that systemic agents such as arsenic predispose to multiple BCC, suggests that CYP2D6-mediated hepatic detoxification of photosensitizing agents may be important. Importantly, the extent of altered risk conferred by genotypes is generally 2-3 fold and it is necessary to identify which other genes interact with the GST so that haplotypes associated with 10-20 fold increases in risk can be defined.
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PMID:Polymorphism in glutathione S-transferase loci as a risk factor for common cancers. 944 13

The association between glutathione S-transferase (GST) activity as measured by 1-chloro-2,4-dinitrobenzene (CDNB) conjugation and genotype at exon 5 and exon 6 of the human GSTP1 gene was investigated in normal lung tissue obtained from 34 surgical patients. These samples were genotyped for previously identified polymorphisms in exon 5 (Ile105Val) and exon 6 (Ala114Val) by PCR-RFLP and direct sequencing. GST enzyme activity was significantly lower among individuals with the 105 Val allele. Homozygous Ile/Ile samples (n = 18) had a mean cytosolic CDNB conjugating activity of 74.9 +/- 3.8 nmol/mg per min; heterozygotes (n = 13) had a mean specific activity of 62.1 +/- 4.2 nmol/mg per min and homozygous Val/Val (n = 3) had a mean specific activity of 52.5 +/- 4.5 nmol/mg per min. The CDNB conjugating activity measured for the Ile/Ile genotype group was significantly different from that observed in the Ile/Val group (P = 0.03), and from Ile/Val and Val/Val genotypes combined (P = 0.009). Mean GST activity values were consistently lower in individuals with genotypes containing the 105 valine allele, regardless of smoking exposure. Genotypes at codon 114 were also assessed but the mean GST activity was not significantly lower in individuals with the 114 valine allele. A new haplotype, present in two samples who were homozygous 105Ile and had a 114Val, was identified and proposed as GSTP1*D. Frequencies of the exon 5 and exon 6 polymorphisms were determined in samples obtained from European-Americans, African-Americans and Taiwanese. The differences observed were highly significant suggesting the possibility of GSTP1 genotype-associated, ethnic differences in cancer susceptibility and chemotherapeutic response.
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PMID:Human glutathione S-transferase P1 polymorphisms: relationship to lung tissue enzyme activity and population frequency distribution. 949 76

Deficiencies of the glutathione transferase isoenzymes GSTM1-1 and GSTT1-1 have been shown to be risk modifiers in a number of different cancers but there have been no similar studies with GSTP1-1, the only member of the Pi class of glutathione S-transferases expressed in humans. Over-expression of GSTP1-1 in tumours suggests that it may be a significant factor in acquired resistance to certain anticancer drugs. We previously identified a cDNA clone with two amino acid substitutions (I105V, A114V). This clone suggests that the GSTP1 gene is polymorphic and it is possible that the different genotypes may be associated with altered cancer risk or drug resistance. In the present study, we report methods for genotyping individuals at codons 105 and 114 of GSTP1 and demonstrate that these two loci are polymorphic in several different racial groups. We also detected significant linkage disequilibrium between these two loci. To determine if either of the alleles at these two loci were associated with altered cancer susceptibility, we genotyped individuals with colorectal cancer or lung cancer. A total of 131 colorectal and 184 lung cancer patients were compared with 199 control individuals. Overall, there were no significant associations between the GSTP1 polymorphisms and either form of cancer.
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PMID:Polymorphism of the Pi class glutathione S-transferase in normal populations and cancer patients. 951 Nov 78

The activity of chemical carcinogens is a complex balance between metabolic activation by cytochrome P450 monooxygenases and detoxification by enzymes such as glutathione S-transferase (GST). Regulation of these proteins may have profound effects on carcinogenic activity, although it has proved impossible to ascribe the observed effects to the activity of a single protein. GstP appears to play a very important role in carcinogenesis, although the precise nature of its involvement is unclear. We have deleted the murine GstP gene cluster and established the effects on skin tumorigenesis induced by the polycyclic aromatic hydrocarbon 7, 12-dimethylbenz anthracene and the tumor promoting agent 12-O-tetradecanoylphorbol-13-acetate. After 20 weeks, a highly significant increase in the number of papillomas was found in the GstP1/P2 null mice [GstP1/P2(-/-) mice, 179 papillomas, mean 9.94 per animal vs. GstP1/P2(+/+) mice, 55 papillomas, mean 2.89 per animal, (P < 0.001)]. This difference in tumor incidence provides direct evidence that a single gene involved in drug metabolism can have a profound effect on tumorigenicity, and demonstrates that GstP may be an important determinant in cancer susceptibility, particularly in diseases where exposure to polycyclic aromatic hydrocarbons is involved, for instance in cigarette smoke-induced lung cancer.
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PMID:Increased skin tumorigenesis in mice lacking pi class glutathione S-transferases. 956 Feb 66

Myelodysplastic syndrome (MDS) is a hematological disorder that occurs primarily in the elderly as an acquired, sporadic disease. Familial cases of MDS are rare. We have identified a kindred with three affected individuals, with early age of onset, suggesting a possible inherited predisposition to this disease. Using a molecular genetic approach, we examined whether bands 5q31 or 7q22 or both, the chromosomal regions most frequently associated with sporadic MDS, are involved in familial expression of MDS in this pedigree. Linkage analysis using polymorphic microsatellite DNA markers demonstrated that neither 5q31 nor 7q22 cosegregated with MDS in this family. There was no history of common environmental or occupational exposure among family members with MDS. In addition, analysis of polymorphisms at two loci [glutathione S-transferase T1 and M1 (GSTT1 and GSTM1)] involved in carcinogen detoxification and associated with cancer susceptibility, including increased risk for MDS, showed no evidence for enhanced sensitivity to environmental carcinogens in affected family members. Taken together, our findings suggest that (1) there is an inherited predisposition to MDS in this kindred; and (2) genes at 5q31 and 7q22, the regions most commonly associated with sporadic MDS, are excluded from a causal role in this family's disease.
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PMID:Genetic analysis of familial myelodysplastic syndrome: absence of linkage to chromosomes 5q31 and 7q22. 972 26

The characterization of genetic determinants for cancer susceptibility is important for understanding disease pathogenesis and for preventive measures. There is growing evidence that a group of predisposing polymorphic genes exists, such as those involved in carcinogen metabolism and repair, which may increase cancer in certain environmentally exposed subjects, even those exposed only to low levels of carcinogens. In developing preventive strategies, it is therefore necessary to identify these vulnerable members in our society, particularly those suffering from an unfortunate combination of high carcinogen exposure, cancer-predisposing genes and lack of protective (dietary) factors. Thus, molecular epidemiology faces the difficult task of analyzing carcinogen-exposed individuals for a combination of genotypes associated with cancer susceptibility. Once identified, combinations of cancer-predisposing genes can then be used as intermediate risk markers rather than taking cancer as an endpoint. In case-control studies, simultaneous measurements were carried out in each subject to determine exposure/early effect markers, e.g. polycyclic aromatic hydrocarbons (PAH)-DNA adducts, and susceptibility markers, e.g. genetic polymorphism, in drug-metabolizing enzymes related to cytochrome P450 1A1 (CYP1A1) and glutathione S-transferase (GSTM1) genes. The genotype dependence of human lung (+)-anti-benzo[a]pyrene diol-epoxide (BPDE)-DNA adducts in lung cancer patients was examined. BPDE-DNA adduct levels in bronchial tissue of smokers with high pulmonary CYP1A1 inducibility (by immunohistochemistry) and GSTM1 inactive were approximately 100-fold higher than in subjects with an active GSTM1 at similar smoking dose. Further genetic analyses confirmed that the combination of CYP1A1 homozygous mutants and GSTM1 inactive leads to high levels of BPDE-DNA adducts in human lung of smokers and white blood cells of PAH-exposed coke oven workers. Thus, BPDE-DNA adduct levels resulting from the "at risk" genotype combinations may serve as markers to identify high-risk subjects among smokers and individuals occupationally and/or environmentally exposed to PAH.
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PMID:Impact of adduct determination on the assessment of cancer susceptibility. 1002 94

Analysis of glutathione S-transferases (GSTs) of the alpha, mu, and pi classes by reverse-phase high-performance liquid chromatography and electrospray-ionization mass spectrometry in 43 samples of normal human pancreas demonstrated a wide variation in expression of subunits P1, A1, A2, A4, M1, M2, and M3 and the presence of a novel form designated GST "A5." GSTA2 consisted of three forms that were differentially expressed between individuals in a manner consistent with allelic polymorphism at the hGSTA2 locus. Expression, in terms of microg GST subunit/mg cytosolic protein, varied by 6-15-fold for subunits P1, A2, and M3 and 17-30-fold in the case of GSTs A1 and M2. Less consistently expressed were GSTs M1a, M1b, A4, and A5. Among these, GSTM1 expression (excluding M1-null samples) varied 12-fold between samples, whereas GST A4 and A5 expression varied approximately 50-100-fold between samples, well beyond the range of other subunits, suggesting that their expression is highly inducible. Linear correlations (P < 0.001-0.003) existed between levels of the most consistently expressed GST, GSTP1, and total GSTs, GSTA2 and M3, and in GSTM1-positive samples, between GSTM1, M3, and P1. The correlation between GST subunits P1 and M3 was bimodal according to M1 genotype, reflecting the presence of the regulatory element in hGSTM3*B that is linked with the hGSTM1*A genotype. It is concluded that although a degree of regulation of expression of GSTs occurs in human pancreas, the variability of phenotype is high and might obscure the effects of genetic polymorphisms on individual cancer susceptibility. Interindividual variation of GST expression is, therefore, a factor that should be taken account of in epidemiological studies.
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PMID:Quantitative analysis of interindividual variation of glutathione S-transferase expression in human pancreas and the ambiguity of correlating genotype with phenotype. 1067 39

The human glutathione S-transferase (GST) P1 alleles coding for Val(105) (hGSTP1*B and/or P1*C) are over- represented in lung cancer patients. However, the corresponding recombinant Val(105) protein variants tend to show higher catalytic activity than the Ile(105) variants towards bay-region diol epoxides that are thought to be etiological agents in lung cancer. We have examined 29 normal human lung samples with respect to several factors that could confound relationships between hGSTP1 allele type and cancer susceptibility, namely, inter-individual and allele-specific variation of hGSTP1 expression, and differences between the catalytic properties of the native and recombinant hGSTP1-1 variant protein products. hGSTP1 expression varied 7-fold among individuals but was independent of hGSTP1*A, P1*B or P1*C allele type. hGST subunits A1, A2, M1 and M3 were minor components, similarly variable in expression. Despite this variability of expression, the levels of hGSTP1 expression linearly correlated with those of the next most highly expressed GST, hGSTM3, even though the genes for these GSTs are on different chromosomes. Differences between the native protein variants, using 1-chloro-2,4-dinitrobenzene and (+)-anti-benzo[a]pyrene diolepoxide as substrates, were more marked than those between the recombinant variants. However, the order of differential catalytic specificity was the same for native and recombinant variants. Neither the expression of the hGSTP1 alleles nor the catalytic properties of the protein variants appears to provide a simple mechanistic rationale for the observed over-representation of the hGSTP1*B and/or 1*C alleles in lung cancer.
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PMID:Expression of hGSTP1 alleles in human lung and catalytic activity of the native protein variants towards 1-chloro-2,4-dinitrobenzene, 4-vinylpyridine and (+)-anti benzo[a]pyrene-7,8-diol-9,10-oxide. 1088 Jul 66


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