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)

Epidemiological studies suggested a protective effect of certain phenotypes of polymorphic foreign-compound-metabolizing enzymes in some types of cancer. Poor metabolizers (PM) of debrisoquine 4-hydroxylase (cytochrome P-450IID6, CYP2D6) were found to be underrepresented among patients with lung cancer. Recent advances in molecular genetic characterization of CYP2D6, glutathione S-transferase (GST) class Mu, and arylamine N-acetyltransferase enabled genotypical determination of mutant alleles in lung cancer patients. Restriction fragment length polymorphism (RFLP) with a cDNA gene probe of CYP2D6 was analyzed in 79 lung cancer patients who were phenotyped with debrisoquine. Mutant alleles were detected by allele-specific polymerase chain reaction (PCR). In the same individuals, genotype of GST class Mu was analyzed by PCR and correlated with ex vivo activity of glutathione conjugation towards trans-stilbene oxide. RFLP patterns allowed discrimination between the slow and fast genotype of N-acetyltransferase as well as the heterozygotes. Three phenotypical PMs of debrisoquine (3.8%) were confirmed by PCR and RFLP. No PM could be unambiguously recognized only by RFLP patterns. The PMs were characterized by PCR and RFLP as carriers of the 29B/29B (n = 1), 29A/29B (n = 1), and 29A/44 (n = 1) mutant alleles. Higher debrisoquine hydroxylase activities were found in the homozygous EMs, who possess two active genes, as compared to heterozygous EMs, who have only one active gene. The patients with phenotypically impaired GST Mu activity were confirmed as such by PCR. A complete correspondence between phenotyping of N-acetyltransferase (with caffeine) and genotyping was found. The new genetic techniques proved to be powerful tools for molecular-epidemiological studies aimed at establishing host factors of cancer susceptibility.
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PMID:Mutant genes of cytochrome P-450IID6, glutathione S-transferase class Mu, and arylamine N-acetyltransferase in lung cancer patients. 135 78

The glutathione transferase mu gene (GST1) and the debrisoquine hydroxylase gene (CYP2D6) are known to be polymorphic in the human population and have been associated with increased susceptibility to cancer. Smokers with low lymphocyte GST mu activity are at higher risk for lung cancer, while low debrisoquine hydroxylase activity has been correlated with lower risk for lung and bladder cancer. Phenotypic characterization of these polymorphisms by lymphocyte enzyme activity (GST) and urine metabolite ratios (debrisoquine) is cumbersome for population studies. Recent cloning and sequencing of the mutant alleles of these genes has allowed genotyping via the polymerase chain reaction (PCR). Advantages of PCR approaches are speed, technical simplicity, and minimal sample requirements. This article reviews the PCR-based methods for detection of genetic polymorphisms in human cancer susceptibility genes.
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PMID:Detection of DNA sequence polymorphisms in carcinogen metabolism genes by polymerase chain reaction. 168 53

The identification of genetic traits that predispose individuals to environmentally induced cancers is one of the most important problems in cancer risk assessment. Genetic deficiency in the mu-isozyme of the glutathione (GSH) S-transferases (EC 2.5.1.18) has recently been associated with increased lung cancer risk. To test whether this association could arise from a metabolically mediated sensitivity to mutagenic substrates, cytogenetic damage in lymphocytes from 21 isozyme-deficient and 24 nondeficient individuals was induced. Cells were treated with trans-stilbene oxide, an excellent substrate for GSH S-transferase mu, or cis-stilbene oxide, a poor substrate for the isozyme. Sister chromatid exchange induction was measured as an indicator of cytogenetic damage. A trimodal distribution of trans-stilbene oxide-induced sister chromatid exchanges was observed in the population, including resistant, moderate, and highly sensitive groups. Glutathione S-transferase mu deficiency was associated with both moderate and high sensitivity to trans-stilbene oxide-induced damage but had no effect on cis-stilbene oxide-induced sister chromatid exchange. The results indicate that GSH S-transferase mu, a proposed marker of cancer susceptibility, is also a marker of susceptibility to the induction of cytogenetic damage by a certain class of mutagens. The differential effects of the cis- and trans-isomers of stilbene oxide illustrate that the stereoselectivity of GSH S-transferase mu toward various alkene epoxide substrates can be an important factor affecting individual sensitivity to DNA-damaging epoxides.
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PMID:Human glutathione S-transferase deficiency as a marker of susceptibility to epoxide-induced cytogenetic damage. 230 18

Up to 90% of all cancers are possibly caused by environmental factors, such as tobacco smoke, diet and occupational exposures. The majority of chemical carcinogens require metabolic activation before they interact with cellular macromolecules and can cause cancer initiation. The xenobiotic-metabolising machinery contains two main types of enzymes: the phase-I cytochromes P-450 (CYP) mediating oxidative metabolism, and phase-II conjugating enzymes. Several phase-I and phase-II genes have recently been cloned and identified in humans. Many of them show polymorphism and have been suggested to contribute to individual cancer susceptibility as genetic modifiers of cancer risk. Altered phenotypes and genotypes in the CYP subfamilies CYP1A1, CYP2D6 and CYP2E1 have been associated with tobacco smoke-induced lung cancer and other cancers. Defective glutathione S-transferase (GST) and N-acetyltransferase (NAT) enzymes have been associated with an increased risk of developing lung and bladder cancer. There are also several studies in each category in which no associations have been found. The risk of developing lung cancer is dramatically (up to 40-fold) elevated in subpopulations having simultaneously high-risk genotypes in CYP1A1 and GSTM1. There are several difficulties in this area of research. First, many of the observed restriction-fragment length polymorphisms (RFLPs) are due to mutations in introns or other silent areas of DNA, raising the possibility that any associations found between RFLPs and cancer occur only by chance. Second, biologically plausible mechanisms linking genotypes and cancer are lacking in most of the observed cases.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Diagnosis of polymorphisms in carcinogen-activating and inactivating enzymes and cancer susceptibility--a review. 760 65

Glutathione S-transferase isozyme class mu from human leukocytes has been shown to be dominantly inherited and can be determined by activity measurement directed toward the substrate trans-stilbene oxide. The activity distribution of leukocyte glutathione S-transferase class mu was determined from control healthy nonsmokers, smokers, and smoking-related cancer patients. In a control healthy nonsmoker population, 54% (n = 50) of the subjects showed high levels of glutathione S-transferase class mu activity. In patients with cancers known to be related to smoking, 46% (n = 50) showed higher levels of glutathione S-transferase class mu. Noncancer smokers matched for age and smoking history with cancer patients showed an increased likelihood of having glutathione S-transferase (GST) class mu activity (76%). These results suggest that GST mu may be a cancer susceptibility marker in the case of smokers. In rats, benzo[a]pyrene (1 mg/kg, ip) administration daily for 3 d produced a significant increase in liver glutathione S-transferase class mu. Although these induction studies in experimental animals may not be relevant to humans, there is a possibility that, as in rats, this enzyme may be inducible in humans by polycyclic aromatic hydrocarbons.
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PMID:Human leukocyte glutathione S-transferase isozyme (class mu) and susceptibility to smoking-related cancers. 766 88

The rat theta class glutathione S-transferase (GST) 5-5 has been shown to affect the mutagenicity of halogenated alkanes and epoxides. In Salmonella typhimurium TA1535 expressing the rat GST5-5 the number of revertants was increased compared to the control strain by CH2Br2, ethylene dibromide (EDB) and 1,2,3,4-diepoxybutane (BDE); in contrast, mutagenicity of 1,2-epoxy-3-(4'-nitro-phenoxy)propane (EPNP) was reduced. S.typhimurium TA1535 cells were transformed with an expression plasmid carrying the cDNA of the human theta ortholog GST1-1 either in sense or antisense orientation, the latter being the control. These transformed bacteria were utilized for mutagenicity assays. Mutagenicity of EDB, BDE, CH2Br2, epibromohydrin and 1,3-dichloroacetone was higher in the S.typhimurium TA1535 expressing GSTT1-1 than in the control strain. The expression of active enzyme did not affect the mutagenicity of 1,2-epoxy-3-butene or propylene oxide. GSTT1-1 expression reduced the mutagenicity of EPNP. Glutathione S-transferase 5-5 and GSTT1-1 modulate genotoxicity of several industrially important chemicals in the same way. Polymorphism of the GSTT1 locus in humans may therefore cause differences in cancer susceptibility between the two phenotypes.
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PMID:Human glutathione S-transferase T1-1 enhances mutagenicity of 1,2-dibromoethane, dibromomethane and 1,2,3,4-diepoxybutane in Salmonella typhimurium. 856 28

A growing number of human genetic polymorphisms in drug-metabolizing enzymes (DMEs) are being characterized. Some of these have been shown, quite convincingly, to be correlated with risk of toxicity or cancer, whereas others presently remain equivocal. There is good evidence that the correlation is stronger in populations exposed to a variety of environmental procarcinogens; perhaps 30% of DME substrates are able to be metabolically potentiated. Phase I DMEs, most of which represent cytochromes P450, metabolically activate procarcinogens to genotoxic electrophilic intermediates, and Phase II DMEs conjugate the intermediates to water-soluble derivatives, completing the detoxification cycle. It follows that genetic differences in the regulation, expression and activity of genes coding for Phase I and Phase II DMEs would be crucial factors in defining cancer susceptibility and the toxic or carcinogenic power of environmental chemicals. Not all Phase I and Phase II DMEs are implicated in detoxification; previous work from this and from other laboratories has identified candidate Phase I and Phase II genes in which certain alleles are more likely to be associated with cancer susceptibility. In some cases, the allelic frequencies vary dramatically between ethnic groups. In this review, our current knowledge about polymorphisms in the following genes are updated: the aromatic hydrocarbon receptor (AHR), the CYP1A1 structural gene (which encodes aryl hydrocarbon hydroxylase activity), the CYP1A2 structural gene (arylamine oxidations), the CYP2C19 gene (S-mephenytoin 4'-hydroxylase), the CYP2D6 gene (debrisoquine hydroxylase), the CYP2E1 gene (N,N-dimethylnitrosamine N-demethylase), the null mutant for the GSTM1 gene (glutathione transferase mu), and the NAT2 gene (arylamine N-acetyltransferase). If unequivocal biomarkers of genetic susceptibility to cancer and toxicity can be developed successfully, then identification of individuals at increased risk would be very helpful in the fields of public health and preventive medicine.
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PMID:Human drug-metabolizing enzyme polymorphisms: effects on risk of toxicity and cancer. 863 63

Heterocyclic amines (HAs) present in cooked meat (PhIP and MeIQx) are activated only by CYP1A2 in the liver of most species, including man. This enzyme exhibits marked interindividual differences in its expression, due to induction and possibly also genetically. The absence of CYP1A2 appears to protect from HA-(PhIP and MeIQx) induced cancer, as exemplified by results in the cynomolgus monkey. Differences in the potency of these HAs are not due to differences in the kinetics of their activation. The catalytic efficiency of CYP1A2 towards HAs and their oxidative fate varies amongst species, in both cases increasing the susceptibility of humans compared to that of the rat. Interindividual and inter-organ differences in the further metabolism of N-hydroxy-HAs appear to be important determinants of cancer susceptibility, as does the glutathione S-transferase catalysed detoxication of esters of N-hydroxy-PhIP. There is a need for an effective means of quantifying the in vivo activation of HAs in man to enable the possible risk posed by these compounds to be assessed effectively.
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PMID:Enzymic and interindividual differences in the human metabolism of heterocyclic amines. 867 4

Most of chemical carcinogens require metabolic activation before they interact with cellular macromolecules and can cause cancer initiation. Many of cytochrome P-450 (CYP) mediating oxidative enzymes and conjugation enzymes, cloned and characterized in humans, show genetic and phenotypic polymorphisms and have been suggested to contribute to individual cancer susceptibility as genetic modifiers of cancer risk. Altered phenotypes and genotypes in CYP1A1, CYP2D6 and CYP2E1 and in defective glutathione S-transferase (GST) and N-acetyltransferase enzymes have been associated with an increased risk of developing lung and other cancers. The risk to lung cancer is dramatically increased in the population carried simultaneously high-risk genotypes in CYP1A1 and GSTM1. There are, however, several studies in each category in which no association have been found.
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PMID:[Genetic and phenotypic polymorphisms in carcinogen-metabolizing enzymes and cancer susceptibility]. 881 Aug 6

Colon cancer provides an attractive setting for chemoprevention trials because of the frequency and variation of familial predisposition that is observed in this malignancy. Additionally, the adenomatous polyp, the precursor of colon cancer, is a valuable intermediate marker for judging the effectiveness of candidate chemopreventive agents. Inherited colon cancer susceptibility varies from mild to severe. Conditions with extreme susceptibility include the autosomal dominantly inherited syndromes of familial adenomatous polyposis (FAP) and hereditary nonpolyposis colorectal cancer (HNPCC). These are highly penetrant syndromes with extreme cancer risk. FAP arises from mutations of the APC gene and HNPCC from mutations of the mismatch repair genes. Specific and individual genetic diagnosis is now possible in both syndromes, thus allowing identification of genetically affected individuals for chemoprevention trials. FAP accounts for less than 1% of colon cancers, while HNPCC may be present in up to 5% of cases. Familial clustering is common in the remainder of cases, which are often referred to as sporadic, but probably arise in part from inherited susceptibility. Epidemiologic studies have shown that first-degree relatives have a two- to four-fold increased risk of acquiring colon cancer compared to the general population. Ten percent of individuals in the U.S. have a first-degree with colon cancer. This clinically identifiable higher risk group thus constitutes a large potential cohort for chemoprevention trials. The common familial cases of colon cancer can be further stratified by severity. A relative diagnosed under the age of 50 or two first-degree relatives affected with colon cancer confers an even greater risk for this malignancy, estimated to be four to six times that of the general population. Adenomatous polyps also precede the development of colon cancer in these categories, thereby providing a readily identifiable clinical endpoint to judge the effectiveness of chemoprevention. It is expected that genetic markers will soon be available for more precise identification of common colon cancer susceptibility. Candidate markers include mild mutations of the APC and mismatch repair genes, glutathione transferase isoenzymes, acetylator status, and phospholipase A2 expression. Bile acid concentrations of the bowel may be genetically and/or environmentally determined and likely have a role in colon cancer susceptibility. We recently identified a large kindred with polyp and cancer susceptibility arising from a mild mutation of the APC gene. There are over 4,000 kindred members and mutational testing has demonstrated 140 gene carriers to date. We expect to institute chemoprevention trials in this kindred using adenomatous polyp number as an endpoint of effectiveness.
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PMID:Cohorts with familial disposition for colon cancers in chemoprevention trials. 902 9


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