Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0242379 (lung cancer)
 71,905 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The glutathione S-transferase supergene family includes several loci that demonstrate well characterised polymorphisms. The apparently critical role of these enzymes in cellular protection from the cytotoxic and mutagenic effects of electrophiles suggest that alleles associated with impaired detoxification will confer an increased susceptibility to a wide range of diseases. This hypothesis has been examined in case control studies and while data in some diseases such as lung cancer are conflicting, an increasing body of evidence suggests the importance of several glutathione S-transferase polymorphisms. In particular, GST genotypes have been associated with an increased susceptibility or worse outcome in diseases associated with oxidative stress. For example, both GSTM1 and GSTT1 genotypes are associated with susceptibility and outcome in cutaneous basal cell carcinoma. It still remains unclear however, why particular glutathione S-transferase loci are associated with altered risk in some diseases but not others. Further, the true in vivo substrates of these enzymes is unknown, consequently their mechanism of action remains unclear.
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PMID:Glutathione S-transferase polymorphisms: influence on susceptibility to cancer. 967 66

Cancer and cardiovascular diseases share risk factors such as smoking, and the onset of both diseases have been suggested to have a common mechanistic basis. The binding of carcinogens to DNA (carcinogen-DNA adducts), genetic polymorphisms in carcinogen-detoxifying enzymes glutathione S-transferases (GSTs), and genetic polymorphisms in the vitamin D receptor (VDR) are among the candidates for modifiers of cancer risk. We determined whether these biomarkers could be related to individual characteristics of patients suffering from cardiovascular diseases. For that purpose, DNA from the right atrial appendage of 41 patients who underwent open heart surgery was analyzed for smoking-related DNA adducts and polymorphisms in GSTM1, GSTT1, and VDR genes. Statistical analysis was used to identify any patient's characteristics associated with these molecular markers. Our results showed that heart tissue of cigarette smokers contained a variety of aromatic DNA adducts in significantly elevated levels compared to ex-smokers (P<0.01) or nonsmokers (P<0.001). A linear relationship was observed between DNA adduct levels and daily cigarette smoking (rs=0.73; P=0.0003). Since cardiac myocytes are terminally differentiated cells that have lost their ability to divide and seemingly have limited DNA repair capacities, their levels might accumulate with time and thereby affect heart cell function or viability. Substantial interindividual differences between DNA adduct levels were observed, and persons with severe coronary artery disease (CAD), as assessed by coronary angiography, had higher DNA adduct levels than persons with no or mild CAD (P=0.04). As polymorphisms in GST genes have been shown to modulate DNA adduct levels and risk for lung cancer in smokers, we explored for the first time whether the GST polymorphisms could also explain deviating heart DNA adduct levels and CAD risk. However, no relation could be found between these covariants. In contrast, a VDR genotype, which has been associated with decreased serum levels of the active hormonal form of vitamin D and increased risk for certain cancers, seemed to be related to severity of CAD (P=0.025). Our findings support the hypothesis that smoking-related DNA damage may be involved in the onset of cardiovascular diseases and suggest that VDR genotype may be a useful susceptibility marker of CAD.
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PMID:Putative susceptibility markers of coronary artery disease: association between VDR genotype, smoking, and aromatic DNA adduct levels in human right atrial tissue. 976 85

A combined analysis of two polymorphic enzymes, glutathione S-transferase mu (GST M1) and q (GST T1) and their implication as cancer risk factors was performed in a case-control study of lung and bladder cancers. Using a multiplex polymerase chain reaction (PCR) based method, the frequency of the homozygous deleted GSTM1 and GSTT1 genotypes was examined in 117 lung cancer patients, 67 urinary bladder cancer patients, and in a community-based sample of 248 healthy, unrelated individuals. In both cancer groups the frequency of the GSTM1 null genotype was higher in comparison with that of the control group (59% and 59.7% vs. 49.6%), but this increase did not reach statistical significance (p > 0.05). After grouping by the smoking status, among smokers in both cancer groups (62.1% in lung cancer and 71.4% in the bladder cancer group, respectively) there were statistically significantly (p < 0.05) increased frequencies of the GSTM1 deletion genotype as compared to the control group (49.6%). Smokers with absence of the GSTM1 gene were at an approximately 1.7-fold higher risk for lung cancer (odds ratio--OR = 1.67, 95% confidence interval--CI 95% = 1.0-2.7, p = 0.04) and an approximately 2.5-fold higher risk for bladder cancer (OR = 2.54, CI 95% = 1.2-5.5, p = 0.02). As related to GSTT1, our study demonstrated an overall GSTT1 effect on bladder cancer risk. Individuals with absence of the GSTT1 gene were at an approximately 2.5-fold higher risk of developing bladder cancer. In the lung cancer cases, the frequency of the putatively high risk GSTT1 null genotype was not increased as compared with controls. No effect of smoking was found on risk of lung and bladder cancer associated with the GSTT1 0/0 genotype. In combined analysis, the obtained results suggested that individuals who were both GSTM1 null and GSTT1 null may be at increased risk because they lack both enzymes. The findings suggest that the GSTM1 null genotype may be associated with susceptibility to lung and urinary bladder cancer in dependence on the exposure to carcinogens in cigarette smoke and that the GSTT1 null genotype is not a critical factor in mediating the risk of lung cancer, but may be associated with an increased susceptibility to bladder cancer.
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PMID:Genetic polymorphism of glutathione S-transferases M1 and T1 as a risk factor in lung and bladder cancers. 992 21

To clarify the host immune response and explore a new serological marker of lung cancer, we examined serum c-Myc antigens and auto-antibodies against c-Myc in 68 lung cancer patients and 30 healthy volunteers using bacterially synthesized glutathione S-transferase c-Myc fusion proteins and immunoblotting. The detection rate of anti-c-Myc antibodies was 13.2% (9/68) in lung cancer patients and 3.3% (1/30) in healthy volunteers. These anti-c-Myc antibodies were directed toward exon 2 alone (4/68), exon 3 alone (1/68), and both exon 2 and exon 3 (4/68) of c-Myc. Circulating c-Myc antigen was not detected in any individuals with lung cancer and normal controls. Age, sex, performance status, histology, stage, smoking history, and prior treatment of the patients with and without anti-c-Myc antibodies were not significantly different. The low incidence of anti-c-Myc antibodies and c-Myc antigens in peripheral blood suggests that these examinations are not useful in the serological diagnosis of lung cancer.
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PMID:Infrequent presence of anti-c-Myc antibodies and absence of c-Myc oncoprotein in sera from lung cancer patients. 994 99

The risk of lung and urinary bladder cancers was reported to be increased in individuals who carried high risk genotypes in either cytochrome P450 (CYP)1A1, CYP2E1 or glutathione S-transferase (GST)M1, and the combined genotype of both CYP1A1 and GSTM1 enzymes have an enhanced tendency of risk to lung cancer more significantly. On the other hand, gene-environmental interactions have to be considered precisely, and are indicated to be more pronounced at lower levels of cigarette exposure in which the susceptibility to lung cancer increased in the case of individuals with some mutated alleles. In each category, however, there are several confused and controversial results. These early predictions of genetic disposition for the incidence of such severe disease as cancer may prompt them to receive early examination and diagnosis and to expect a complete cure from the diseases for their life.
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PMID:Polymorphic CYP genes and disease predisposition--what have the studies shown so far? 1002 50

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

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

Carcinogen-DNA adducts may represent an intermediate end-point in the carcinogenic cascade and may reflect exposure to chemical carcinogens, as well as susceptibility and, ultimately, cancer risk. Interindividual variability in activity of enzymes involved in the metabolism of polycyclic aromatic hydrocarbons to mutagenic diol epoxides may predict adduct levels and, indirectly, lung cancer risk. Using 32P-postlabeling methods, the levels of bulky DNA adducts were determined in macroscopically normal bronchial tissues obtained from resected lobes of 143 Hungarian patients with lung malignancy and other pulmonary conditions. DNA from normal tissue was also evaluated for polymorphisms in cytochrome P450 2C9 (CYP2C9) at two sites, codons 144 (Arg/Cys) and 359 (Ile/Leu), for glutathione S-transferase P1 (GSTP1) at codon 105 and for NAD(P)H:quinone oxidoreductase (NQO1) at codon 187 (Pro/Ser). Using the Mann-Whitney U-test and analysis of variance, levels of adducts were evaluated in relation to variant genotypes, separately for smokers and non-smokers. As previously reported, bulky DNA adduct levels in smokers (n = 104) were estimated to be 54% higher than in non-smokers (n = 39) (8.6 +/- 4.2 versus 5.6 +/- 3.3 per 10(8) nucleotides, respectively, P < 0.01). Adduct levels were 16-29% higher in individuals with the homozygous Ile359/Ile359 CYP2C9 allele than in those heterozygous for the variant allele (Ile359/Leu359) [8.8 +/- 4.3 (n = 84) versus 7.6 +/- 3.5 (n = 20) for smokers and 5.8 +/- 3.5 (n = 32) versus 4.5 +/- 1.3 (n = 7) for non-smokers], although differences were not statistically significant. There were no clear differences in adduct levels in relation to genotypes of NQO1 or GSTP1. Although numbers of patients in this study are large in relation to many studies of carcinogen-DNA adducts, it is still possible that significant differences were not noted for polymorphisms in xenobiotic metabolizing enzymes due to relatively small numbers in stratified data.
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PMID:Analyses of bronchial bulky DNA adduct levels and CYP2C9, GSTP1 and NQO1 genotypes in a Hungarian study population with pulmonary diseases. 1035 78

Many investigators have reported an association between genetic polymorphisms of cytochromes P-450 CYP2E1, CYP1A1 or glutathione S-transferase Mu (GSTM1) and susceptibility to lung cancer. However, pronounced interethnic variations have been described in the frequencies of these polymorphisms, especially between Asians and Caucasians. The present study was set up to establish CYP2E1 (c1, c2 and C, D), CYP1A1 (m1, m2 and Ile, Val) and GSTM1 (null) allelic frequencies in Chileans (n = 96) who are an admixture of Native Americans and Caucasians (Spaniards). The rare allele frequencies were found to be 0.15 (c2), 0.21 (C), 0.23 (m2), 0.32 (Val) and 0.21 ('null' genotype). These values are significantly higher than those of Caucasians except for the GSTM1 'null' genotype and suggest differences in susceptibility to lung cancer between both populations.
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PMID:Ethnic susceptibility to lung cancer: differences in CYP2E1, CYP1A1 and GSTM1 genetic polymorphisms between French Caucasian and Chilean populations. 1045 58

The CYP and GST genetic polymorphisms, controlling metabolism of xenobiotics, are considered to influence an individual's susceptibility to environmental and occupational carcinogens and predisposition to cancer. In the study, the effect of the GSTM1, GSTP1, CYP1A1 and CYP2D6 polymorphisms was investigated in relation to PAH-DNA adduct levels in non-tumourous lung tissue from non-small cell lung cancer (NSCLC) patients living in the industrialized region of Upper Silesia, Poland. The level of adducts among smokers was significantly elevated when compared to non-smokers (P = 0.0005). Adduct levels correlated inversely with age of patients (P = 0.00001). The GSTP1 and CYP2D6 polymorphisms had no influence on DNA adduct levels. There was a significant relationship between high adduct levels and the combined GSTM1 (null)/CYP1A1-Ile/Val genotype in the squamous cell carcinoma group (P = 0.028). An elevated number of adducts was found in patients with the GSTM1 (null)/CYP1Al-Ile/Val genotype compared to the GSTM1 (null)/CYP1A1-Ile/Ile carriers (P = 0.043). A higher frequency of the CYP1A1-Ile/Val and GSTM1 (null)/CYP1A1-Ile/Val genotypes was observed in patients with high adduct levels (P = 0.05 and P = 0.009, respectively). A significant prevalence of the GSTM1(null)/CYP1A1-Ile/Val carriers in the adenocarcinoma group was found (P = 0.003). Thus, our findings imply that the GSTMI and CYP1A1 exon 7 polymorphisms may influence PAH-DNA adduct levels in target tissue from NSCLC patients, especially in the squamous cell carcinoma group. Moreover, individuals carrying the GSTM1(null)/CYP1A1-Ile/Val genotype might exhibit a greater predisposition to a peripheral type of lung cancer.
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PMID:GSTM1, GSTP1, CYP1A1 and CYP2D6 polymorphisms in lung cancer patients from an environmentally polluted region of Poland: correlation with lung DNA adduct levels. 1049 7


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