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)

To investigate mechanisms causing p53 mutations in lung cancer cases, relations between p53 gene mutations and aetiological factors such as smoking history or family history of cancers cases. The contribution of genotypes related to carcinogen metabolism (CYP1A1 and GSTM1) was also analysed. p53 mutations were observed in 13 cases (37.5%). Seven (53.8%) of the 13 patients with p53 mutation compared with five (22.7%) of 22 patients without had a family history of cancer. However, there was no significant relation between p53 mutation or family history of cancer and CYP1A1 or GSTM1 genotypes. In conclusion, p53 mutation might be associated with the inherited characteristics that result in familial aggregation of lung cancer; however, this association was not explained by genotypes of enzymes related to carcinogen metabolisms.
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PMID:p53 gene mutations, and CYP1A1 and GSTM1 genotypes in pulmonary squamous cell carcinomas. 923 Nov 61

The genes coding for separate isoforms of both the human glutathione S-transferase class mu and class theta enzymes (GSTM1 and GSTT1) are polymorphic with a variable ethnic distribution. These enzymes detoxify reactive epoxides, including carcinogens produced by tobacco smoke. Because of this, the null polymorphism in the GSTM1 gene (coding for the glutathione S-transferase class mu enzyme) has been studied widely as a possible source of inherited susceptibility to smoking-related lung cancer. The more recently described null polymorphism in the GSTT1 gene also could contribute to an increased risk of smoking-related lung cancer. As the incidence of lung cancer is known to differ by ethnicity, we have conducted a case-control study in the United States of 108 African-Americans (Blacks) and 60 Mexican-Americans (Hispanics) with lung cancer and 132 African-American (Black) and 146 Mexican-American (Hispanic) controls to investigate the association of the GSTT1 and GSTM1 polymorphisms with lung cancer in minority populations. In the unadjusted data, there was a borderline significant association of the GSTM1 null polymorphism with lung cancer in Mexican-Americans (odds ratio [OR] = 1.8, 95 percent confidence interval [CI] = 1.0-3.3 ) that was not observed in African-Americans. The GSTT1 null polymorphism also had a higher prevalence in cases than controls in both racial/ethnic groups, but this increase was not statistically significant. When the data were analyzed using logistic regression controlling for age, gender, race, and smoking, no significant association of either trait with lung cancer was observed, with ORs for both traits of approximately 1.3. However, when the prevalence of individuals who were null for both polymorphisms was compared by case status, a significant interaction was observed. Logistic regression models showed the OR for the association of lung cancer and the presence of both null polymorphisms compared with one (either GSTT1 or GSTM1) or no null genotype to be 2.9 (P < 0.04). These results suggest that there may be carcinogenic intermediates in cigarette smoke that are substrates for both the GSTT1 and GSTM1 enzymes, and that lung cancer risk is increased more than additively for individuals who have both GSTT1 and GSTM1 null polymorphisms.
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PMID:Polymorphisms in the glutathione S-transferase class mu and theta genes interact and increase susceptibility to lung cancer in minority populations (Texas, United States). 924 70

Increased risk of environmentally induced cancer is associated with various types of exposures and host factors, including differences in carcinogen metabolism. Since many carcinogenic compounds require metabolic activation to enable them to react with cellular macromolecules, individual features of carcinogen metabolism may play an essential role in the development of environmental cancer. In this context, cigarette smoking has often been the main type of carcinogenic exposure examined in human studies. Increasing attention has recently been paid to the dose level at which individual susceptibility may be observed. Present studies on increased risk of smoking-related lung cancer associated with phenotypic or genotypic variation of the genes encoding for CYP1A1 or CYP2D6 enzymes are summarized. Similarly, higher risks of lung or bladder cancer seen at various levels of smoking in association with polymorphism of the glutathione S-transferase gene GSTM1 or NAT1 and NAT2 genes involved in N-acetylation are reviewed. Finally, the influence of CYP2E1, GSTM1, or the combined at-risk genotype on the risk of hepatocellular carcinoma in smokers is briefly discussed.
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PMID:Interaction between dose and susceptibility to environmental cancer: a short review. 925 56

Several polymorphic genes including those encoding for glutathione S-transferases (GST) have been reported to be involved in modifying lung cancer risk in smokers. The gene GSTM1 is frequently deleted in humans and a possible association between the null genotype and lung cancer risk is controversial. Another polymorphic gene of the same supergene family, GSTT1, is also involved in the detoxification of some environmental carcinogens. Both genes were genotyped in (a) a group of lung cancer patients (n = 160); (b) a group of healthy smokers (n = 120); (c) a group of blood donors from the general population (n = 192). All patients and controls were Northwestern Mediterranean Caucasians. The results show that the GSTM1 null genotype (GSTM1*0/GSTM1*0) was slightly over represented in the lung cancer patients (frequency of 58%; OR: 1.40, 95% CI: 0.74-2.61, referred to healthy smokers). The histological type most clearly modified was small cell carcinoma (frequency of 62.2%, OR: 1.91, CI: 0.78-4.69). The subdivision of the patients with one or two copies of the GSTM1 gene according to a GSTM1*A, GSTM1*B or GSTM1*A/B genotype (frequencies of 28.2%, 11.2%, 2.5% respectively) revealed no significant differences between the cases and both control groups. The frequency of the deleted GSTT1 genotype among the lung cancer patients (24%) was not significantly increased (OR: 1.08, CI: 0.57-2.05, referred to healthy smokers). The results showed that 14.4% of the patients presented homozygous deletion of both GSTT1 and GSTM1 (12.5% among healthy smokers) suggesting no potentiation between null genotypes for lung cancer risk.
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PMID:Glutathione S-transferase M1 (GSTM1) and T1 (GSTT1) polymorphisms and lung cancer risk among Northwestern Mediterraneans. 927 26

Significant interindividual variations in health outcome may be caused by the inheritance of variant polymorphic genes, such as CYP2D6 and CYP2E1 for activation, and GSTM1 and GSTT1 for detoxification of chemicals. However, mechanistic studies linking the inheritance of predisposing genes with genotoxic effects towards cancer have yet to be systematically conducted. We have studied 54 lung cancer patients and 50 matched normal controls, who have been cigarette smokers, to elucidate the role of polymorphic genes in cancer. Our data indicates that the inheritance of unfavorable CYP2D6, CYP2E1, and GSTT1 genes in strongly correlated with the smoking-related lung cancer. For heavy cigarette smokers (> 30 pack-years), the smoking habit is the strongest predictor of lung cancer risk irrespective of the inheritance of unfavorable metabolizing genes. For moderate to light smokers (< 30 pack-years), the genetic predisposition plays an important role for the risk (odds ratio = 3.46; 95% Cl = 0.46-40.2). Using a subgroup of the study population, we observed that cigarette smokers having the defective GST genes have significantly more chromosome aberrations as determined by the fluorescence-in-situ-hybridization (FISH) technique than smokers with the normal GST genes (P < 0.001). In conclusion, our study provides data to indicate that individuals who have inherited unfavorable metabolizing genes have increased body burden of toxicants to cause increased genetic damage and to have increased risk for cancer. Studies like ours can be used to understand the basis for interindividual variations in cancer outcome, to identify high risk individuals and to assess health risk.
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PMID:Interactions between genetic predisposition and environmental toxicants for development of lung cancer. 932 44

Genotoxic effects linking cigarette smoking with lung cancer have not been consistently demonstrated, therefore claims for the cause-effect relationships are vigorously contested. Using matched populations of 22 lung cancer patients who have been cigarette smokers (LCP), 22 non-cancerous cigarette smokers (SC) and 13 non-smokers (NSC), we have applied the fluorescence in situ hybridization (FISH) tanden probe assay to elucidate the frequency of chromosome breakage among the participants. Two probes were used, a classical satellite probe which hybridizes to the large heterochromatin region of chromosome 1, and an alpha-satellite probe which targets a small region adjacent to the heterochromatin probe. The highest frequency of structural aberrations was observed in LCP (1.4 +/- 0.1) followed by SC (1.25 +/- 0.1) and NSC (0.4 +/- 0.1). Aberration frequencies were not significantly different between LCP and SC (p > 0.05), however, a statistically significant difference was detected between the smoker populations combined (LCP and SC) and the NSC (p < 0.001). The breakage frequencies showed a positive correlation with duration of smoking for LCP (r = 0.5; p < 0.01), but not for SC (P > 0.05). In addition, the aberration frequencies were influences by the inheritance of polymorphic glutathione S-transferase (GST) genes. LCPs missing one or the other GST (GSTM1 or GSTT1) genes were found to have significantly higher chromosome breaks compared to LCPs with both genes present (p < 0.05). Our data indicate that genetic predisposition and chromosome aberrations may be mechanistically related to the initiation of lung carcinogenesis; therefore, they may be useful biomarkers for lung cancer among cigarette smokers.
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PMID:Predisposing genes and increased chromosome aberrations in lung cancer cigarette smokers. 933 Jun 22

Susceptibility to lung cancer has been shown to be modulated by host specific factors. Inheritance of different polymorphic cytochrome P450s (CYPs) and the glutathione S-transferases (GSTs) which affect metabolism of environmental toxicants may play a key role in individual susceptibility. Although individual polymorphic genes have been reported to be associated with development of lung cancer, little is known about the combined effects of several genes in carcinogenesis. From our study of 54 lung cancer patients and 50 matched controls, we observed that a combination of several versions of 'unfavorable' metabolizing genes (CYP2D6, CYP2E1, GSTM1 and GSTT1) is strongly associated with lung cancer. The relative risk for the different combinations of these genotypes ranged between 1.3 and 14, with higher risk involving the activating genes. The duration and intensity of heavy smoking (expressed in pack-years) are the most important determinant for the development of lung cancer. For example, the estimated risk for development of lung cancer associated with smoking > 30 pack-years is represented by an odds ratio = 6.65; 95% CL = 2.3-19.9 irrespective of an individual's genotype, whereas for smoking between > 30 and < 50 pack years, odds ratio = 4.5; 95% CL = 1.37-15; and for smoking > 50 pack-years, odds ratio = 30; 95% CL = 5.7-114. On the other hand, smoking of less than 30 pack-years is associated with an increased risk in the presence of the polymorphic genes (odds ratio = 2.5; 95% CL = 0.32-54). The results of our study indicate that the inheritance of multiple 'unfavorable' genotypes, especially activating genes, is a crucial predisposing factor for the development of lung cancer from cigarette smoking. In addition, the genes may cause moderate smokers who would normally outlive the deleterious effects of smoking to develop lung cancer. The information can therefore be used to target individuals for prevention of health problems.
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PMID:Combined genetic polymorphism and risk for development of lung cancer. 943 75

Relationships between smoking status and levels of bulky DNA adducts were investigated in bronchial tissue of lung patients in relation to their GSTM1 and CYP1A1 MspI genotypes. A total of 150 Hungarian patients undergoing pulmonary surgery were included in the study, 124 with lung malignancies and 26 with non-malignant lung conditions. There were significant relationships between smoking status and bulky DNA adduct levels, as determined by 32P-post-labelling analysis, in macroscopically normal bronchial tissues. There was a highly significant difference in the adduct levels of a combined group consisting of current smokers and short-term ex-smokers (< or = 1 year abstinence) compared with life-time non-smokers and long-term ex-smokers (> 1 year abstinence) (P = 0.0001). The apparent half-life was estimated to be 1.7 years for bulky DNA adducts in the bronchial tissue from ex-smokers. There were no statistically significant correlations between (i) daily cigarette dose and DNA adduct levels in current smokers, (ii) DNA adduct level and histological type of lung cancer, or (iii) GSTM1 and CYP1A1 MspI genotypes and DNA adduct levels after adjustment for either smoking status or malignancy. By multiple logistic regression analysis, smoking and GSTM1 null genotype were found to be risk factors for squamous cell carcinoma. However, bulky DNA adduct levels in bronchial tissue did not appear to be a statistically-significant risk factor for the major histological types of lung cancer.
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PMID:Smoking-associated bulky DNA adducts in bronchial tissue related to CYP1A1 MspI and GSTM1 genotypes in lung patients. 963 72

Industrialized regions in Poland are characterized by high ambient pollution, including polycyclic aromatic hydrocarbons (PAHs) from coal burning for industry and home heating. In experimental bioassays, certain PAHs are transplacental carcinogens and developmental toxicants. Biologic markers can facilitate evaluation of effects of environmental PAHs on the developing infant. We measured the amount of PAHs bound to DNA (PAH-DNA adducts) in maternal and umbilical white blood cells. The cohort consisted of 70 mothers and newborns from Krakow, Poland, an industrialized city with elevated air pollution. Modulation of adduct levels by genotypes previously linked to risk of lung cancer, specifically glutathione S-transferase MI (GSTM1) and cytochrome P4501A1 (CYP1A1) Msp restriction fragment length polymorphism (RFLP), was also investigated. There was a dose-related increase in maternal and newborn adduct levels with ambient pollution at the women's place of residence among subjects who were not employed away from home (p < or = 0.05). Maternal smoking (active and passive) significantly increased maternal (p < or = 0.01) but not newborn adduct levels. Neither CYP1A1 Msp nor GSTM1 polymorphisms was associated with maternal adducts. However, adducts were significantly higher in newborns heterozygous or homozygous for the CYP1A1 Msp RFLP compared to newborns without the RFLP (p = 0.04). Results indicate that PAH-induced DNA damage in mothers and newborns is increased by ambient air pollution. In the fetus, this damage appears to be enhanced by the CYP1A1 Mspl polymorphism.
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PMID:Relationship between ambient air pollution and DNA damage in Polish mothers and newborns. 964 44

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


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