Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

Glutathione levels were measured in 30 human lung cancer lines. Lower levels were detected in cell lines derived from small cell lung cancer specimens compared to non-small cell lines (mean 42 vs. 130 nmol mg-1 protein, P = 0.005). However, no difference were detected between cell lines derived from previously untreated patients, compared to those derived from patients who had received chemotherapy. Non-small cell lines were found to have increased activity of 4 detoxification enzymes compared to small cell lines, although these differences did not reach statistical significance: glutathione transferase activity (69 vs. 36 units, P = 0.137), glutathione reductase (139 vs. 82 units, P = 0.05), gamma-glutamyl transpeptidase (9.39 vs. 3.03 units, P = 0.072) and superoxide dismutase (20 vs. 13.6 units, P = 0.137). As the cell lines exhibit a similar chemosensitivity pattern to that observed in clinical practice, these differences in glutathione and detoxification enzyme levels may prove to be important indicators of intrinsic drug resistance often seen in patients with non-small cell lung cancer.
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PMID:Glutathione and related enzyme activity in human lung cancer cell lines. 290 63

Glutathione (GSH)-depletion by buthionine sulphoximine (BSO) altered both the aerobic and anaerobic radiation response of A549 human lung cancer cells grown in vitro. The oxygen enhancement ratio (o.e.r) was increased slightly from 3.0-3.3. The lack of an effect of GSH-depletion on o.e.r. reduction, provides a system whereby the mechanism of action of the thiol reactive reagent diethylmaleate (DEM) can be investigated. Pretreatment of cells with DEM, under non-toxic concentrations, removed 13 per cent of the intracellular NPSH and resulted in an o.e.r. of 2. When BSO followed by DEM was used, so that both GSH and NPSH were reduced to zero, an o.e.r. of 1.5 was obtained. Cells treated with 1 mM BSO for 24 hours contained 10 per cent NPSH and no GSH. When these cells were exposed to 0.5 or 1 mM DEM briefly, during irradiation, the o.e.r. was 2.4 and 1.7 respectively. In some cases altered o.e.r.s occurred in combination with increased aerobic responses. This was especially true for aerobic irradiations of BSO-treated cells in the presence or absence of DEM. However, the increased aerobic response was offset by a more dramatic increase in the hypoxic response. These results indicate (a) that GSH plays a significant role in aerobic radiation response but is not a principal factor in o.e.r.-reduction, and (b) that reduction of the o.e.r. by DEM is not due primarily to GSH-removal. The preferential radiosensitization of hypoxic cells by DEM may involve reactions of this compound with NPSH or protein SH, or may be related to the ability of DEM to mimic oxygen as a hypoxic cell radiosensitizer.
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PMID:Nonprotein thiols and the radiation response of A549 human lung carcinoma cells. 660 51

Pulmonary diseases attributable to asbestos exposure constitute a significant public health burden, yet few studies have investigated potential genetic determinants of susceptibility to asbestos-related diseases. The glutathione-S-transferases are a family of conjugating enzymes that both catalyze the detoxification of a variety of potentially cytotoxic electrophilic agents and act in the generation of sulfadipeptide leukotriene inflammatory mediators. The gene encoding glutathione-S-transferase class mu (GSTM-1) is polymorphic; approximately 50% of Caucasian individuals have a homozygous deletion of this gene and do not produce functional enzyme. Glutathione-S-transferase mu (GST-mu) deficiency has been previously reported to be associated with smoking-induced lung cancer. We conducted a cross-sectional study to examine the prevalence of the homozygous deletion for the GSTM-1 gene in members of the carpentry trade occupationally exposed to asbestos. Members of the United Brotherhood of Carpenters and Joiners of America attending their 1991 National Union conference were invited to participate. Each participant was offered a chest X-ray and was asked to complete a comprehensive questionnaire and have their blood drawn. All radiographs were assessed for the presence of pneumoconiosis in a blinded fashion by a National Institute for Occupational Safety and Health-certified International Labor Office "B" reader. Individual GSTM-1 status was determined using polymerase chain reaction methods. Six hundred fifty-eight workers were studied. Of these, 80 (12.2%) had X-ray abnormalities associated with asbestos exposure. Individuals genetically deficient in GST-mu were significantly more likely to have radiographic evidence of nonmalignant asbestos-related disease than those who were not deficient (chi 2 = 5.0; P < 0.03).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inherited glutathione-S-transferase deficiency is a risk factor for pulmonary asbestosis. 800 Feb 97

In the case of lung cancer induced by chemical carcinogens, cellular processes of metabolic activation and deactivation of these substances play a particular role. The involvement of glutathione--S-transferase in the process of deactivation of active metabolites draws special attention. Cellular activity of these enzymes is a significant factor which can define individual susceptibility to carcinogenic effect of occupational and environmental carcinogens. Glutathione--S-transferase catalyses the reaction of binding glutathione with a great number of pharmacologically active substances, including also those with genotoxic properties. These reactions protect cells against toxic and genotoxic effect of exo- and endogenous substances. They prevent among others, from producing adducts by genotoxic substances with macromolecules. Some of glutathione--S-transferases (the so-called ligands) act as proteins which bind and transport organic ligands in cells (bilirubin, steroid metabolites, bile acids). To date studies have not confirmed uni-vocally that low activity of glutathione--S-transferases be one of the reasons for an increased incidence of lung cancer. Observations of persons with phenotype of a low activity of glutathione--S-transferase (GSTM1-0) have indicated that the incidence of lung cancer is significantly higher among them than in persons with phenotype of normal activity of this enzyme. These observations, however, have not been confirmed by an analysis of relationship between the incidence of lung cancer and the genotype of low and normal activity of glutathione--S-transferase.
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PMID:[Glutathione S-transferase as a metabolic biomarker for predisposition to lung neoplasms induced by chemical carcinogens]. 855 56

Glutathione (GSH) is one of the key components of the lung antioxidant defenses. Chronic smokers have higher GSH concentrations in their epithelial lining fluid than do nonsmokers. The aim of this study was to compare antioxidant concentrations in epithelial lining fluid (ELF) from nonsmokers, smokers with, and smokers without non-small-cell lung cancer. The study found that GSH in ELF from patients with lung cancer was significantly greater than in ELF from smokers and nonsmokers, at 1,485.5 +/- 208, 544 +/- 97.6 microM, and 339.3 +/- 112 microM, respectively (p < 0.05). In contrast, superoxide dismutase (SOD) was lower in ELF from patients with lung cancer than in that from smokers and nonsmokers, at 3.52 +/- 0.99, 30.82 +/- 8.2, and 43.91 +/- 10.1 U/ml, respectively (p < 0.05). Spontaneous superoxide anion release by adherent alveolar macrophages (AM) showed no difference between smokers with and without lung cancer. These data indicate that patients with lung cancer have marked modifications in their ELF antioxidant defenses by comparison with those of smokers. It is difficult to distinguish whether changed antioxidant status is a primary disturbance involved in the cancer process or whether it is a consequence of the neoplastic changes in malignancy.
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PMID:Antioxidant activity in bronchoalveolar lavage fluid from patients with lung cancer. 897 Mar 59

Glutathione S-transferases (GSTs) of female A/J mouse lung have been purified and characterized for their (a) structural interrelationships, (b) substrate specificities toward the ultimate carcinogenic metabolite of benzo(a)pyrene (BP), (+)-anti-7 beta, 8 alpha-dihydroxy-9 alpha, 10 alpha-oxy-7,8,9,10-tetrahydrobenzo(a)pyrene [(+)-anti-BPDE], and (c) induction by three naturally occurring organosulfides (OSCs)-from garlic [diallyl sulfide (DAS), diallyl trisulfide (DATS) and dipropyl sulfide (DPS)], which significantly differ in their efficacy against BP-induced lung cancer in mice. The GST activity in the lung was due to two alpha class (pI 9.4 and 6.0), two mu class (pI 8.7 and 8.6), and one pi class (pI 8.9) isoenzyme. The GST isoenzyme profile of the lung was different from that of the A/J mouse forestomach, which also is a target organ for BP-induced cancer in mice. Noticeably, an alpha class heterodimeric isoenzyme (pI 9.5) present in the forestomach of A/J mouse, which is exceptionally efficient in the glutathione (GSH) conjugation of (+)-anti-BPDE [X. Hu, S.K. Srivastava, H. Xia, Y. C. Awasthi, and S. V. Singh (1996) J. Biol. Chem. 271, 32684-32688], could not be detected in the lung. The specific activities of the lung GSTs in the GSH conjugation of (+)-anti-BPDE were in the order of GST 8.9 > GST 8.7 > GST 9.4 > GST 6.0. While DPS treatment did not increase the levels of any pulmonary GST isoenzyme, the expression of pi class GST 8.9 was significantly increased in response to both DAS and DATS administrations. Interestingly, DATS, an OSC which lacks activity against BP-induced lung cancer in mice, was a relatively more potent inducer of pi class GST isoenzyme than DAS, which is a potent inhibitor of BP-induced lung tumorigenesis. The results of the present study suggest that a mechanism(s) other than GST induction is likely to be responsible for the differential effects of DAS and DATS on BP-induced lung cancer in mice. Our results also suggest that relatively lower efficacies of the OSCs against BP-induced lung cancer than against forestomach neoplasia may be attributed to (a) a lack of expression in the lung of an isoenzyme corresponding to forestomach GST 9.5 and (b) a comparatively lower level of induction of pi type GST in the lung than in the forestomach by these OSCs.
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PMID:Glutathione S-transferases of female A/J mouse lung and their induction by anticarcinogenic organosulfides from garlic. 914 32

We evaluated the effects of a panel of glutathione derivative (S-butyl, S-decyl, S-ethyl, S-heptyl, S-hexyl; S-methyl, S-nonyl, S-octyl, S-propyl and S-pentyl glutathiones) on glutathione-S-transferase activity in the cell lysates of a human lung cancer, PC-9. Glutathione derivatives inhibited glutathione-S-transferase activity in PC-9 cell lysates by up to 67%. When PC-9 cells were incubated with the IC50 concentration of adriamycin (200 nM) and with nontoxic concentrations (1 microM) of the glutathione derivatives, cytotoxicity ranged from -20% to +55% of the control levels. Enhancement of adriamycin toxicity by glutathione derivatives was significantly correlated with the inhibition of glutathione-S-transferase activity. S-decyl-glutathione, which was one of the most potent inhibitors of glutathione-S-transferase activity, significantly enhanced the adriamycin-induced antitumor effect in vivo. Findings suggest that some glutathione derivatives, including the S-decyl, S-octyl, and S-hexyl glutathiones, enhance adriamycin-induced cytotoxicity in part by inhibiting glutathione-S-transferase and that these agents may be useful as chemosensitizers for adriamycin therapy. In conclusion, the present results showed that some glutathione derivatives enhanced sensitivity of tumor cells to ADR by inhibiting GST activity. The use of BSO and EA as sensitizers to chemotherapy is currently being evaluated in clinical trials. The present data suggest that the use of GSH derivatives to modulate GST activity may improve the response to ADR.
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PMID:Glutathione derivatives enhance adriamycin cytotoxicity in a human lung adenocarcinoma cell line. 921 76

Glutathione S-transferases (GSTs) are known to take part in detoxification of many potentially carcinogenic compounds. Therefore, polymorphisms of the GST genes have been considered as potentially important modifiers of individual risk of environmentally induced cancers. The association between lack of glutathione S-transferase M1 gene (GSTM1 null genotype) and susceptibility to smoking-related lung cancer has been actively studied, with contradictory results. In contrast, little is known about the more recently found polymorphisms in GSTM3, GSTP1 and GSTT1 genes with respect to individual responses to environmental exposures. In this study, we determined the genotype distribution of all these genes, and their combinations, among 208 Finnish lung cancer patients and 294 population controls. None of the genotypes studied had a statistically significant effect on lung cancer risk, when studied separately. However, a significant association was observed for concurrent lack of the GSTM1 and GSTT1 genes and susceptibility to squamous cell carcinoma. For that cell type, the risk was more than 2-fold when compared with that of individuals having other genotype combinations (OR = 2.3; 95% CI = 1.0-5.3; p = 0.05). Moreover, the risk was mostly attributable to patients with smoking history of 40 pack-years or less (OR = 2.9; 95% CI = 1.1-7.7; p = 0.03). In contrast, this genotype combination did not affect the risk for other histological types of lung cancer, and the other genotype combinations had no effects on individual susceptibility to this malignancy. The overall role of GST polymorphisms in modifying the lung cancer risk may therefore be more limited than has been so far anticipated.
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PMID:Combined effect of polymorphic GST genes on individual susceptibility to lung cancer. 967 51

Glutathione S-transferases GSTM1, GSTM3, GSTP1 and GSTT1 are involved in the detoxification of active metabolites of several carcinogens in tobacco smoke. We studied the potential role of GSTM3 and GSTP1 gene polymorphisms either separately, or in combination with GSTM1 and GSTT1 gene polymorphisms, in susceptibility to lung cancer using peripheral blood DNA from 150 lung cancer patients and 172 control individuals, all regular smokers. The frequencies of GSTM3, AA, AB and BB genotypes were 70.7%, 24.0% and 5.3% in cases and 72.7%, 24.4% and 2.9% in control individuals respectively. The frequencies of GSTP1, AA, AG and GG genotypes were 44.7%, 44.0% and 11.3% in cases and 50.0%, 37.2% and 12.8% in control individuals respectively. When studied separately, neither GSTM3 nor GSTP1 genotypes contributed significantly to the risk of lung cancer. Although failing to reach statistical significance, the combined GSTM3 AA and GSTP1 (AG or GG) genotype conferred a nearly threefold risk when the GSTM1 gene was concurrently lacking (odds ratio 2.9, 95% confidence interval 0.7-12.1). Significant interactions were observed between pack-years of smoking and the combined GSTM3 AA and GSTP1 (AG or GG) genotype, or the combined GSTM3 AA, GSTP1 (AG or GG) and GSTM1 null genotype. The combination of these three a priori at risk genotypes conferred an increased risk of lung cancer among smokers with a history of at least 35 pack-years (odds ratio 2.7, 95% confidence interval 1.2-6.0), but not in lighter smokers, probable because of the lower average number of pack-years of smoking found among control individuals with this genotype combination.
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PMID:Role of glutathione S-transferase GSTM1, GSTM3, GSTP1 and GSTT1 genotypes in modulating susceptibility to smoking-related lung cancer. 991 33

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


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