Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0006142 (breast cancer)
 160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The isolation of full-length cDNAs of naturally occurring GSTP1 gene variants, and the demonstration that these alleles are distributed in the normal population, have provided conclusive evidence that the human GSTP1 gene locus is polymorphic and that specific GSTP1 alleles may be associated with different risk for cancers or other diseases. Recent data have indicated that the different GSTP1 alleles encode proteins with different enzymatic activities against carcinogens. In this case-control study, we examined the effect of the GSTP1 genetic polymorphism and its interaction with other factors to determine breast cancer risk. GSTP1 and GSTM1 genotypes of 220 breast cancer patients and 196 controls, all residents of western France, were examined. Data on menopausal status and family cancer history were obtained from 195 patients and 147 controls. Exons 5 and 6 of the GSTP1 gene, which contain the polymorphic nucleotide transitions, were analyzed by DNA polymerase chain reaction-restriction fragment length polymorphism to distinguish between the GSTP1 alleles. In the control population, GSTP1 allelic frequencies were 64.3%, 26.0% and 9.7%, respectively, for GSTP1*A, GSTP1*B and GSTP1*C. In the breast cancer patients, the frequencies were 67.9% for GSTP1*A, 26.8% for GSTP1*B and 5.3% for GSTP1*C. In multivariate analysis, breast cancer risk increased by 7.7-fold (p < 0.001) in women with a family history of cancers and 2.18-fold (p = 0.026) in non-GSTP1*C individuals. GSTM1 genotypes did not emerge as risk factor. Our results show that in addition to well-known risk factors, in particular, a family history of cancer, GSTP1 allelopolymorphism is a significant modifier of breast cancer risk. The results also suggest a protective role against breast cancer for the GSTP1*C allele.
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PMID:Genetic polymorphism at the glutathione S-transferase (GST) P1 locus is a breast cancer risk modifier. 1116 56

Breast cancer is the most frequent malignancy among women. Since genetic factors such as BRCA1 and BRCA2 as well as reproductive history constitute only 30% of the cause, environmental exposure may play a significant role in the development of breast cancer. Likewise, the relevant enzymes involved in the biotransformation of xenobiotics (from tobacco smoke, diet or other environmental sources) might play a role in breast carcinogenesis. Since individuals with modified ability to metabolize these carcinogens could have a different risk for breast cancer, we investigated the role of cytochromes P-450 (CYP1A1, CYP2D6), glutathione-S-transferases (GSTM1, GSTT1, GSTP1) and N-acetyltransferases (NAT1, NAT2) gene variants in breast carcinogenesis. A case-control study was conducted on 149 women with breast carcinoma and 207 healthy controls, both of French-Canadian origin. The CYP1A1*4 allele was found to be a significant risk determinant of breast carcinoma (OR = 3.3, 95% CI 1.1-9.7), particularly among post-menopausal women (OR = 4.0, 95% CI 1.2-13.8). The frequency of NAT2 rapid acetylators was increased among smokers (OR = 2.6, 95% CI 0.8-8.2), while the NAT1*10 allele conferred a 4-fold increase in risk among women who consumed well-done meat (OR = 4.4, 95% CI 1.0-18.9). These data suggest that CYP1A1*4, NAT1 and NAT2 variants are involved in the susceptibility to breast carcinoma by modifying the impact of exogenous and/or endogenous exposures.
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PMID:Genetic susceptibility to breast cancer in French-Canadians: role of carcinogen-metabolizing enzymes and gene-environment interactions. 1129 Oct 49

This study was undertaken to examine if glutathione S-transferase (GST) M1, M3, P1, and T1 genotypes affected breast cancer risk in Finnish women. The study population consisted of 483 incident breast cancer cases and 482 healthy population controls. Genotyping analyses were performed by PCR-based methods, and odds ratios (ORs) and 95% confidence intervals (CIs) were calculated by unconditional logistic regression adjusting for known or suspected risk factors for breast cancer. When the genes were studied separately, the only significant finding was between GSTM1 null genotype and postmenopausal breast cancer risk (OR, 1.49; 95% CI, 1.03-2.15). Conversely, when the potential combined effects of the at-risk genotypes were examined, significant associations were observed only among premenopausal women. Although only a moderate risk of breast cancer was seen for premenopausal women concurrently carrying the GSTM3*B allele containing genotypes and the GSTP1 Ile/ Ile genotype (OR, 2.07; 95% CI, 1.02-4.18), the risk rose steeply if they simultaneously lacked the GSTT1 gene (OR, 9.93, 95% CI, 1.10-90.0). A borderline significant increase in the risk of breast cancer was also seen for premenopausal women with the combination of GSTM1 null, GSTP1 Ile/Ile, and GSTT1 null genotypes (OR, 3.96; 95% CI, 0.99-15.8). Our findings support the view that GST genotypes contribute to the individual breast cancer risk, especially in certain combinations.
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PMID:Glutathione S-transferase M1, M3, P1, and T1 genetic polymorphisms and susceptibility to breast cancer. 1130 92

In order to detect the contribution of cytochrome P450 1A1 (CYP1A1), aryl hydrocarbon receptor (AhR), glutathione S-transferases M1 (GSTM1), P1 (GSTP1), and T1 (GSTT1) genes in breast cancer, genetic analysis was performed, as well as transcriptional analysis in sporadic primary tumours and corresponding adjacent normal tissues from the same patient. CYP1A1 3'-untranslated region (3'-UTR) termed as m1 (MspI) polymorphism and the null(-) deletions of both GSTM1 and GSTT1 genes were examined in genomic DNA from blood samples of 207 female breast cancer patients and 171 age and sex matched controls. The frequencies of the m1 genotype of the CYP1A1 gene in cases and controls were 0.13 and 0.15, while the frequencies of homozygotes with GSTM1(-) were 0.52, in each, and for homozygotes with GSTT1(-) were 0.14 and 0.10, respectively. Statistical analysis of these genotypes in combinations did not reveal any significant difference between the breast cancer population and the control group. Expression of mRNA levels of CYP1A1, GSTM1, GSTP1, GSTT1 and AhR genes in 31 breast cancer patients, revealed inter-individual variation in an independent manner to patient age, genotype, or tumour stage. Eighty-seven percent of the tumour specimens tested were deregulated, compared to their normal counterparts, in at least one locus. Up-regulation of CYP1A1 was observed only when one of the GSTM1 or GSTP1 was down-regulated while the other remained constant. Genotyping analysis did not show any correlation to breast cancer risk. However, RT-PCR analysis provided evidence that CYP1A1, AhR, GSTM1, GSTP1 and GSTT1 genes are frequently deregulated in breast cancer and could be used as molecular biomarkers for better clinical management of such patients, with respect to chemotherapy.
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PMID:Genetic polymorphisms and transcriptional pattern analysis of CYP1A1, AhR, GSTM1, GSTP1 and GSTT1 genes in breast cancer. 1140 54

The glutathione S-transferase (GST) genes are involved in the metabolism of various carcinogens. Deletion polymorphisms in the GSTM1 and GSTT1 genes and an A-G polymorphism in the GSTP1 gene were investigated in relation to breast cancer risk in 500 breast cancer patients and 395 controls. The effects of the GST genotypes on the frequency and pattern of p53 mutations in 388 breast carcinomas were also studied. A suggestive trend of increasing risk of breast cancer with increasing number of G alleles of the GSTP1 was observed (P for trend, 0.11). The GSTM1 and GSTT1 polymorphisms did not show an association with breast cancer. No increase in risk was observed with a combination of genotypes. A statistically significant association was observed between the GSTT1 genotype and p53 mutation status of the tumors, with patients carrying the GSTT1 null genotype more frequently having mutations in the p53 gene compared with patients with a GSTT1 gene present (24.6% versus 12.4%; P = 0.019). There was also a suggestive trend for the GG genotype of the GSTP1 gene, but it was not statistically significant (P = 0.19). No association was observed with the type or location of mutations. We conclude that the GSTP1 and GSTT1 genes could play a role in carcinogenesis in the breast, possibly through increased frequency of mutations in tumor suppressor genes such as p53.
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PMID:GSTM1, GSTT1, and GSTP1 genotypes in relation to breast cancer risk and frequency of mutations in the p53 gene. 1170 Feb 65

Our previous studies suggested that both COMT and GST genotypes might modify individual breast cancer risk. Here, we extended the studies to examine the potential combined effect of these genotypes in susceptibility to breast cancer. Our study population consisted of 483 Finnish breast cancer cases and 482 population control subjects. The odds ratios (ORs) and (95%) confidence intervals (CIs) were calculated by unconditional logistic regression adjusting for known or suspected confounding factors. No significant increase in the overall breast cancer risk was seen for any combinations of the studied genotypes. However, a substantially increased risk of breast cancer was seen for women who had used hormone replacement therapy (HRT) and simultaneously carried the COMT-L allele containing genotypes and either the GSTP1 Ile/Ile genotype (OR 4.10, 95% CI 1.24-13.6) or the GSTT1 null genotype (OR 4.19, 95% CI 1.30-13.5). These associations appeared to be mainly attributable to long-term users of HRT; the respective ORs were 7.00 (95% CI 1.21-40.6) and 8.36 (95% CI 1.44-49.0) among the users of HRT of more than 30 months. In addition, the combination of COMT-L allele containing genotypes with the GSTM1 null genotype posed a remarkably increased risk (OR 9.10, 95% CI 1.84-45.0) of breast cancer in this study group. These results suggest that the use of HRT could substantially increase the risk of breast cancer among women with specific combinations of the at-risk genotypes of COMT and GST genes.
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PMID:Combined COMT and GST genotypes and hormone replacement therapy associated breast cancer risk. 1177 66

Somatic genetic alterations in tumors are known to correlate with survival, but little is known about the prognostic significance of germ-line variation. We assessed the effect of germ-line variation on survival among women with breast cancer participating in a British population-based study. Up to 2430 cases for whom current vital status data were available were screened for BRCA1/2 mutations and genotyped for polymorphisms in 22 DNA repair, hormone metabolism, carcinogen metabolism, and other genes. The effect of genotype on outcome was assessed by Cox regression analysis. The largest effect was observed for the silent polymorphism D501D (t>c) in LIG4, a gene involved in DNA double-strand break repair. The estimated hazard ratio (HR) in cc homozygotes relative to tt homozygotes was 4.0 (95% confidence interval, 2.1-7.7; P = 0.002), and this effect remained after stratification by stage, grade, and tumor type [HR, 4.2 (1.8-9.4); P = 0.01]. Total length of a CYP19 IVS4 (ttta)(n) repeat was also associated with survival [HR, 0.9 (0.8-1.0); P = 0.01], but this became nonsignificant after stratification by stage, grade, and tumor type. Poorer survival was observed for 10 BRCA1 mutation carriers [HR, 4.1 (1.3-13); P = 0.047]; however, after adjustment for known prognostic factors, the HR estimate decreased to 2.0 and became nonsignificant (P = 0.4). CYP17 (P = 0.05) and TP53 (P = 0.06) polymorphisms showed marginally significant associations in unstratified analyses. No effect on survival was seen for polymorphisms in ATM, BRCA1/2, CHK2, KU70, NBS1, RAD51, RAD52, XRCC3, AR, COMT, NQO1, VDR, ADH3, CYP1A1, GSTP1, TGF-beta, or CDH1. Even if confirmed, the prognostic markers identified in this study are unlikely to replace current markers of prognosis such as estrogen receptor status. However, our results demonstrate the potential of the analysis of germ-line variation to provide insight into the biological determinants of response to treatment and prognosis in breast cancer.
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PMID:Effect of germ-line genetic variation on breast cancer survival in a population-based study. 1203 13

Glutathione S-transferase (GST) enzymes detoxify chemotherapeutic drugs, and several studies have reported differences in survival for cancer patients who have variant genotypes for GSTP1, GSTM1 or GSTT1 enzymes. A recently described polymorphism alters hepatic expression of GSTA1, a GST with high activity in glutathione conjugation of metabolites of cyclophosphamide (CP). To consider the possible influence of the reduced-expression GSTA1*B allele on cancer patient survival, we have conducted a pilot study of breast cancer patients treated with CP-containing combination chemotherapy. GSTA1 genotype was determined by polymerase chain reaction and restriction fragment length polymorphism. Kaplan-Meier methods and Cox proportional hazards models were used to evaluate survival in relation to genotype. Among 245 subjects, 35% were GSTA1*A/*A, 49% GSTA1*A/*B and 16% GSTA1*B/*B; the genotype distribution did not differ by ethnic group, age or stage at diagnosis. Among patients who had 0 or 1 GSTA1*B allele, the proportion surviving at 5 years was 0.66 (95% CI = 0.59-0.72), whereas for GSTA1*B/*B subjects the proportion was higher, 0.86 (95% CI = 0.67-0.95). Significantly reduced hazard of death was observed for GSTA1*B/*B subjects during the first 5 years after diagnosis, hazard ratio (HR) = 0.3, 95% CI = 0.1-0.8. The association varied with time, with no survival difference observed for subjects who survived beyond 5 years. These results, although based on a small study population, describe an apparent difference in survival after treatment for breast cancer according to GSTA1 genotype. Further studies should consider the possible association between the novel GSTA1*B variant and outcomes of cancer therapy.
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PMID:Association between a glutathione S-transferase A1 promoter polymorphism and survival after breast cancer treatment. 1251 3

GSTP1, encoding the pi-class glutathione S-transferase, is commonly inactivated by somatic CpGisland hypermethylation in cancers of the prostate, liver, and breast. We report here thathypermethylation of CpG dinucleotides at the 5' transcriptional regulatory region was sufficient to inhibit GSTP1 transcription in MCF-7 breast cancer cells and that repression of GSTP1 transcription was mediated in part by the methyl-CpG-binding domain (MBD) protein MBD2. MCF-7 breast cancer cells contained only hypermethylated GSTP1 CpG island alleles and failed to express GSTP1 mRNA or GSTP1 polypeptides. In contrast, MCF-7/ADR cells contained only unmethylated GSTP1 CpG island alleles and exhibited abundant GSTP1 expression. Chromatin immunoprecipitation analysis detected the presence of MBD2 and DNMT1 at the GSTP1 promoter in MCF-7 breast cancer cells but not in MCF-7/ADR breast cancer cells. In a test of the contribution of MBD2 to GSTP1 repression in MCF-7 breast cancer cells, transfection of small interference RNA complementary to MBD2 mRNA into MCF-7 cells both reduced MBD2 polypeptide levels and stimulated GSTP1 mRNA expression. These findings implicate MBD2 in GSTP1 silencing associated with somatic GSTP1 CpG island hypermethylation in breast cancer cells.
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PMID:Methyl-CpG-binding domain protein-2 mediates transcriptional repression associated with hypermethylated GSTP1 CpG islands in MCF-7 breast cancer cells. 1254 8

Brassica vegetable consumption (e.g., Chinese cabbage) provides isothiocyanates (ITC) and other glucosinolate derivatives capable of inducing Phase II enzymes [e.g., glutathione S-transferases (GSTM1, GSTT1, and GSTP1) and NADPH quinine oxidoreductase] and apoptosis, altering steroid hormone metabolism, regulating estrogen receptor response, and stabilizing cellular proliferation. Asian populations consuming large amounts of Brassica have a lower breast cancer incidence compared with Western populations; however, the association between Brassica consumption and breast cancer risk is uncertain. It is difficult to estimate glucosinolate exposure and degradation in humans, possibly limiting epidemiological investigations of Brassica and cancer associations. We conducted a case control investigation of breast cancer in Shanghai, China, using urinary ITC levels as a biological measure of glucosinolate intake and degradation in populations with habitual Brassica intake. A representative subgroup of 337 cases providing presurgery, fasting, and first-morning urine specimens was one-to-one matched (age, menopausal status, date of urine collection, and day of laboratory assay) to population controls. Urinary ITC levels were inversely associated with breast cancer [odds ratio (OR) (Quartile 1) = 1 (ref); OR(Q2) = 0.9, 95% confidence interval (0.6, 1.4); OR(Q3) = 0.7, (0.5, 1.1); OR(Q4) = 0.5, (0.3, 0.8), adjusted for age, menopausal status, soy protein, fibroadenoma history, family breast cancer, physical activity, waist-to-hip ratio, body mass index, age at menarche, and parity in conditional logistic model]. This protective association persisted within post and premenopausal women. In contrast, total Brassica intake estimated from a food frequency questionnaire was not associated with breast cancer. Trends in the association between urinary ITC and breast cancer were more consistent with homozygous deletion of GSTM1 or GSTT1, the AAgenotype of GSTP1 (A313G), or with the C allele of NADPH quinine oxidoreductase (C609T), although interactions were not statistically significant. In conclusion, greater Brassica vegetable consumption, as measured by the urinary ITC biomarker, was associated with significantly reduced breast cancer risk among Chinese women.
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PMID:Urinary isothiocyanate levels, brassica, and human breast cancer. 1287 94


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