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)

The incidence rate of testicular cancer has been steadily increasing during the last 50 years, and only cryptorchidism, i.e. undescended testes, has been identified as an important risk factor. An interplay between changing environmental factors and genetic susceptibility e.g. in foreign compound metabolizing enzymes, may have important influences on the risk. The aim of this study was to investigate if glutathione S-transferase mu (GST mu) deficiency, which in previous studies has been associated with malignant melanoma and cancers of the lung and bladder, is a risk factor of testicular cancer. Three hundred and seventy-eight men participated (80 seminomas, 104 non-seminomas and 194 controls) in a population-based case-control study. The phenotype of GST mu was determined in 366 men by ELISA, the genotype was determined in 324 men by polymerase chain reaction. The concordance between geno- and phenotype was 94.4%. The odds ratio of having the GST mu negative phenotype and testicular cancer was 1.08, (0.72-1.64; 95% confidence interval (CI)), and the odds ratio of having the GSTM1 null genotype and testicular cancer was 1.10; CI95% (0.71-1.70). This study provides no evidence of an association between phenotypically determined GST mu deficiency or GSTM1 null genotype and testicular cancer. The narrow confidence intervals rule out GST mu as a major single risk factor for testicular cancer.
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PMID:Genotype and phenotype of glutathione S-transferase mu in testicular cancer patients. 911 Mar 58

Two variant glutathione S-transferase cDNAs have been described at the GSTP1 locus, which differ by a single base pair (A-G) substitution at nucleotide 313 of the GSTP1 cDNA. This results in an amino acid substitution which alters the function of the enzyme. In this study, a novel PCR assay has been developed which demonstrates that these two variant cDNAs represent distinct GSTP1 alleles (GSTP1a and GSTP1b). In a study of individuals with different forms of cancer, the GSTP1b allele is found to be strongly associated with bladder cancer and testicular cancer. In controls 6.5% of individuals were homozygous for the GSTP1b allele. In bladder cancer cases, this rose to 19.7% [n = 71, odds ratio 3.6 (1.4-9.2), P = 0.006] and in testicular cancer to 18.7% [n = 155, odds ratio 3.3 (1.5-7.7), P = 0.002]. In addition, in prostate cancer a highly significant decrease in the frequency of the GSTP1a homozygotes was observed [control 51.0% versus 27.8% cancer cases, n = 36, odds ratio 0.4 (0.02-3.3), P = 0.008]. Increases in the frequency of GSTP1b homozygotes was also observed in lung cancer and chronic obstructive pulmonary disease. However, these were not statistically significant. No change in breast or colon cancer allele frequencies was observed.
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PMID:Identification of genetic polymorphisms at the glutathione S-transferase Pi locus and association with susceptibility to bladder, testicular and prostate cancer. 911 Nov 93

Our laboratory has been involved in the study of Glutathione S-transferase pi (GST pi) for many years, both in terms of regulation of gene expression and in trying to understand the endogenous function(s) of this enzyme and also what role it may play in the carcinogenic process [1]. Over-expression of GST pi has been associated with carcinogenesis and the development of many different human tumours, for example testis [2], ovarian [3] and colorectal [4] and is often inversely correlated with prognosis or patient survival [5,6]. In addition, GST Pi has been implicated in the acquisition of antineoplastic drug resistance [7-9]. In order to study the transcriptional regulation of this gene, we have utilised a multi-drug resistant derivative (VCREMS) of the human mammary carcinoma cell line, MCF7, in which GST P1 mRNA and protein are significantly elevated in the absence of gene amplification [10-13]. Interestingly, we have recently reported the discovery of polymorphisms at the GSTP1 locus, resulting in two alleles GSTP1a and GSTP1b. In the study, the GSTP1b allele was found with increased frequency in bladder and testicular cancer, while the GSTP1a allele was significantly decreased in cases of prostate cancer [14]. In an attempt to elucidate the endogenous role(s) of GST pi, we have used homologous recombination in embryonic stem (ES) cells to inactivate both murine GST Pi genes and create a mouse strain completely deficient in the expression of this enzyme. This provides us with a unique animal model with which to study the effects of the absence of GST pi expression on the metabolism and pharmacokinetics of xenobiotics.
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PMID:Pi-class glutathione S-transferase: regulation and function. 967 44

Chemotherapeutic drugs can affect DNA in male germ cells, thereby impacting on the integrity of the genome transmitted to offspring. Drug metabolizing enzymes can protect cells from xenobiotic insult. We analyzed the expression pattern of such enzymes in isolated round spermatids from rats exposed to drugs used to treat testicular cancer: bleomycin, etoposide, and cisplatin (BEP). The number of isozymes expressed and the overall relative expression values were highest for the glutathione S-transferases (GSTs). Moreover, BEP treatment significantly increased the expression of 8 GSTs and 3 aldehyde dehydrogenases. Increased expression of GST isozymes was confirmed by qRT-PCR and Western blot analysis. Although Gst genes can be targets for epigenetic modifications, promoter DNA methylation was not affected by BEP treatment. As GSTs are involved in drug resistance mechanisms, we hypothesize that BEP induction of GST expression may lead to the survival of damaged germ cells and the production of abnormal sperm.
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PMID:Selective induction of glutathione S-transferases in round spermatids from the Brown-Norway rat by the chemotherapeutic regimen for testicular cancer. 2320 Jul 78