EC:2.1.1.67 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.1.1.67 (thiopurine methyltransferase)
551 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Genetic polymorphism of drug metabolizing enzymes can be the major determinant of inter-individual differences in drug disposition and effects. In this mini-review, the evolution of pharmacogenetic studies, from the recognition of phenotypic polymorphisms to the discovery of genetic mutations responsible for these inherited traits, is illustrated by the genetic polymorphism of thiopurine S-methyltransferase (TPMT). TPMT, which exhibits autosomal co-dominant polymorphism, plays an important role in metabolism of the antileukemic and immunosuppressive medications, mercaptopurine, thioguanine, and azathioprine. The genetic polymorphism of TPMT activity in humans was first reported in 1980, and in the last five years the genetic basis for this polymorphism has been elucidated. Isolation and cloning of mutant alleles from humans with TPMT deficiency has identified the major mutant alleles, established the basis for loss of TPMT activity and permitted development of PCR-based genotyping assays to make a molecular diagnosis of TPMT-deficiency and heterozygosity. These studies illustrate the potential clinical benefits of elucidating the molecular basis of inherited differences in drug metabolism and disposition, and future automation of molecular diagnostics will make it feasible to more precisely select the optimal drug and dosage for individual patients.
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PMID:Pharmacogenetics as a molecular basis for individualized drug therapy: the thiopurine S-methyltransferase paradigm. 1021 63

The role of drug metabolism in drug discovery (lead compound selection) and the traditional role of identifying the enzymes involved in biotransformation pathways (reaction phenotyping) have both relied heavily on the availability and use of a human liver bank. The assessment of drug metabolizing enzyme activity and variability in a series of individual human livers is essential when characterizing the enzymes involved in metabolic pathways (i.e. correlation analysis). In this regard, a human liver bank of 21 samples (14 males, six females, and one unknown) was characterized with respect to the activity of several important drug metabolizing enzymes. The total CYP450 content of the livers ranged from 0.06 to 0.46 nmol/mg microsomal protein. The fold variations found in specific enzyme contents were as follows: CYP1A2 (3x), CYP2A6 (21x), CYP2C9 (8x), CYP2C19 (175x), CYP2D6 (18x), CYP2E1 (5x), CYP3A4 (18x), FMO (2.5x), UDPGT (4x), NAT (7x), COMT (5x), ST (5x), TPMT (3x), and GST (2.5x). In general, the fold variation of the Phase II enzymes was lower compared with the Phase I enzymes, with the exceptions of CYP1A2, CYP2E1, and FMO. Similar data were reviewed from other established liver banks and compared with regard to the relative variability observed in drug metabolizing capacities found in this study.
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PMID:Characterization of Phase I and Phase II hepatic drug metabolism activities in a panel of human liver preparations. 1035 59

A new liquid-liquid extraction is described for thiopurine methyl transferase (TPMT, EC 2.1.1.67) activity determination: the use of a pH 9.5 NH4Cl buffer solution, before adding the solvent mixture, allows more rapid extraction, avoiding a centrifugation step, and reduces the global cost of analysis. After the extraction step, 6-methylmercaptopurine, synthesised during the enzymatic reaction, is determined by a liquid chromatographic assay. Analytical performance of the assay was tested on spiked erythrocyte lysates. The linear concentration range was 5-250 ng ml(-1) (r> or =0.997, slope=1.497, intercept=-0.367). The recoveries were 82.8, 89.9 and 82.2% for 75, 125 and 225 ng ml(-1), respectively. The coefficients of variation were < or =6.1% for within-day assay (n=6) and < or =9.5% for between-day assay precision (n=6; 14 days). TPMT activity was determined in a French adult Caucasian population (7 =70). The results ranged from 7.8 to 27.8 nmol h(-1) ml(-1) packed red blood cells and the frequency distribution histogram is similar to that previously published.
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PMID:Thiopurine methyl transferase activity: new extraction conditions for high-performance liquid chromatographic assay. 1036 Apr 43

Characterization of the genetic polymorphism of thiopurine S-methyltransferase enzyme (TPMT; EC 2.1.1.67) is required because of its clinical importance for patients exposed to thiopurine drugs. A number of point mutations have already been characterized in exons and introns of the TPMT gene. Here we report the identification of a polymorphic locus within the promoter region of the gene. This polymorphism was detected by polymerase chain reaction - single strand conformation polymorphism analysis of DNA samples from 54 unrelated European individuals. A total of five alleles with length variations were distinguished through the 5'-flanking region involved in the TPMT gene expression. Sequence analysis revealed that these variations were due to a variable number of tandem repeats (VNTR), ranging from four to eight repeats. Each repeat consists of 17 or 18 bp units and contains putative binding sites for transcription factors. The most frequent alleles harbour four or five tandem repeats, a heterozygosity rate of 0.44 was calculated, and a stable Mendelian inheritance of alleles was demonstrated. Analysis of the effect of each VNTR allele on promoter activity of a reporter gene was further performed in various cell lines by transient transfection assay. A modulatory effect of VNTR alleles was observed in vitro, but the repeat polymorphism did not display a significative role in TPMT gene regulation in vivo. Further studies need to be carried out to support the hypothesis that VNTR may contribute to the large interindividual variations of TPMT activity.
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PMID:Characterization of a variable number tandem repeat region in the thiopurine S-methyltransferase gene promoter. 1037 66

Synthesis of a number of photoactive thiopurine-containing nucleosides was described. S-methylation of the synthesized compounds in the course of the reaction catalyzed by recombinant human thiopurine S-methyltransferase was studied by UV-spectroscopy.
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PMID:Synthesis of modified thiopurine nucleosides for structural characterization of human thiopurine S-methyltransferase. 1047 58

Inheritance of the TPMT*2, TPMT*3A and TPMT*3C mutant alleles is associated with deficiency of thiopurine S-methyltransferase (TPMT) activity in humans. However, unlike TPMT*2 and TPMT*3A, the catalytically active protein coded by TPMT*3C does not undergo enhanced proteolysis when heterologously expressed in yeast, making it unclear why this common mutant allele should be associated with inheritance of TPMT-deficiency. To further elucidate the mechanism for TPMT deficiency associated with these alleles, we characterized TPMT proteolysis following heterologous expression of wild-type and mutant proteins in mammalian cells. When expressed in COS-1 cells, proteins encoded by TPMT*2, TPMT*3A, and TPMT*3C cDNAs had significantly reduced steady-state levels and shorter degradation half-lives compared with the wild-type protein. Similarly, in rabbit reticulocyte lysate (RRL), these mutant TPMT proteins were degraded significantly faster than the wild-type protein. Thus, enhanced proteolysis of TPMT*3C protein in mammalian cells is in contrast to its stability in yeast, but consistent with TPMT-deficiency in humans. Proteolysis was ATP-dependent and sensitive to proteasomal inhibitors MG115, MG132 and lactacystin, but not to calpain inhibitor II. We conclude that all of these mutant TPMT proteins undergo enhanced proteolysis in mammalian cells, through an ATP-dependent proteasomal pathway, leading to low or undetectable levels of TPMT protein in humans who inherit these mutant alleles.
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PMID:Enhanced proteasomal degradation of mutant human thiopurine S-methyltransferase (TPMT) in mammalian cells: mechanism for TPMT protein deficiency inherited by TPMT*2, TPMT*3A, TPMT*3B or TPMT*3C. 1059 45

Pharmacogenetics has emerged as a novel and challenging area of interest in oncology. Cancer chemotherapy is characterized by major intersubject variability in tumor responses and host toxicity. This variation may be caused by genetic differences in the enzymes involved in the metabolism of anticancer agents. Anticancer agents, such as 6-mercaptopurine, 5-fluorouracil, and irinotecan, have a narrow therapeutic index that can sometimes result in severe life-threatening toxicities. The impact of polymorphisms in metabolizing enzymes (thiopurine S-methyltransferase, dihydropyrimidine dehydrogenase, and uridine diphosphate glucuronosyltransferase) that participate significantly in the disposition of these anticancer agents is discussed.
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PMID:Inherited variations in drug-metabolizing enzymes: significance in clinical oncology. 1067 43

The genetic polymorphism of thiopurine S-methyltransferase (TPMT) has had a highly significant clinical impact due to its association with individual variation in the toxicity and therapeutic efficiency of thiopurine drugs, which are pharmaceutical agents widely used in the treatment of several kinds of diseases. Until now, ten mutant alleles responsible for TPMT deficiency and several silent and intronic mutations have been described. In this work we present an alternative molecular method for the detection of TPMT alleles. It is an adaptation for horizontal conditions of a conformation-sensitive gel electrophoresis technique. The method has proven to be very efficient as a rapid screening approach for the study of TPMT genetic variability. The method was applied to analyse eight TPMT exons and the corresponding flanking intronic regions in a sample of unrelated healthy individuals from North Portugal. Here we report the allelic frequencies concerning TPMT-deficient alleles and several silent and intronic mutations, including two newly detected intronic polymorphisms: an A (-101) T substitution in intron 3 and a variation involving the number of T nucleotides in a DNA stretch in intron 5. Additionally, we also present data from a sample of 43 children undergoing therapy for acute lymphoblastic leukemia. In this clinical sample we have registered a statistically significant higher frequency for the TPMT*3C allele. This finding raises the question whether the TPMT genotype can contribute to any genetic predisposition for development of the malignancy.
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PMID:Screening of thiopurine S-methyltransferase mutations by horizontal conformation-sensitive gel electrophoresis. 1067 40

Azathioprine, a cytostatic and immunosuppressive drug in use for some 30 years, can give rise to life-threatening neutropenia and thrombocytopenia. This may be caused by unexpectedly high concentrations of cytotoxic metabolites due to abnormally slow inactivation of 6-mercaptopurine (6-MP) by thiopurine S-methyltransferase (TPMT) and/or xanthine oxidase. Low TPMT activity may be due to genetic polymorphism or interaction with drugs such as salicylic acid derivatives, while xanthine oxidase may be inhibited by allopurinol. High TPMT activity, on the other hand, may hamper cytostatic treatment. Safer and more effective treatment with azathioprine and its metabolite 6-MP becomes possible with new laboratory methods for pharmacotherapy monitoring.
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PMID:[Bone marrow depression after azathioprine. New discoveries on an old drug]. 1082 62

Azathioprine (AZA) is metabolized via the cytosolic enzyme thiopurine S-methyltransferase (TPMT). TPMT activity exhibits genetic polymorphism with four prevalent (75%) mutant alleles TPMT*2 (G238C) and TPMT*3 (A719G and/or G460A) and a wild-type allele TPMT*1. To test the hypothesis that presence of these mutations is associated with greater toxicity of AZA in heart transplant recipients, 30 consecutive patients treated with AZA were followed up for the first month after heart transplant. Mutation of TPMT gene (mutation-specific polymerase chain reaction-based methods) was observed in four patients (A719G: n = 2; A719G plus G460: n = 2). Agranulocytosis did not occur in patients with the wild genotype. It occurred in the two patients with mutation A719G and there was a 40% drop in neutrophils in the two other patients. Discontinuation of AZA in the four mutant patients corrected for the drop. Presence of TPMT mutations is associated with a greater likelihood of agranulocytosis. Determination of these mutations could reduce the risk for hematological side-effects.
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PMID:Thiopurine S-methyltransferase gene polymorphism is predictive of azathioprine-induced myelosuppression in heart transplant recipients. 1079 86

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