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

The activity of thiopurine methyltransferase (TPMT) exhibits genetic polymorphism, with approximately 1 in 300 individuals inheriting TPMT deficiency as an autosomal recessive trait, and about 11% having intermediate activity (ie, heterozygotes). Patients with TPMT deficiency accumulate excessive concentrations of 6-thioguanine nucleotides (TGNs) and develop severe toxicity when treated with standard dosages of mercaptopurine. High TPMT activity has been associated with lower concentrations of TGNs, yielding a higher risk of treatment failure in children with acute lymphoblastic leukemia (ALL). As the biochemical basis of these pharmacodynamic relationships has not been fully elucidated, we investigated the variability and relationship of TPMT activity in erythrocytes and lymphoblasts from children with ALL. A 58-fold range of erythrocyte TPMT activity was found among 119 patients receiving ALL chemotherapy (0.6 to 34.9 U/mL packed erythrocytes), but relatively low intrapatient variability (coefficient of variation, 13.5%) was observed over 1 year. A 27-fold range in TPMT activity was observed in leukemic blasts obtained from 42 patients at initial diagnosis (3.3 to 88.9 U/1 x 10(9) cells). TPMT activity in leukemic blasts at diagnosis was significantly correlated with TPMT in erythrocytes before therapy (rs = .75, P < .0001, N = 13). These data document extensive interpatient variability of TPMT activity in ALL blasts and establish its linkage to polymorphic TPMT activity in erythrocytes, providing a new mechanism by which erythrocytes serve as prognostic markers of mercaptopurine metabolism and TPMT activity in children with ALL.
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PMID:Polymorphic thiopurine methyltransferase in erythrocytes is indicative of activity in leukemic blasts from children with acute lymphoblastic leukemia. 770 93

Over the past two decades, pharmacokinetic data have clearly demonstrated that development can markedly influence the absorption, distribution, excretion, and metabolism of xenobiotics. With respect to many of the processes that govern drug metabolism, the underlying pharmacogenetic determinants that may control either the affinity or the capacity of a drug or toxicant substrate for the enzymes responsible for its biotransformation appear to be altered as a function of development by mechanisms that are, for the most part, not well defined. Nonetheless, for many xenobiotics, the pharmacogenetic-developmental interface produces a "pattern" for drug metabolism that, when characterized, supports the pharmacokinetic properties (eg, drug clearance) reported for many agents across the pediatric age spectrum. With the exception of a few relatively well-characterized adverse drug effects (eg, toxicity of 6-mercaptopurine in patients with absent thiopurine methyltransferase activity, increased incidence of hepatotoxicity to valproic acid in young infants), the relationship of development and pharmacogenetics to enhanced toxicity risk from xenobiotic exposure is poorly defined. However, failure to adequately appreciate the pharmacokinetic consequences of the pharmacogenetic-developmental interface and to individualize therapy accordingly may lead to a clinically significant risk of drug therapy, namely, over- or underdosing.
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PMID:Pharmacogenetics and development: are infants and children at increased risk for adverse outcomes? 778 40

Thiopurine S-methyltransferase (TPMT; S-adenosyl-L-methionine:thiopurine S-methyltransferase, EC 2.1.1.67) activity exhibits genetic polymorphism, with approximately 0.33% of Caucasians and African-Americans inheriting TPMT deficiency as an autosomal recessive trait. To determine the molecular genetic basis for this polymorphism, we cloned the TPMT cDNA from a TPMT-deficient patient who had developed severe hematopoietic toxicity during mercaptopurine therapy. Northern blot analysis of RNA isolated from leukocytes of the deficient patient demonstrated the presence of TPMT mRNAs of comparable size to that in subjects with high TPMT activity. Sequencing of the mutant TPMT cDNA revealed a single point mutation (G238-->C), leading to an amino acid substitution at codon 80 (Ala80-->Pro). When assessed in a yeast heterologous expression system, this mutation led to a 100-fold reduction in TPMT catalytic activity relative to the wild-type cDNA, despite a comparable level of mRNA expression. A mutation-specific PCR amplification method was developed and used to detect the G238-->C mutation in genomic DNA of the propositus and her mother. This inactivating mutation in the human TPMT gene provides insights into the genetic basis for this inherited polymorphism in drug metabolism.
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PMID:A single point mutation leading to loss of catalytic activity in human thiopurine S-methyltransferase. 786 71

An assay is described for the determination of red blood cell (RBC) thiopurine methyltransferase (TPMT) activity. TPMT S-methylates the antileukaemic drugs 6-mercaptopurine (6-MP) and 6-thioguanine and enzyme activity is inherited as a genetic trait. The assay is based on the TPMT-catalysed conversion of 6-MP to 6-methylmercaptopurine (methyl-MP) with non-radioactive S-adenosyl-L-methionine as the methyl donor. The methyl-MP metabolite is extracted into toluene as a phenyl-mercury adduct and back-extracted into 0.1 M HCl. Methyl-MP is quantitated by reversed-phase high-performance liquid chromatography (HPLC) with ultraviolet detection using a C18 Resolve cartridge and a mobile phase of methanol-water (20:80, v/v) with 100 mM triethylamine adjusted to pH 3.2 with orthophosphoric acid. There was a strong correlation between the HPLC assay and the established radiochemical assay (P < 0.0001). TPMT activities were measured by both methods in a population study of 111 children. There was no significant difference between the two frequency distribution histograms (P > 0.6).
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PMID:High-performance liquid chromatographic assay of human red blood cell thiopurine methyltransferase activity. 786 49

6-Mercaptopurine (6-MP) and methylmercaptopurine ribonucleoside (Me-MPR) are purine anti-metabolites which are both metabolized to methylthio-IMP (Me-tIMP), a strong inhibitor of purine synthesis de novo. Me-MPR is converted directly into Me-tIMP by adenosine kinase. 6-MP is converted into tIMP, and thereafter it is methylated to Me-tIMP by thiopurine methyltransferase, an S-adenosylmethionine (S-Ado-Met)-dependent conversion. S-Ado-Met is formed from methionine and ATP by methionine adenosyltransferase, and is a universal methyl donor, involved in methylation of several macromolecules, e.g. DNA and RNA. Therefore, depletion of S-Ado-Met could result in an altered methylation state of these macromolecules, thereby affecting their functionality, leading to dysregulation of cellular processes and cytotoxicity. In this study the effects of 6-MP and Me-MPR on S-Ado-Met, S-adenosylhomocysteine (S-Ado-Hcy), homocysteine and methionine concentrations are determined. Both drugs cause a decrease in intracellular S-Ado-Met concentrations and an increase in S-Ado-Hcy and methionine concentrations in Molt F4 human malignant lymphoblasts. The effects of both 6-MP and Me-MPR can be ascribed to a decreased conversion of methionine into S-Ado-Met, due to the ATP depletion induced by the inhibition of purine synthesis de novo by Me-tIMP. Both 6-MP and Me-MPR thus affect the methylation state of the cells, and this may result in dysregulation of cellular processes and may be an additional mechanism of cytotoxicity for 6-MP and Me-MPR.
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PMID:Decrease in S-adenosylmethionine synthesis by 6-mercaptopurine and methylmercaptopurine ribonucleoside in Molt F4 human malignant lymphoblasts. 799 28

A catabolic route for azathioprine involving methylation by thiopurine methyltransferase has been directly implicated in the drug's immunosuppressive efficacy. Since ethnic differences in thiopurine methyltransferase activity have been reported in a study of Lapps, this study compared the distribution of thiopurine methyltransferase activity in erythrocyte lysates from 134 healthy, randomly selected subjects living in Brazil, comprising 39 blacks (i.e. Afro-Brazilians), 33 white subjects, 30 mixed-race subjects, and 32 Brazilian-residing Japanese subjects. The results demonstrated bimodality of thiopurine methyltransferase activity compatible with genetic polymorphism in the white, black and mixed-race groups, but not in the Japanese, who were homogeneously 'fast methylators' (high thiopurine methyltransferase activity). Thiopurine methyltransferase activity was generally higher in Brazilian males than females, and some individuals in the black and mixed-race groups had very high activity. Azathioprine-immunosuppressed transplant patients with thiopurine methyltransferase activity above 35 pmol/h/mgHb have previously been shown to have significantly poorer outcomes. Using this thiopurine methyltransferase value as the cut-off point between 'poor responders' and 'good responders' to azathioprine, 65% of the Japanese, 59% of the black subjects, and 63% of the mixed-race subjects fell into the 'poor responder' category, compared with only 42% of the white group. Interestingly, this approximately 20% difference in azathioprine response corresponds to the racial differences seen in allograft survival.
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PMID:Fast and slow methylators: do racial differences influence risk of allograft rejection? 817 Nov 83

1. The activities of the microsomal thiol methyltransferase and the cytosolic thiopurine methyltransferase were measured with 2-mercaptoethanol and 6-mercaptopurine as substrates in human ileum, ascending colon, transverse colon, descending colon and liver. 2. Thiol methyltransferase activity (pmol/min per mg) (mean +/- SD) was 495 +/- 280 (ileum), 786 +/- 454 (ascending colon), 1791 +/- 233 (transverse colon), 964 +/- 484 (descending colon) and 4800 +/- 1194 (liver). 3. Thiopurine methyltransferase (pmol/min per mg) (mean +/- SD) was 53.5 +/- 15.4 (ileum), 34.6 +/- 11.4 (ascending colon), 64.3 +/- 12.1 (transverse colon), 57.0 +/- 10.1 (descending colon) and 106 +/- 20.4 (liver). 4. Transferase in intestinal mucosa followed non-Michaelis-Menten kinetics, and two phases representing high and low affinity forms, for the acceptor methyl substrates were observed. 5. Comparison of intestinal with hepatic activities showed that thiopurine methyltransferase is better expressed than thiol methyltransferase in the human intestine, at least with the substrates studied.
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PMID:S-methyltransferases in human intestine: differential distribution of the microsomal thiol methyltransferase and cytosolic thiopurine methyltransferase along the human bowel. 821 40

Two children with acute lymphoblastic leukaemia (ALL) taking daily 6-mercaptopurine as part of a national UK therapeutic trial repeatedly developed profound myelosuppression on 25% of the standard protocol dose. Both were found to have undetectable intracellular activity of thiopurine methyltransferase (TPMT), an enzyme controlling one of the major alternative catabolic pathways of 6-mercaptopurine, and both produced higher concentrations of cytotoxic drug metabolites at 10-25% of the protocol dose than other patients taking 100%. It is supposed that these patients represent the 0.33% of the normal population constitutionally lacking TPMT. It is important to recognise such individuals both to avoid fatal bone marrow failure through inadvertent overdosage, and to be reassured that an adequate drug effect can be achieved at around 10% of the standard dose.
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PMID:Congenital thiopurine methyltransferase deficiency and 6-mercaptopurine toxicity during treatment for acute lymphoblastic leukaemia. 825 79

High red blood cell (RBC) thiopurine methyltransferase (TPMT) activity is associated with a higher relapse rate in children with acute lymphoblastic leukaemia on 6-mercaptopurine therapy. RBC TPMT activity is subject to genetic polymorphism and inter-ethnic variation. Higher TPMT activity in male subjects has previously been reported in RBC and liver tissue, but only in non-healthy subjects. In this healthy, drug-free study group the gender difference in the RBC TPMT high activity subgroup was confirmed with 8.3% higher TPMT activity in male subjects (n = 105).
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PMID:Gender difference in red blood cell thiopurine methyltransferase activity. 827 62

The cytotoxic activity of 6-mercaptopurine (6-MP) is affected by thiopurine methyltransferase (TPMT), a genetically regulated and variable intracellular enzyme. 6-Thioguanine (6-TG), a closely related thiopurine, is less affected by that enzyme and so it may be a more reliable drug-at least for patients with constitutionally high TPMT activity. We attempted to assess its suitability as an alternative by comparing the pharmacokinetics of both drugs in a small group of children with lymphoblastic leukaemia (ALL). Patients were included who were in their second or subsequent remission, who would otherwise have received 6-MP, and on whom pharmacokinetic data concerning 6-MP metabolism had been collected in a previous remission. Plasma 6-TG concentrations were assayed following an oral dose of 40 mg m-2, and the accumulation and fluctuation of intracellular (erythrocyte, RBC) 6-TG nucleotides (6-TGNs) were measured at regular intervals during daily oral therapy. Seven children were studied. Plasma 6-TG concentrations were low and cleared within 6 h of oral dosing. At 7 days, 6-TGN concentrations ranged from 959 to 2361 pmol 8 x 10(-8) RBCs, in all cases significantly higher (P = 0.002) than those produced by the same patients on 6-MP. After a total therapy time of 35 patient months, a modest rise of alanine aminotransferase was seen on one occasion, otherwise no toxicity apart from myelosuppression was encountered. In the context used, 6-TG appears well tolerated and produces higher concentrations of intracellular cytotoxic metabolites than 6-MP. For children constitutionally 'resistant' to the traditional drug, if not all, it may be a preferable alternative.
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PMID:Is 6-thioguanine more appropriate than 6-mercaptopurine for children with acute lymphoblastic leukaemia? 831 12


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