Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
 2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Drug-specific monoclonal antibodies and their antigen-binding Fab fragments reverse acute desipramine toxicity in a rat experimental model by inducing a redistribution of drug from cardiac tissue into serum and extracellular fluid. In order to investigate the use of smaller recombinant antibody fragments such as single chain Fv (sFv) as an antidote, an efficient murine NS/O myeloma expression system was developed. The variable light (VL) and variable heavy (VH) domains of a murine anti-desipramine monoclonal antibody were cloned and sequenced. A 270 amino acid VH-(Gly4Ser)3-VL sFv was prepared by overlapping polymerase chain reaction (PCR) amplification of VH with heavy chain leader peptide, VL, and the linker. This construct was subcloned into a mammalian expression vector which utilizes the SR alpha promoter, a hybrid promoter consisting of the SV40 early promoter with portions of the human T-cell leukemia virus type I long terminal repeat and also containing the Escherichia cloi xanthine-guanine phosphoribosyltransferase gene for selection. NS/O myeloma cells were transfected by electroporation. Stable recombinant NS/O clones were screened for expression of sFv using reverse transcriptase-PCR to detect mRNA and an enzyme-linked immunosorbent assay (ELISA) to detect sFv. Secreted sFv from clones capable of growth to a cell density of 2-4 x 10(6) viable cells/mL was purified in a single step using a desipramine affinity column resulting in 12-39 mg/L of purified sFv. Affinity-purified sFv had comparable desipramine binding activity to Fab when evaluated by competitive ELISA.
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PMID:Cloning, expression, and purification of an anti-desipramine single chain antibody in NS/O myeloma cells. 880 32

Most of the primates, unlike other mammals, have mutations in urate oxidase gene and cannot catabolize urate in the bodies. In addition to the genetic defects, some human subjects have various abnormalities in urate metabolism. Urate metabolism abnormalities are classified into two categories, hyperuricemia and hypouricemia. Usually, the urate pool size of an adult male is about 1,200 mg, and 700 mg urate is produced daily. The production is balanced by the excretion of urate into urine (500 mg) and intestine (200 mg). If this balance is disturbed, either hyperuricemia or hypouricemia occurs. According to the mechanisms, hyperuricemia is classified into overproduction and underexcretion, and hypouricemia into underproduction and overexcretion. Overproduction of ruate is caused by PRPP synthetase superactivity, HPRT deficiency, leukemia and alcohol ingestion. Underexcretion of urate is caused by renal insufficiency and treatment by diuretics. Underproduction of urate is caused by xanthine dehydrogenase deficiency, purine nucleoside deficiency and allopurinol treatment. Overexcretion of urine is caused by familial renal hypouricemia, Fanconi's syndrome, diabetes mellitus and treatments with benzbromarone and probenecid. All of these conditions are classified, according to other aspects, into primary and secondary, and genetic and non-genetic abnormalities.
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PMID:[Abnormalities in urate metabolism: concept and classification]. 897 99

Conventional antileukemic chemotherapy in relapsed or refractory acute leukemia or myeloid blast crisis of chronic granulocytic leukemia (CGL) is not curative and remissions, if attained, are usually of short duration. The primary goal of antileukemic therapy in these patients should be the identification of agents that are more selective and better targeted in their action. Tiazofurin is known to inhibit inosine 5'-phosphate dehydrogenase (IMPDH), the rate limiting enzyme of de novo guanine ribonucleotide synthesis. The activity of this enzyme is markedly increased in leukemic cells. To prevent de novo GTP synthesis, it is also necessary to block the guanine-salvaging activity of hypoxanthine-guanine phosphoribosyltransferase (HGPRT). This was achieved by increasing the plasma levels of hypoxanthine through the administration of allopurinol. Twenty-seven patients with end stage leukemia or myeloid blast crisis of CGL were treated with tiazofurin. Assays of IMPDH activity and GTP concentrations in leukemic cells, as well as hypoxanthine levels in the serum, provided a method to monitor the impact of tiazofurin/allopurinol therapy and to adjust drug doses. In these poor prognosis patients seven attained a complete response (CR), 3 had a hematologic improvement and an antileukemic effect was seen in 4. An excellent correlation was observed between biochemical and clinical activity of tiazofurin/allopurinol, with biochemical responses preceding clinical results. However, clinical responses were usually short-lived with IMPDH activity starting to increase soon after discontinuation of therapy, but patients responding again after reinstitution. Tiazofurin therapy was generally well tolerated in patients with less than 15 days of treatment and no other major medical complications. Although an antiproliferative effect was observed in some patients, bone marrows remained cellular in most cases with a marked shift from blasts to granulocytes. Severe neutropenia was absent in the majority of cases and patients could be discharged in good clinical condition immediately after completion of therapy. Tiazofurin/allopurinol therapy provided a rational, biochemically targeted and biochemically monitored approach to the treatment of poor prognosis leukemia and should serve as a paradigm in enzyme pattern-targeted chemotherapy.
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PMID:Biochemically targeted therapy of refractory leukemia and myeloid blast crisis of chronic granulocytic leukemia with Tiazofurin, a selective blocker of inosine 5'-phosphate dehydrogenase activity. 904 9

The study of X-chromosome inactivation patterns (XCIPs) to determine tumor clonality was established by Fialkow using G6PD protein isoenzymes but was limited by the low frequency of heterozygotes. Analysis was extended to most females with the demonstration of differential DNA methylation patterns on active and inactive X-chromosome alleles and uses Southern blotting or PCR of either restriction enzyme polymorphisms, eg PGK, HPRT, or variable number tandem repeat sequences, eg M27beta, HUMARA. More recently RNA polymorphisms have been reported enabling direct analysis of expressed transcripts from the two alleles. Interpretation of clonality requires knowledge of an individual's constitutive XCIP as skewing (>75% expression of one allele) occurs in a significant proportion of hematologically normal females, probably due to the stem cell pool size at the time of Lyonization. Furthermore, acquired skewing occurs with increasing age. For myeloid disorders in the young, T lymphocytes serve as a suitable control XCIP, but interpretation of imbalanced XCIPs in the elderly can be difficult. In AML, XCIPs at presentation are consistent with a clonal disorder whereas in remission comparison with normal controls suggests that true clonal remission is infrequent. Sequential analysis of samples may be helpful in some patients in order to determine evolving clonal populations.
Leukemia 1998 Feb
PMID:Clonality studies in acute myeloid leukemia. 951 70

Tax protein of human T-cell leukemia virus type 1 (HTLV-1) is a potent trans-activator of specific sets of target genes, and on the other hand, it is a trans-repressor of other sets of genes. It is also an inhibitor of the tumor suppressor protein p16(INK4a) and thus has been thought to contribute to induction of adult T-cell leukemia (ATL). We examined the mutagenic effects of Tax on a cellular gene, hypoxanthine guanine phosphoribosyltransferase (hprt), and LacI gene in lambda shuttle vector exogenously integrated in Big Blue Rat-2 (BBRat-2) cells. Expression of Tax in BBRat-2 cells enhanced the frequency of HPRT(-) phenotype severalfold. Tax-expressing cell clones, BBTax-1 and -2 established from BBRat-2 cells, gave rise to an average mutation frequency of 5.9 x 10(-5) in LacI gene, but Tax-negative cell clones, BBRat-C1 and -C2, showed 2. 1 x 10(-5). The 2.8-fold increase in mutation frequency in the presence of Tax indicates that Tax expression enhanced mutation frequency in chromosomal DNA. However, neither the mutation spectrum of base transitions, transversions, and deletions/insertions nor the loci of the mutations were significantly affected by Tax expression. These findings indicate that Tax has the capability to induce random mutations and suggest that Tax would be able to modulate cellular phenotypes through mutation of the cellular genome.
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PMID:Trans-activator Tax of human T-cell leukemia virus type 1 enhances mutation frequency of the cellular genome. 991 74

Cyclophosphamide is used to treat a wide range of human malignancies. However, it is also a known carcinogen associated with induction of therapy-related leukemia and bladder cancer. The DNA repair protein, O6-alkylguanine-DNA alkyltransferase (AGT), protects cells from the toxic and mutagenic effects of O6-alkylating agents. We report here the contribution of AGT in protecting against the toxic and mutagenic effects of cyclophosphamide. CHO cells transduced with wild-type human AGT (CHO(AGT)) and pcDNA3 (CHOpcDNA3) were treated with activated cyclophosphamide derivatives, 4-hydroperoxycyclophosphamide (4-HC), 4-hydroperoxydidechlorocyclophosphamide (4-HDC), a progenitor of acrolein, and phosphoramide mustard (PM). The results show that CHO(AGT) is 7- or 20-fold less sensitive to the toxic effects of 30 microM 4-HC or 300 microM 4-HDC, respectively, than CHOpcDNA3 cells as measured by cell survival using a colony-forming assay. CHO(AGT) cells treated with 20 microM 4-HC or 200 microM 4-HDC produced 4- or 7-fold lower mutation frequency as measured at the HPRT locus than CHOpcDNA3 cells treated with the same dose of drugs. At 30 microM acrolein, the cell survival for CHO(AGT) was 30% compared with 18.7% for CHOpcDNA3. The mutation frequency of acrolein at the same dose was 57 mutants/10(6) cells in CHOpcDNA3 compared with no mutants in CHO(AGT). In contrast, CHO(AGT) and CHOpcDNA3 cells treated with PM had similar survival curves and exhibited no difference in mutation frequency. The present study demonstrates that AGT plays an important role in protecting against the toxic and mutagenic effect of cyclophosphamide and suggests that acrolein, not PM, is responsible for generating the toxic and mutagenic lesion(s) protected by the AGT protein.
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PMID:Role of O6-alkylguanine-DNA alkyltransferase in protecting against cyclophosphamide-induced toxicity and mutagenicity. 1039 44

Hydroxyurea (HU) is an effective therapeutic agent for patients with myeloproliferative disorders (MPDs) or sickle cell disease (SCD). Short-term HU toxicities primarily include transient myelosuppression, but long-term HU risks have not been defined. The mutagenic and carcinogenic potential of HU is not established, although HU has been associated with an increased risk of leukemia in some patients with MPD. In this study, 2 assays were used to quantitate acquired somatic DNA mutations in peripheral blood mononuclear cells (PBMCs) after in vivo HU exposure. The HPRT assay measures hypoxanthine phosphoribosyl transferase (hprt) mutations, while the VDJ assay identifies "illegitimate" T-cell receptor Vgamma-Jbeta interlocus recombination events. PBMCs were analyzed from patients with MPD, adults and children with SCD, and normal controls. MPD patients with prolonged HU exposure had numbers of DNA mutations equivalent to patients with low HU exposure or controls. Similarly, adults with SCD had equivalent numbers of DNA mutations regardless of HU exposure. Children with SCD and 30-month HU exposure had equivalent hprt(-) mutations but significantly more VDJ mutations (1.82 +/- 1.20 events per microg DNA) than children with 7-month HU exposure (1.58 +/- 0.87 events) or no HU exposure (1.06 +/- 0.45 events), P =.04 by analysis of variance. Taken together, these data suggest that the mutagenic and carcinogenic potential of in vivo HU therapy is low. Although increased numbers of illegitimate VDJ recombination events do not directly portend leukemia, young patients with SCD and HU exposure should be monitored serially for increases in DNA mutations.
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PMID:Acquired DNA mutations associated with in vivo hydroxyurea exposure. 1082 48

Recent studies have brought to the forefront the importance of somatic mutations during human fetal development and malignant transformation in children, specifically leukemia. Therefore, a better understanding of the frequency and mutational spectrum of spontaneous in utero mutations is essential for understanding the genetic mechanisms associated with pediatric malignancies. Previously we reported that the frequency of somatic mutations during the late stages of fetal development was dependent on both gestational age and gender. Here we present the hypoxanthine-guanine phosphoribosyltransferase (HPRT) reporter gene mutational spectra analysis for 60 T-cell mutant isolates from the umbilical cord blood of preterm newborns to gain insight into background mutational events during the late stages of fetal development. Logistic regression analyses showed a significant increase in HPRT deletions mediated by V(D)J recombinase in preterm newborns compared with full-term newborns (P = 0.009). A comparative analysis of deletion mutations also revealed that V(D)J recombinase-mediated HPRT deletions increased with decreasing gestational age (P = 0.012) and were significantly higher in females than males of the same developmental status (P = 0.031). Developmental and gender-specific differences in HPRT deletions mediated by V(D)J recombinase provide insight into the gender-specific differences seen in infant leukemia.
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PMID:Gestational age and gender-specific in utero V(D)J recombinase-mediated deletions. 1130 4

1,3-Butadiene (BD), which is used to make styrene-butadiene rubber, is a potent carcinogen in mice and a probable carcinogen, associated with leukemia, in humans. We have previously used HPRT mutation as a biomarker to evaluate exposures to BD in a monomer production plant. We now report on a study of 49 workers in a styrene-butadiene rubber plant in which we used the concentration of the BD metabolite 1,2-dihydroxy-4-(N-acetylcysteinyl-S)-butane (M1) in urine as a biomarker of exposure and the frequency of HPRT variant (mutant) lymphocytes (Vf) as a biomarker of effect. Workers were assigned to high- and low-exposure groups based on historical information about work areas and jobs. Personal exposure to BD for one work shift was measured using a passive badge dosimeter. Each participant provided a urine specimen and blood sample at the end of the work shift and completed a questionnaire providing information on lifestyle, health, and work activities. The average BD exposures in the high- and low-exposure groups were significantly different, even after excluding two extreme values, (high 1.48 ppm; low 0.15 ppm, p < 0.002). This study was done in 1994 and 1995 before the establishment, in 1996, of the new permissible exposure limit of 1 ppm. Both the mean M1 and the HPRT Vf were more than three times greater in the high-exposure group than in the low-exposure group (p < 0.0005). The three end points correlated with each other, with sample correlation coefficients between 0.4 and 0.6. The correlations among BD exposure and the biomarkers of internal exposure and genotoxicity suggest that occupational exposure to BD, in the range of 1-3 ppm, may be associated with adverse biological effects.
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PMID:Assessment of 1,3-butadiene exposure in polymer production workers using HPRT mutations in lymphocytes as a biomarker. 1174 32

There is continued controversy as to the sequential steps and mechanism(s) responsible for the in vivo acquisition of multiple mutations during neoplastic transformation. We investigated the in vivo clonality and mutational spectra of hypoxanthine-guanine phosphoribosyltransferase (HPRT) mutations in T cells from children with acute lymphocytic leukemia (ALL) to gain insight into the mutagenic mechanisms associated with leukemogenesis. We observed several instances of multiple, independent HPRT mutations accumulating in vivo in T cell receptor (TCR) gene defined clones that had undergone extensive pre- and/or post-thymic expansion following chemotherapy. In addition, we also detected the accumulation of multiple unique single mutations within distinct expanding post-thymic T cell clones. This pattern of clonally restricted hypermutability is compatible with extensive cell proliferation and selection alone without postulating genomic instability. These observations provide a paradigm for a continuum of cellular events that eventually results in the clonal accumulation of mutations in selected populations of cells in vivo and may provide insight into the primary genetic events associated with leukemogenesis, as well as the development of second malignancies and drug resistance following chemotherapy.
Leukemia 2001 Dec
PMID:Accumulation of somatic mutations in proliferating T cell clones from children treated for leukemia. 1175 11


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