Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P00492 (hypoxanthine-guanine phosphoribosyltransferase)
 2,385 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We have previously described a 14-yr-old boy with hyperuricemia, renal failure, and accelerated purine production resistant in vivo and in vitro to purine analogs. This patient demonstrated normal red cell hypoxanthine-guanine phosphoribosyltransferase (HPRT) heat stability, electrophoresis at high pH, and activity at standard substrate levels. In the present report an abnormal HPRT enzyme was demonstrated by enzyme kinetic study with phosphoribosylpyrophosphate (PRPP) as the variable substrate and inhibitory studies with sodium fluoride. Apparently normal HPRT activity in a patient with hyperuricemia and gout does not exclude a functionally significant HPRT mutation.
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PMID:Hypoxanthine-guanine phosphoribosyltransferase variant associated with accelerated purine synthesis. 435 74

A facile and rapid purification procedure, based upon the heat denaturation of extraneous proteins and GMP-Sepharose affinity chromatography, has been used to purify hypoxanthine phosphoribosyltransferase from human brain. A homogeneous enzyme preparation, as judged by sodium dodecyl sulfate and gradient polyacrylamide gel electrophoresis, was obtained. The subunit molecular weight of the enzyme was estimated as 24,000 by sodium dodecyl sulfate polyacrylamide gel electrophoresis. The native molecular weight, determined by gradient gel electrophoresis, was approximately 100,000. These results suggest human brain hypoxanthine phosphoribosyltransferase is a tetramer, consistent with recent results reported for the human erythrocyte enzyme. At least three charge variant forms of the human brain enzyme were distinguished by nondenaturing polyacrylamide gel electrophoresis, electrofocusing, and chromatofocusing. Acidic pI values of approximately 5.7, 5.5, and 5.0 were estimated for the three major species.
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PMID:Hypoxanthine phosphoribosyltransferase from human brain: purification and partial characterization. 609 78

Hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8) from beef brain has been purified 3100-fold to apparent homogeneity using a purification procedure based on GMP-Sepharose affinity chromatography. The native enzyme has a molecular weight of 84,000 as determined by gel filtration studies. A subunit molecular weight of 26,000 was obtained by sodium dodecyl sulfate-polyacrylamide gel electrophoresis, suggesting that the enzyme is a trimer. Two forms of the enzyme have been separated by nondenaturing polyacrylamide gel electrophoresis and isoelectric focusing. Basic pI values of 7.85 and 8.10 were obtained for the two forms. These values are much higher than have been observed with any other purified phosphoribosyltransferase. The amino acid composition of the enzyme is 18 Lys, 6 His, 9 Arg, 1 Trp, 6 Cys, 28 Asx, 12 Thr, 16 Ser, 19 Glx, 10 Pro, 23 Gly, 16 Ala, 17 Val, 5 Met, 11 Ile, 19 Leu, 9 Tyr, and 8 Phe. An unusual basic amino acid, yet to be identified, was also present. The enzyme exhibits Km values of 0.42 microM for guanine, 0.99 microM for hypoxanthine, 18.6 microM for P-Rib-PP in the presence of guanine, and 2.9 microM for P-Rib-PP in the presence of hypoxanthine.
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PMID:Studies of an unusually basic hypoxanthine-guanine phosphoribosyltransferase. 735 77

The aim of this study was to screen for potential agents affecting the mutagenicity of tobacco products. The influence of a number of compounds which have been suggested to be antimutagenic some of which are present in tobacco products, was investigated on the mutagenicity of a cigarette smoke condensate (CSC) and, in some cases, an extract of oral Swedish moist snuff (SNUS), using a screening procedure of the Ames Salmonella/microsome assay (STY). For some of the compounds the V79/hprt mutagenicity assay with benzo[a]pyrene metabolites as mutagens was used to obtain complementary and confirmatory information on mammalian cells. The antimutagens used included two selenium compounds, sodium selenite and ebselen; the flavonoids and polyphenols, ellagic acid, (+)-catechin hydrate, scopoletin, chlorogenic acid and rutin trihydrate; the porphyrin derivatives, bovine hemin, biliverdine dihydrochloride, chlorophyllin and a plant extract containing chlorophyll; the terpenoids, beta-carotene, retinol and a mixture of the two epimers (4R) and (4S) of (1S,2E,6R,7E,11E)-cembra-2,7,11-triene-4,6-diols (CBD); and cyclohexanol and ubiquinone. Screening of antimutagenic activities using the STY involves problems with toxicity. In several cases in this study mutagenicity was decreased below the control level without signs of toxicity in the background growth of bacteria. Since the survival of mutants and slight bacteriostatic effects on the background growth cannot be determined accurately in the STY, a reduction in mutagenicity may simply be due to toxicity. Only in cases where a dose-response curve declines to a level at or above the background and then levels off, can toxicity be excluded. An antimutagenic effect determined using this test system is therefore often not sufficient for classifying a compound as antimutagenic until these findings are confirmed in other test systems and, preferably, the mechanism behind this effect is clarified. The results obtained with the selenium compounds were considered to be inconclusive since the reduction in the mutation rate declined below the background level and might only reflect the toxic effects of these compounds. For ellagic acid an almost complete inhibition of the mutagenicity of CSC and SNUS in STY was indicated. This indication of antimutagenicity was confirmed in V79 cells using two metabolites of the CSC constituent benzo[a]pyrene, i.e., trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene and (+)-7 beta, 8 alpha-dihydroxy-9 alpha, 10 alpha-oxy-7,8,9,10- tetrahydrobenzo[a]pyrene (BPDE). Chlorogenic acid and (+)--catechin reduced the mutagenicity of CSC and chlorogenic acid also strongly inhibited SNUS mutagenicity. Scopoletin and rutin trihydrate inhibited the mutagenicity of CSC, but showed confounding effects with SNUS.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Screening for agents inhibiting the mutagenicity of extracts and constituents of tobacco products. 751 27

The hypoxanthine-guanine phosphoribosyltransferase (HGPRTase) of human and the parasitic trematode, Schistosoma mansoni, were expressed at high levels in transformed Escherichia coli in their native forms. Guanosine 2',3'-dialdehyde 5'-phosphate (ox-GMP) was shown to bind irreversibly to both enzymes in a time-dependent manner. This binding was stabilized by sodium borohydride reduction, suggesting that a Schiff's base is formed between the dialdehyde groups of ox-GMP and the amino group of a lysine residue in the enzymes. This linkage formation applies also to inosine 2',3'-dialdehyde 5'-phosphate but not to adenosine 2',3'-dialdehyde 5'-phosphate. GMP was found to be protective against ox-GMP inactivation and [3H]ox-GMP labeling of both HGPRTases. 5-Phosphoribosyl-1-diphosphate (PRibPP) also protects human HGPRTase against the ox-GMP inactivation and [3H]ox-GMP labeling but provides virtually no protection against the ox-GMP inactivation and labeling of the schistosomal enzyme, even though PRibPP binds to the latter with a threefold higher affinity. These results imply that PRibPP and ox-GMP compete with each other for binding to the human HGPRTase but not for binding to the schistosomal enzyme. This discrepancy could be exploited for the purpose of designing selective inhibitors of the schistosomal HGPRTase. Guanosine 2',3'-dialdehyde (ox-guanosine) is nearly as active as ox-GMP in inhibiting schistosomal HGPRTase but much less potent in inhibiting human HGPRTase, suggesting that ox-guanosine and ox-GMP may bind equally well to the parasite enzyme. PRibPP can protect human but not schistosomal HGPRTase against the inactivation by ox-guanosine. Therefore, ox-GMP and ox-guanosine must be forming Schiff's bases with the same amino acid residues in each of the two HGPRTases.
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PMID:Differential inhibitory effects of GMP-2',3'-dialdehyde on human and schistosomal hypoxanthine-guanine phosphoribosyltransferases. 751 83

The effects of the differentiation-inducing agents sodium butyrate (NaOBt), dimethylsulfoxide (DMSO) and mycophenolic acid (MA), on purine nucleotide metabolism, was studied in an ovarian carcinoma cell line (GZL-8). Exposure to these agents inhibited cell proliferation, but did not affect cell viability. Three hours following exposure, NaOBt and DMSO moderately decelerated purine synthesis de novo, but MA accelerated it three-fold, this being associated with a two-fold increase in the excretion of hypoxanthine and xanthine into the incubation medium. NaOBt and DMSO did not affect the cellular nucleotide content, but MA caused a 73% decrease in GTP content and about a 50% increase in the cellular content of UTP. The following alterations in cellular enzyme activity were observed 72 h following exposure: NaOBt decreased the activity of hypoxanthine-guanine phosphoribosyltransferase and increased the activity of IMP and of AMP 5'-nucleotidases, DMSO increased the activity of IMP 5'-nucleotidase, and MA increased the activity of the two nucleotidases. The results suggest that, in the carcinoma cell line studied, the differentiation process induced by NaOBt and DMSO may be associated with a general shift in the direction of purine metabolism from anabolism to catabolism, whereas that induced by MA is associated with a specific decrease in the production of GTP.
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PMID:Effects of differentiation-inducing agents on purine nucleotide metabolism in an ovarian cancer cell line. 779 96

In the present study 34 agents, related to carcinogenesis in different ways, were investigated with respect to their recombinogenic activity in mammalian cells. The induction of intrachromosomal recombination was studied using the spontaneous mutant clone SP5 derived from V79 Chinese hamster cells, which exhibits a duplication of exon 2 and its flanking regions in the hprt gene, which was found to be inserted between the two EcoR1 sites of intron 1. Earlier studies on the removal of this insertion fragment in the SP5 clone indicated that such loss involved intrachromosomal recombination and was detectable by using a reversion mutation assay. The categories of agents investigated here included monofunctional alkylating agents, polyaromatic hydrocarbons giving rise to bulky adducts, chlorinated compounds giving small cyclic adducts, intercalating agents, DNA cross-linkers, UV and ionizing radiation, inhibitors of DNA synthesis and topoisomerases, DNA bases and base analogues, radical formers and tumour promotors. Statistically significant enhancements in the frequency of reversion in SP5 cells were observed after treatment with aflatoxin B1, 9-aminoacridine, benzo[a]-pyrene-7,8-dihydrodiol, benzo[a]pyrene-7,8-diol-9,10-epoxide, camptothecin, dimethylbenzanthracene, dimethyl-nitrosamine, ethidium bromide, ethylmethanesulfonate, N-ethyl-N'-nitrosourea, fluorodeoxyuridine, ICR 191, N-methyl-N'-nitrosoguanidine, mitomycin C and UV irradiation. Only slight inducing effects were indicated in the case of methylmethanesulfonate, N-methyl-N'-nitrosourea and gamma irradiation, although not statistically significant. Negative results were found after treatment with 3-amino-benzamide, 5-azacytidine, bleomycin, 5-bromodeoxyuridine, 1,2-dichloroethane, ethylene oxide, etoposide, formaldehyde, hydrogen peroxide, methotrexate, propylene oxide, quercitin, sodium azide, 12-O-tetradecanoylphorbol-13-acetate, thymidine and a complex mixture consisting of a cigarette smoke condensate. Our results on chemically or physically induced recombinogenic effects in the endogenous SP5 hprt gene are in agreement with data obtained in non-endogenous gene systems based on transgenic cell lines containing integrates of tandem mutated tk or hygromycin resistance genes, but not completely consistent with findings on integrates based on the neo genes. This suggests that many factors influence the recombination process, including a difference in the mechanisms underlying inter- and intrachromosomal recombination. Consequently, the endogenous SP5/V79 system is suggested to be more representative than integrated systems for investigating induction of recombination, as well as for mechanistic studies of recombination at the molecular level, e.g. intrachromosomal recombination.
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PMID:Studies on intrachromosomal recombination in SP5/V79 Chinese hamster cells upon exposure to different agents related to carcinogenesis. 795 71

Tritrichomonas foetus, an anaerobic, flagellated protozoan parasite, is incapable of de novo purine nucleotide synthesis, and depends primarily on the salvage of purine bases from the host. The hypoxanthine-guanine-xanthine phosphoribosyltransferase (HGXPRTase) from this organism has been purified to homogeneity by ammonium sulfate precipitation and Sephacryl-HR100 gel filtration, followed by anion exchange FPLC. Hypoxanthine, guanine and xanthine phosphoribosyltransferase activities co-eluted in all the purification steps, suggesting that they are associated with the same enzyme protein. The molecular mass of the native protein, as estimated by gel filtration, is 24 kDa. The molecular mass estimated from sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) is also 24 kDa. Non-denaturing polyacrylamide gel electrophoresis of the purified protein, followed by activity staining with either [14C]hypoxanthine, [14C]guanine or [14C]xanthine, also demonstrates that the enzyme is a monomer of 24 kDa. This monomeric structure is distinctive from all the other reported PRTases which are either dimers or tetramers. Furthermore, unlike the mammalian HGPRTase, which is heat stable, the T. foetus enzyme is heat labile. Kinetic studies with the purified T. foetus HGXPRTase showed that the apparent Kms for hypoxanthine, guanine and xanthine were 4.1 microM, 3.8 microM and 52.4 microM respectively. This recognition of xanthine as a substrate by the parasite enzyme with only about a 10-fold higher Km value than those for hypoxanthine and guanine distinguishes it from the mammalian HGPRTase, which cannot use xanthine as a substrate, as well as the HGXPRTases of Eimeria tenella and Plasmodium falciparum, which are dimers, with xanthine about 100-times less proficient as a substrate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The hypoxanthine-guanine-xanthine phosphoribosyltransferase from Tritrichomonas foetus has unique properties. 823 11

In order to evaluate the anti-mutagenic effects of the potential chemoprotective compounds selenium and (S)-2-(3-aminopropylamino)ethylphosphorothioic acid (WR-1065), CHO AA8 cells were exposed to both compounds either individually or in combination prior to irradiation. Mutation frequency following exposure to 8 Gy was evaluated by quantitation of the mutations detected at the hprt locus of these cells. Protection against radiation-induced mutation was observed for both 30 nM sodium selenite or 4 mM WR-1065. In addition, the protection against mutation induction provided by the combination of these agents appeared additive. In contrast, sodium selenite did not provide protection against radiation toxicity when provided either alone or in conjunction with WR-1065. In order to evaluate the possible mechanisms of the anti-mutagenic effects observed in these cells, glutathione peroxidase (GPx) activity was evaluated following exposure to the chemopreventative compounds. The addition of sodium selenite to the culture media resulted in a 5-fold increase in GPx activity, which was unaltered by the presence of the WR-1065. Northern analysis of RNA derived from these cells indicated that selenium supplementation resulted in a marginal increase in the mRNA for the cytosolic GPx (GSHPx-1) which was insufficient to account for the stimulation of GPx activity observed in cellular extracts. These results suggest that selenium and WR-1065 offer protection via independent mechanisms and that GPx stimulation remains a possible mechanism of the anti-mutagenic effect of selenium.
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PMID:The inhibition of radiation-induced mutagenesis by the combined effects of selenium and the aminothiol WR-1065. 884 79

There is increasing evidence that endogenously generated reactive oxygen (ROS) and reactive nitrogen (RNS) species at sites of inflammation and in tumors may be genotoxic. We have developed a murine tumor model (MN-11) in which mutations at the hypoxanthine phosphoribosyltransferase (HPRT) locus, arising both in vitro and in vivo, can be detected. In the present report, we describe an in vitro study of the ability of ROS and RNS to induce mutations in our model system. 137Cs radiation and radiomimetic drugs caused a dose-dependent increase in mutant frequency. At D0, radiation induced about 170 mutants per 10(5) viable cells, compared to 50 and 95 for streptonigrin and bleomycin, respectively. H2O2 induced a lower frequency of mutants, 20-30 per 10(5), for enzymatically generated or bolus, respectively. For the following treatments, mutant frequency at 50% survival is shown. Incubation with human granulocytes induced a low frequency of mutants (about 15 per 10(5)). RNS was tested using a series of NO-donating drugs. Spermine/NO. induced cytotoxicity but no mutants while S-nitroso-N-acetylpenicillamine induced a low level, 10 per 10(5). Both release nitrogen monoxide spontaneously, with a t1/2 < 3 h. Glyceryl trinitrate and sodium nitroprusside are two drugs that were slowly metabolized by MN-11 cells (> 12 h). Glyceryl trinitrate induced about 20 per 10(5) while nitroprusside induced 50 per 10(5). Our results indicate that RNS can readily induce mutations detectable in MN-11 cells. At equicytotoxic doses, the induced mutant frequency varied considerably for different drugs, suggesting that different states of nitrogen monoxide (such as NO+ or NO.) may be generated and these may vary in their mutagenic/cytotoxic potential.
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PMID:Mutagenicity and cytotoxicity of reactive oxygen and nitrogen species in the MN-11 murine tumor cell line. 935 53


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