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Query: EC:2.4.2.8 (hypoxanthine-guanine phosphoribosyltransferase)
2,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

This paper compares erythrocyte nucleotide levels in patients with eight different inherited purine or pyrimidine enzyme defects identified amongst a variety of patients referred predominantly for investigation of severe neurological abnormalities, or immunodeficiency syndromes. Characteristic nucleotide patterns were identified only in the six disorders (four involving purine and two pyrimidine metabolism) where there was clinical evidence of cellular toxicity. They were frequently related to the accumulation of abnormal metabolites in body fluids. These erythrocyte studies have demonstrated the following. 1. ATP depletion is not an invariable feature of adenosine deaminase (ADA) deficiency, but the accumulation of the deoxyribonucleotides dATP, or dGTP, is diagnostic of ADA, or purine nucleoside phosphorylase (PNP) deficiency, respectively. The early accumulation of dATP in foetal blood is a valuable aid to prenatal diagnosis of ADA deficiency. 2. GTP depletion appears to reflect the degree of CNS involvement in hypoxanthine-guanine phosphoribosyltransferase and PNP deficiency, as well as PP-ribose-P synthetase superactivity. Other diagnostic changes involving increased pyrimidine sugars and increased or decreased NAD levels, or ZTP in Lesch Nyhan erythrocytes, show no consistent correlation with the clinical manifestations. 3. These altered nucleotide levels afford a novel means for carrier detection of the X-linked defect associated with aberrant PP-ribose-P synthetase activity, where no other test is yet available. Measurement of erythrocyte nucleotide levels thus provides a simple and rapid aid to diagnosis and may sometimes be essential for determining prognosis, carrier detection, or monitoring therapy. These characteristic 'fingerprints' may give some insight into the mechanism by which the abnormal gene product produces disease. Such grossly altered nucleotide levels could also result in loss of erythrocyte flexibility, increased destruction and hence the anaemia, or other clinical manifestations, observed in some disorders.
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PMID:Altered erythrocyte nucleotide patterns are characteristic of inherited disorders of purine or pyrimidine metabolism. 337 Aug 20

WI-L2 B lymphoblasts deficient in hypoxanthine-guanine phosphoribosyltransferase (HGPRT) excreted amounts of hypoxanthine two to three times larger than CEM T lymphoblasts deficient in HGPRT, despite similar growth rates. ATP consumption occurred at a higher rate in WI-L2 cells than in CEM cells when cultivated in a glucose-free buffer, because of higher RNA synthesis in WI-L2 cells. The introduction of actinomycin D and azaserine resulted in lower hypoxanthine excretion in WI-L2 cells than in CEM cells, not in parallel with changes of the adenylate pool size. When the energy charge was high, de novo purine synthesis was a major determinant for purine excretion. The adenylate pool ratio (AMP/ATP) change caused by the introduction of oligomycin was greater during ATP depletion and recovery in WI-L2 cells than in CEM cells. WI-L2 cells were observed to have AMP deaminase activity three to four times higher than CEM cells. The major component of AMP deaminase in these cells was liver type. The higher rate of RNA synthesis caused greater changes of (AMP/ATP) and required higher AMP deaminase activity for recovery. When the energy charge was low, AMP deaminase was a major determinant for purine excretion.
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PMID:Major determinants of purine excretion from human lymphoblasts. 343 82

Studies with purified enzymes have shown that 2'-deoxycoformycin (dCF) is a potent and selective inhibitor of adenosine deaminase (ADA). Specificity of dCF's effects on adenosine metabolism in intact human skin fibroblasts was investigated by examining the isotopic flux from exogenous [14C] adenosine to metabolic products in hypoxanthine phosphoribosyltransferase deficient (HPRT-) cells which cannot recycle hypoxanthine. Apparent ADA activity (as estimated by isotopic flux to inosine and hypoxanthine) was profoundly inhibited by dCF (with at least 50% inhibition at 10(-8) M and 95% inhibition at 10(-5) M dCF). The degree of inhibition was similar at various exogenous adenosine concentrations ranging from 1 to 400 microM. Some inhibition of isotopic flux to adenine nucleotides (an ADA independent process in HPRT- cells) could be demonstrated, but only in media containing high concentrations of adenosine. Even at 400 microM adenosine, the highest concentration employed, isotopic flux to adenine nucleotides was unaffected by concentrations of dCF below 10(-6) M, and only 30% inhibition was achieved with 10(-5) M dCF. Inhibition of adenosine phosphorylation to AMP appears to be the most likely explanation for dCF inhibition of isotopic flux from [14C] adenosine to adenine nucleotides, probably due to substrate inhibition of adenosine kinase by high levels of intracellular adenosine produced when ADA is inhibited by dCF. No evidence for dCF inhibition of either adenosine transport or phosphorylations within the adenine nucleotide pool (from AMP to ADP or from ADP to ATP) was found. Thus, at physiological levels of exogenous adenosine (0.03 to 2.6 microM), dCF appears to be a potent and highly specific inhibitor of ADA in human skin fibroblasts.
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PMID:Specificity of 2'-deoxycoformycin inhibition of adenosine metabolism in intact human skin fibroblasts. 348 39

Nucleoside and nucleobase transport and metabolism were measured in ATP-depleted and normal Aedes albopictus mosquito cells (line C-7-10) by rapid kinetic techniques. The cells possess a facilitated diffusion system for nucleosides, which in its broad substrate specificity and kinetic properties resembles that present in many types of mammalian cells. The Michaelis-Menten constant for uridine transport at 28 degrees C is about 180 microM. However, the nucleoside transporter of the mosquito cells is resistant to inhibition by nmolar concentrations of nitrobenzylthioinosine and the cells lack high affinity nitrobenzylthioinosine binding sites. The cells also possess an adenine transporter, which is distinct from the nucleoside transporter. They lack, however, a hypoxanthine transport system and are deficient in hypoxanthine phosphoribosyltransferase activity, which explains their failure to efficiently salvage hypoxanthine from the medium. The cells possess uridine and thymidine phosphorylase activities and, in contrast to cultured mammalian cells, efficiently convert uracil to nucleotides. An adenosine-resistant variant (CAE-3-6) of the C-7-10 cell line is devoid of significant nucleoside transport activity but transports adenine normally. Residual entry of various nucleosides into these cells and of hypoxanthine and cytosine into wild type and mutant cells is strictly non-mediated. The rate of permeation of various nucleosides and of hypoxanthine into the CAE-3-6 cells is related to their hydrophobicity. Uridine permeation into CAE-3-6 cells exhibits an activation energy of about 20 kcal/mol. At high uridine concentrations permeation is sufficiently rapid to partly overcome the limitation in nucleoside salvage imposed by the nucleoside transport defect in these cells.
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PMID:Nucleoside and nucleobase transport and metabolism in wild type and nucleoside transport-deficient Aedes albopictus cells. 381 94

When normal fibroblasts were incubated in media containing various initial concentrations of [8-14C]adenosine, ranging from 0.25 to 400 microM, under conditions where product formation was linear, greater than 90% of the intracellular label was found in adenine nucleotides, largely in the form of ATP, less than 1% of the intracellular label appeared in the nucleic acids, the remaining intracellular label was found in adenosine, inosine, and hypoxanthine, and the media contained two labeled products, inosine and hypoxanthine. Production of labeled inosine and hypoxanthine from adenosine was considerably lower in adenosine deaminase (ADA)-deficient cells than in normal cells and virtually eliminated in normal cells by the presence of 1 microM deoxycoformycin (a potent ADA inhibitor), suggesting that labeled inosine and hypoxanthine production requires ADA activity. Initial rates of deamination (inosine and hypoxanthine formation) and phosphorylation (adenine nucleotide formation) were estimated by examining the metabolic fate of [8-14C]adenosine in hypoxanthine phosphoribosyltransferase-deficient cells, which cannot recycle hypoxanthine. The estimate of the initial rate of phosphorylation exceeded that of deamination only at the lowest adenosine concentration examined (0.25 microM). The ratio of deamination to phosphorylation rose from approximately 1 at 0.41 microM to approximately 15 at 400 microM extracellular adenosine.
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PMID:Adenosine metabolism in human skin fibroblasts. 388 Oct 43

It has previously been found that there is a synergistic effect of free purine bases and low concentrations of dialyzed platelet extract on net synthesis of DNA in serum-starved fibroblast-like mouse L-cells. Experiments with a mutant line of L-cells that was deficient in hypoxanthine phosphoribosyl transferase (EC 2.4.2.8) indicated that purine bases had a stimulatory effect only if they were incorporated into cellular ribonucleotides. In the present paper it was shown that platelet extract induced the incorporation of hypoxanthine or adenine into both ATP and DNA. The induced net synthesis of DNA appears to take place in the nuclei and it requires that platelet extract is present in the medium only initially while free purine bases have to be present only later in the period of the experiment when DNA is being synthesized. The induction of both incorporation of free purine bases into DNA and ATP and of net DNA synthesis is dependent on heat-labile components in platelet extract. The extract cannot be substituted for by platelet derived growth factor.
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PMID:On the mechanism of action of free purine bases on DNA synthesis in serum-starved L-cells treated with platelet extract. 400 70

1. It has been reported that the rate of purine nucleotide synthesis de novo in the immature rat uterus is doubled at 6h after administration of oestradiol-17beta. The present work confirms an increased incorporation of glycine and adenine into uterine nucleotides between 2 and 6h after hormone treatment and investigates the mechanism of this response. 2. Activation of regulatory enzymes is unlikely to promote increased nucleotide synthesis: the activities of 5-phosphoribosyl 1-pyrophosphate amidotransferase (EC 2.4.2.14) and adenine phosphoribosyltransferase (EC 2.4.2.7) are the same in uterine extracts from control and oestrogen-treated rats. 3. Therefore it was proposed that oestradiol might promote an increased supply of a rate-limiting substrate. The low oestrogen-sensitive rate of AMP synthesis from adenine and endogenous 5-phosphoribosyl 1-pyrophosphate in the intact uterus compared with the high, oestrogen-insensitive rate in uterine extracts supplemented with 5-phosphoribosyl 1-pyrophosphate is evidence that the supply of 5-phosphoribosyl 1-pyrophosphate limits purine nucleotide formation and may increase after hormone treatment. This proposal is supported by the decrease in AMP synthesis in the whole tissue in the presence of guanine and 7-amino-3-(beta-d-ribofuranosyl)pyrazolo[3,4-d]pyrimidine (formycin). These compounds do not inhibit adenine uptake or adenine phosphoribosyltransferase activity, but they both decrease the availability of 5-phosphoribosyl 1-pyrophosphate, the former by promoting its utilization by hypoxanthine/guanine phosphoribosyltransferase (EC 2.4.2.8) and the latter by inhibiting its synthesis from ribose 5-phosphate and ATP by ribose 5-phosphate pyrophosphokinase (EC 2.7.6.1). 4. It is unlikely that the increased availability of 5-phosphoribosyl 1-pyrophosphate results from hormonal stimulation of ribose 5-phosphate formation. Methylene Blue and phenazine methosulphate both increase ribose 5-phosphate without altering the supply of 5-phosphoribosyl 1-pyrophosphate. 5. The activity of ribose 5-phosphate pyrophosphokinase is low in uterine extracts and increases rapidly in response to oestradiol. Therefore the hormonal activation of the routes of purine nucleotide synthesis both de novo and from preformed precursors may be due, at least in part, to an increased availability of the common rate-limiting substrate 5-phosphoribosyl 1-pyrophosphate, mediated by activation of ribose 5-phosphate pyrophosphokinase.
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PMID:A possible role for 5-phosphoribosyl 1-pyrophosphate in the stimulation of uterine purine nucleotide synthesis in response to oestradiol-17 . 434 97

1. The purine bases adenine, hypoxanthine and guanine were rapidly incorporated into the nucleotide fraction of Ehrlich ascites-tumour cells in vivo. 2. The reaction of 5'-phosphoribosyl pyrophosphate with adenine phosphoribosyltransferase from ascites-tumour cells (K(m) 6.5-11.9mum) was competitively inhibited by AMP, ADP, ATP and GMP (K(i) 7.5, 21.9, 395 and 118mum respectively). Similarly the reactions of 5'-phosphoribosyl pyrophosphate with both hypoxanthine phosphoribosyltransferase and guanine phosphoribosyltransferase (K(m) 18.4-31 and 37.6-44.2mum respectively) were competitively inhibited by IMP (K(i) 52 and 63.5mum) and by GMP (K(i) 36.5 and 5.9mum). 3. The nucleotides tested as inhibitors did not appreciably compete with the purine bases in the phosphoribosyltransferase reactions. 4. It was postulated that the purine phosphoribosyltransferases of Ehrlich ascites-tumour cells may be effectively separated from the adenine nucleotide pool of these cells.
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PMID:Inhibition of purine phosphoribosyltransferases from Ehrlich ascites-tumour cells by purine nucleotides. 596 81

1. The total activity of adenine phosphoribosyltransferase/liver of mice remained constant from 1 to 16 days after birth despite a fourfold increase in liver weight. The total activity of this enzyme increased fivefold from 16 to 36 days and then remained relatively constant at least until 96 days after birth. Total hypoxanthine-phosphoribosyltransferase activity/liver steadily increased between 1 and 57 days after birth. 2. The mean K(m) of 5-phosphoribosyl pyrophosphate with adenine phosphoribosyltransferase was 10.1mum between 3 and 11 days, at 64 days and at 96 days after birth. Between 17 and 51 days the mean K(m) value was 3.0mum. The K(m) of 5-phosphoribosyl pyrophosphate with hypoxanthine phosphoribosyltransferase remained constant at 28.2mum between 2 and 64 days. 3. Adenine-phosphoribosyltransferase activity was stimulated between 15 and 83% by 60mum-ATP when extracts were made between 3 and 11 days, at 64 days or at 96 days after birth. Between 17 and 51 days ATP had little stimulatory effect on the activity of this enzyme. 4. AMP competed with 5-phosphoribosyl pyrophosphate in the reaction catalysed by adenine phosphoribosyltransferase. Liver extracts containing enzyme with a low value of K(m) for 5-phosphoribosyl pyrophosphate (3mum) had a K(m)/K(i) ratio approximately half that of extracts with a high value of K(m) (10mum). 5. The results indicate that two different forms of adenine phosphoribosyltransferase can exist in mouse liver at different stages of development. The physiological significance of these findings is discussed.
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PMID:The activities and kinetic properties of purine phosphoribosyltransferases in developing mouse liver. 604 7

1. The progress curves of adenine phosphoribosyltransferase and of hypoxanthine phosphoribosyltransferase activity plotted against 5-phosphoribosyl pyrophosphate concentration were hyperbolic in nature. The inhibition of the former enzyme by AMP and GMP and of the latter enzyme by IMP and GMP showed completely competitive characteristics. 2. The effect of temperature on the reaction of adenine phosphoribosyltransferase and of hypoxanthine phosphoribosyltransferase was examined. The energy of activation of the former enzyme decreased at temperatures greater than 27 degrees and that of the latter enzyme at temperatures greater than 23 degrees . For each enzyme, the change in the heat of formation of the 5-phosphoribosyl pyrophosphate-enzyme complex at the critical temperature was approximately equal to the change in the energy of activation but was in the opposite direction. The inhibitor constants with both enzymes in the presence of nucleotides varied in different ways with temperature from the Michaelis constants for 5-phosphoribosyl pyrophosphate indicating that different functional groups were involved in binding substrates and inhibitors. 3. ATP was found to stimulate adenine-phosphoribosyltransferase activity at concentrations less than about 250mum and to inhibit the enzyme at concentrations greater than 250mum. The stimulation was unaffected by 5-phosphoribosyl pyrophosphate concentration but the inhibitory effect could be overcome by increasing concentrations of this compound. At low concentrations ATP reversed the inhibition of adenine phosphoribosyltransferase by AMP and GMP to an extent dependent on their concentration. 4. The properties of adenine phosphoribosyltransferase changed markedly on purification. Crude extracts of ascites-tumour cells had Michaelis constants for 5-phosphoribosyl pyrophosphate and adenine 75 and six times as high respectively as those obtained with purified enzyme. ATP had no stimulatory effect on activity of the purified enzyme or on that of crude extracts heated 15min. or longer at 55 degrees . 5. It is suggested that at low concentrations ATP is bound to an ;activator' site which is separate from the substrate binding site of adenine phosphorytransferase and that at high concentrations ATP competes with 5-phosphoribosyl pyrophosphate at the active site of the enzyme.
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PMID:Studies on the nature of the regulation by purine nucleotides of adenine phosphoribosyltransferase and of hypoxanthine phosphoribosyltransferase from Ehrlich ascites-tumour cells. 606 4

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