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)

The exact role of adenosine in the adenosine deaminase (EC 3.5.4.4) deficiency-related severe combined immunodeficiency disease has not been ascertained. We analysed the effects of adenosine, in the presence of the adenosine deaminase inhibitor, deoxycoformycin, on cell growth, cell phase distributions and intracellular nucleotide concentrations of cultured human lymphoblasts. Adenosine had a biphasic effect on cell growth and cell cycle distribution of a partial hypoxanthine phosphoribosyltransferase (EC 2.4.2.8) deficient MOLT-HPRT cell line. After 24 h of incubation, 60 microM adenosine inhibited cell growth more extensively than did 100 and 200 microM adenosine. The distribution of the MOLT-HPRT cells in the various phases of the cell cycle showed a similar biphasic pattern. Adenosine concentrations in the medium below 10 microM caused accumulation of adenine ribonucleotides and depletion of phosphoribosylpyrophosphate, UTP and CTP in the cells. This was associated with inhibition of cell growth. Medium adenosine concentrations above 10 microM neither resulted in accumulation of adenine ribonucleotides nor in inhibition of cell growth.
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PMID:Inhibition of lymphoid cell growth by adenine ribonucleotide accumulation. The role of phosphoribosylpyrophosphate-depletion induced pyrimidine starvation. 243 39

The mechanism of action of acivicin and tiazofurin was compared in hepatoma 3924A. The results were evaluated by assessing the impact of these drugs on primary targets, the activities of key enzymes, and on secondary and tertiary targets, the concentrations of pools of ribonucleotides and deoxyribonucleotides. The action of acivicin entails inhibition and inactivation of the key enzymes of glutamine utilization in the biosynthesis of purines and pyrimidines. As a result, the GTP and CTP pools were markedly depleted, whereas those of ATP and UTP were unaffected. Acivicin also markedly decreased the concentrations of all 4 deoxynucleoside triphosphates. The nucleotide pools returned to normal or near normal range within 2 to 3 days after a single acivicin injection. The pharmacologic targets of acivicin in anticancer chemotherapy include prominently the activities of glutamine-utilizing enzymes and the pools of GTP and CTP and all 4 dNTP's. These biochemical targets also serve as indicators of acivicin action in cancer cells. The action of tiazofurin in hepatoma cells entails the primary target, IMP dehydrogenase. The subsequent effects include marked enlargement of IMP and PRPP pools and depletion of the pools of GDP and GTP. The increased IMP concentration selectively inhibited the activities of hypoxanthine-guanine phosphoribosyltransferase, but did not affect that of adenine phosphoribosyltransferase. The markedly decreased GTP pool de-inhibited the activity of AMP deaminase which permitted the channeling of AMP to IMP. An important indicator of tiazofurin action is the prolonged depletion of dGTP pools and similar but less pronounced declines in the pools of dCTP and dATP. In contrast, dTTP pools were increased. The crucial biochemical targets and indicators of tiazofurin action in sensitive cancer cells include inhibition of IMP dehydrogenase, a decrease in the concentrations of GDP, GTP, dGTP, dCTP, dATP and marked rise in the pools of IMP, PRPP and dTTP. Measurements of the molecular targets and indicators of drug action should be helpful in identifying cancer cells and tissues sensitive or resistant to the action of acivicin or tiazofurin. Identification of the targets and indicators should also be helpful in the design of frequency of administration of the drugs in combatting animal and human neoplasia.
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PMID:Control of enzymic programs and nucleotide pattern in cancer cells by acivicin and tiazofurin. 620 92

From oocysts of the protozoan parasite Eimeria tenella, responsible for avian coccidiosis, we have partially purified and characterized a novel enzymic activity which specifically phosphorylates guanosine to GMP. The enzyme is able to use several phosphate donors, in the order: acetyl phosphate (Ac-P) > ATP > UTP > CTP > phosphoribosyl pyrophosphate (PRPP) > dUTP > or = dATP. The low specificity of this enzyme for the phosphate donor suggested that it be named guanosine phosphotransferase (GPTase). This enzyme is biochemically distinct from the previously described adenosine kinase (AK) and hypoxanthine/xanthine/guanine phosphoribosyltransferase (HXGPRTase), and may enable the parasite to synthesize guanine nucleotides under conditions of imbalance between adenine and guanine nucleotides. Because of its possible role in the purine salvage pathways, we have studied the effect of several guanine and guanosine analogues, recently synthesized in our laboratory, on the activity of GPTase in vitro. GPTase is specifically inhibited in the micromolar range by several substituted N2-phenylguanine bases. These results indicate that, as previously found for AK and HXGPRTase, GPTase could be a potential target for antiparasitic chemotherapy.
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PMID:Identification, partial purification and inhibition by guanine analogues of a novel enzymic activity which phosphorylates guanosine to GMP in the protozoan parasite Eimeria tenella. 813 33

Hypoxanthine-guanine phosphoribosyltransferase (EC 2.4.2.8.; HPRT) catalyzes the salvage synthesis of inosine-5'-monophosphate (IMP) and guanosine-5'-monophosphate (GMP) from the purine bases hypoxanthine and guanine, respectively. Complete deficiency of HPRT activity is associated with the Lesch-Nyhan syndrome (LNS), characterized by excessive purine production and severe neurological manifestations. The etiology of the metabolic consequences of HPRT deficiency is clarified, but that of the neurological manifestations is not yet understood. HPRT-deficient mice represent an experimental animal model of LNS. In search for a possible metabolic abnormality in LNS brains, connecting the neurological deficit to HPRT deficiency, the purine and pyrimidine nucleotide content of cultured neurons, prepared from HPRT-deficient transgenic mice, was now determined. The HPRT-deficient neuronal cultures exhibited a significantly elevated content of the pyrimidine nucleotides UTP (1.33-fold the normal level, p = 0.0002) and CTP (1.28-fold the normal level, p = 0.02), but normal content of the purine nucleotides ATP and GTP. This abnormality in neuronal pyrimidine nucleotide content may be associated with the pathophysiology of the neurological deficit in LNS.
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PMID:Elevated UTP and CTP content in cultured neurons from HPRT-deficient transgenic mice. 1085 40

The relationship between a complete deficiency of the purine enzyme hypoxanthine-guanine phosphoribosyltransferase and the neurobehavioural abnormalities in Lesch-Nyhan disease remains an enigma. In vitro studies using lymphoblasts or fibroblasts have evaluated purine and pyrimidine metabolism with conflicting results. This study focused on pyridine nucleotide metabolism in control and Lesch-Nyhan fibroblasts using radiolabelled salvage precursors to couple the extent of uptake with endocellular nucleotide concentrations. The novel finding, highlighted by specific culture conditions, was a marked NAD depletion in Lesch-Nyhan fibroblasts. ATP and GTP were also 50% of the control, as reported in lymphoblasts. A 6-fold greater incorporation of [(14)C]nicotinic acid into nicotinic acid- adenine dinucleotide by Lesch-Nyhan fibroblasts, with no unmetabolized substrate (20% in controls), supported disturbed pyridine metabolism, NAD depletion being related to utilization by poly(ADP-ribose) polymerase in DNA repair. Although pyrimidine nucleotide concentrations were similar to controls, Lesch-Nyhan cells showed reduced [(14)C]cytidine/uridine salvage into UDP sugars. Incorporation of [(14)C]uridine into CTP by both was minimal, with more than 50% [(14)C]cytidine metabolized to UTP, indicating that fibroblasts, unlike lymphoblasts, lack active CTP synthetase, but possess cytidine deaminase. Restricted culture conditions may be neccesary to mimic the situation in human brain cells at an early developmental stage. Cell type may be equally important. NAD plus ATP depletion in developing brain could restrict DNA repair, leading to neuronal damage/loss by apoptosis, and, with GTP depletion, affect neurotransmitter synthesis and basal ganglia dopaminergic neuronal systems. Thus aberrant pyridine nucleotide metabolism could play a vital role in the pathophysiology of Lesch-Nyhan disease.
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PMID:Severe pyridine nucleotide depletion in fibroblasts from Lesch-Nyhan patients. 1199 69