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Query: EC:2.4.2.7 (
adenine phosphoribosyltransferase
)
692
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Wild-type Friend mouse erythroleukaemia cells (clone 707) were compared with
adenine phosphoribosyltransferase
(
APRT
)-deficient mutant subclones (707DAP8 and 707DAP10) for sensitivity to cell killing and mutagenesis by ethyl methanesulphonate (EMS) and methyl methanesulphonate (MMS). Cells were exposed to 0-300 micrograms/ml EMS and to 0-20 micrograms/ml MMS for a period of 16 h. A slight difference was found between wild-type cells and the two
APRT
-deficient subclones in terms of sensitivity to cell killing by both mutagens. The
APRT
-deficient subclones were, however, significantly more sensitive than wild-type cells to mutagenesis to 5-bromo-2-deoxyuridine resistance and 6-thioguanine resistance by EMS and MMS. The
APRT
-deficient subclones were found to have significantly decreased levels of dATP and dTTP nucleotides and decreased levels of all four ribonucleoside triphosphates (ATP, GTP,
CTP
and UTP) relative to wild-type cells. Wild-type Friend cells were found to have insignificant levels O6-methylguanine-DNA methyl transferase and it is suggested that the increased mutagen sensitivity of
APRT
-deficient cells may be due to imbalance of deoxyribonucleoside triphosphate pools during DNA excision-repair processes, or more probably due to deficiency of ATP for ATP-dependent DNA excision-repair enzymes.
...
PMID:Nucleotide pools and mutagenic effects of alkylating agents in wild-type and APRT-deficient Friend erythroleukaemia cells. 198 59
The specific activity of
adenine phosphoribosyltransferase
(
APRT
) (
EC 2.4.2.7
) and adenosine phosphorylase (EC 2.4.2.-), two enzymes involved in the utilization of exogenous adenine, was measured in extracts of myxamoebae-swarm cells of Physarum flavicomum undergoing growth, microcyst formation (control), and during adenine inhibition of encystment. Both enzymes showed a higher specific activity in adenine-inhibited cells (AIC) compared to normal control (NC) or growing cells (GC). These experiments revealed that the specific activity of
APRT
was 7.1-, 5.3-, and 1.7-fold higher than that of adenosine phosphorylase in AIC, GC, and NC, respectively. This suggests a predominant role for the enzyme
APRT
in the salvage of adenine in this organism. The major route for the utilization of adenine thus seems to be by its direct conversion to AMP rather than via its riboside adenosine. HPLC analysis of the ribonucleotide triphosphates in cell extracts of GC, NC, and AIC revealed a 2.6- and a 3.3-fold increase in the ATP and GTP content, respectively, in the AIC compared with the NC cells. The ATP content in the GC was higher by a factor of 2.2 compared with the NC cells, while the GTP content in the GC was only 0.6 times that in the NC cells. UTP levels in AIC and GC were 1.3- and 1.4-fold higher than in the NC cells. In contrast, the
CTP
level in AIC was lower than in NC cells and was not detectable in the growing cells.
...
PMID:Adenine salvage enzymes and intracellular nucleotide triphosphate content in Physarum flavicomum amoebae during growth and development. 250 Oct 17
1. Adenine phosphoribosyltransferase was protected from inactivation on heating at 55 degrees by the presence of 5-phosphoribosyl pyrophosphate. ATP, adenine, AMP or GMP had no protective effect on the activity of this enzyme. The presence of either 5-phosphoribosyl pyrophosphate or ATP did not protect
adenine phosphoribosyltransferase
against the loss of ATP stimulation obtained by heating at 55 degrees . 2. At pH5.3 and 6.0
adenine phosphoribosyltransferase
was stimulated by a narrow range of ATP concentration (15-25mum). At pH6.5 and 7.0 maximum stimulation was obtained with 25-30mum-ATP, and at pH7.4, 8.2 and 8.85 maximum stimulation was obtained over a wide range of ATP concentrations (60-200mum). With extracts that had been heated for 30min. at 55 degrees no stimulation was observed at either pH5.3 or 7.4 with ATP concentrations up to 100mum. 3. Short periods of heating at 55 degrees (1, 2 or 5min.) increased the stimulation of
adenine phosphoribosyltransferase
obtained with various concentrations of ATP. 4. The addition of
CTP
, GTP, deoxy-GTP, deoxy-TTP or XTP to assay mixtures resulted in weak stimulation of adenine-phosphoribosyltransferase activity. 5. It is suggested that there are at least three different forms of
adenine phosphoribosyltransferase
, each with a different affinity for ATP.
...
PMID:Stimulation of adenine phosphoribosyltransferase by adenosine triphosphate and other nucleoside triphosphates. 606 33
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.
...
PMID:Control of enzymic programs and nucleotide pattern in cancer cells by acivicin and tiazofurin. 620 92
