EC:6.3.5.5 - FACTA Search

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Query: EC:6.3.5.5 (CPS)
1,262 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A combined genetic, biochemical, and immunological approach has clarified structural relationships involving the first three enzymes of de novo pyrimidine biosynthesis. A procedure involving antibody and protein A-Sepharose was used to isolate the enzymes carbamoyl-phosphate synthase [ATP:carbamate phosphotransferase (dephosphorylating, amido-transferring), EC 2.7.2.9], aspartate transcarbamoyltransferase (carbamoylphosphate:L-aspartate carbamoyltransferase, EC 2.1.3.2), and dihydro-orotase (L-5,6-dihydroorotate amidohydrolase, EC 3.5.2.3) from Chinese hamster ovary cell CHO-K1, the uridine-requiring auxotroph Urd(-)A, and selected Urd(-)A revertants. The enzymes of Urd(-)A and the Urd(-)A revertants were significantly altered in activity, native structure, and molecular weight from those of CHO-K1. The results presented permit the conclusion that (i) these three enzymes reside in a single multifunctional 220,000-dalton polypeptide; (ii) the aspartate transcarbamoyltransferase activity is located on a portion ( approximately 20,000 daltons) at one end of the polypeptide; (iii) this portion may also be required for monomers to aggregate into the multimeric from present in mammalian cells; (iv) the mutations in Urd(-)A and the Urd(-)A revertants lie in the structural gene for this multifunctional protein; and (v) increased sensitivity to proteases could account for the alterations in the structure of these enzymes in the mutants.
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PMID:Alteration in structure of multifunctional protein from Chinese hamster ovary cells defective in pyrimidine biosynthesis. 3 10

Mutants resistant to 5-fluorouracil, 5-fluorouridine and 5-fluorodeoxyuridine have been selected in Aspergillus nidulans. Growth tests combined with genetic analysis showed that mutations conferring resistance to fluoropyrimidines could occur in at least seven genes. Three of these fulE, fulF and furA were concerned with either the uptake of pyrimidines or their conversion to uridine monophosphate. The other four genes did not affect these functions. Mutations in fulA probably confer resistance by lowering ornithine transcarbamoylase, thereby making the normally arginine-specific carbamoyl phosphate pool available for increased uracil synthesis. Mutations in fulD may make the arginine-specific carbamoyl phosphate synthetase insensitive to inhibition or repression by arginine, and so lead to increased carbamoyl phosphate pool sizes, and increased uracil synthesis. Both fulA and fulD mutants suppress pyrA mutants which lack the uracil-specific carbamoyl phosphate synthetase. Mutations in fulB and fulC do not suppress pyrA, and so may act more directly to increase uracil synthesis. The synthesis of aspartate carbamoyl transferase in fulB7 strains is not repressed by uracil. fulC mutants are closely linked to the pyrA, B, C, N region which codes for the first two enzymes of pyrimidine biosynthesis, and may result in these enzymes being less sensitive to inhibition by uracil.
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PMID:Pyrimidine biosynthesis in Aspergillus nidulans. Isolation and characterisation of mutants resistant to fluoropyrimidines. 12 29

The purimidine-3 locus of Neurospora crassa specifies two enzyme activities, pyrimidine-specific carbamyl phosphate synthetase (CPSpyr) and aspartate transcarbamylase (ATC). ATC is translationally distal. CPSpyr, but not ATC, is subject to feedback inhibition by uridine triphosphate (UTP). To investigate the location of the feedback-specific region within the locus, inhibition of a number of pyr-3 alleles by UTP was investigated. All CPS+ ATC- polar alleles, revertants of CPS- ATC- polar alleles, and 5-fluorouracil-resistant mutants had normal UTP response. The location of the feedback-specific region is in or close to the CPS-specific region.
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PMID:The location of the feedback-specific region with the pyrimidine-3 locus of Neurospora crassa. 18 23

The effects of unilateral nephrectomy (UN) and streptozotocin (STZ) diabetes on the activities of enzymes involved in uridine and cytidine synthesis in early renal growth (3-14 days after stimulus to growth) have been compared. Measurements were also made of glucose-6-phosphate dehydrogenase (G6PDH) and 6-phosphogluconate dehydrogenase (6PGDH) and of glucose 6-phosphate (G6P), UDP-glucose, and glycogen, in relation to phosphoribosyl pyrophosphate, ribonucleotide, and complex carbohydrate formation. There were striking differences in the activities of CTP synthetase, G6PDH, and 6PGDH in the two conditions, with a three-fold increase in all three enzymes at 3 and 5 days and a two-fold increase above basal values at 14 days of STZ diabetes. The UN group showed no significant change in CTP synthetase at any stage and the activity of G6PDH and 6PGDH only kept pace with renal growth. Changes in routes of uridine synthesis were less marked, with a more rapid rise in carbamoyl-phosphate synthetase (glutamine) and a lesser response of dihydroorotate dehydrogenase in the UN relative to the STZ-diabetic groups. The enzymes of complex II and of uracil phosphoribosyltransferase showed essentially similar patterns during renal hypertrophy in UN and STZ diabetes. The parallel increase in CTP synthetase, G6PDH, and 6PGDH in the kidney in diabetes, also known to increase in growth situations in hepatomas and in renal tumors, is discussed in relation to hormone signals involved in renal growth. The importance of the concentration of CTP, and thus of CTP synthetase, in the CTP-cytidyltransferase reaction, an enzyme with a high Km for CTP, makes the present observation of the striking increase in CTP synthetase in STZ diabetes of particular interest in relation to phosphatidylcholine formation and hormone signal transduction.
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PMID:Uridine and cytidine nucleotide synthesis in renal hypertrophy: biochemical differences in response to the growth stimulus of diabetes and unilateral nephrectomy. 138 Dec

1. Addition of concanavalin A to T-cell lymphocytes from rat cervical lymph nodes increases the activity of glutaminase within 1 h and those of carbamoyl-phosphate synthase II and aspartate transcarbamoylase within 3 h. There was a similar time course for the effects of concanavalin A on rates of glutamine utilization, which was increased within 1 h, and on pyrimidine nucleotide synthesis, which was increased by 40% at 2 h and by 100% at 3 h. 2. A delay in the addition of glutamine to the culture medium after addition of concanavalin A caused a decrease in [3H]thymidine incorporation only after 4-6 h. In the absence of glutamine, delay in addition of guanosine or inosine caused a decrease in [3H]thymidine incorporation only after 6-8 h after the addition of concanavalin A. 3. In contrast, a delay in addition of adenosine or uridine to the culture medium had an immediate effect (i.e. within 2 h) on the rate of incorporation of [3H]thymidine. It is suggested that adenosine and uridine have specific effects on proliferation via specific receptors for these nucleosides in the membrane.
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PMID:The effect of time of addition of glutamine or nucleosides on proliferation of rat cervical lymph-node T-lymphocytes after stimulation by concanavalin A. 189 39

A study was made of the in vivo effects of equitoxic doses of AT-125 and 5-FU combination, being administered either simultaneously (% ILS 152) or with a 6-h pretreatment with AT-125 (% ILS 184). To examine the biochemical basis for the scheduled synergism, measurements were made of the concentration of PRPP, the specific activities of CPS II, cytidine, thymidine, uridine, deoxyuridine kinases, and fluorinated nucleotide formation in P388 tumors and the small intestine. Two hours after in vivo simultaneous treatment of mice bearing tumors the concentration of PRPP increased 9- and 6-fold above baseline in the tumor and the small intestine, respectively. In the AT-125 pretreatment arm the concentration of PRPP increased 18- and 7-fold above baseline in the tumor and the small intestine, respectively. CPS II activity was reduced to 28%-18% of control in the tumors in the simultaneous and pretreatment groups, respectively, whereas it remained unchanged in the small intestine. Specific activities of cytidine kinase (5.5 +/- 1), thymidine kinase (4.0 +/- 1.6), uridine kinase (35.6 +/- 6.5), and deoxyuridine kinase (2.4 +/- 1.1) nmol/mg protein/h remained unchanged with treatment. In concert with the increased intratumor concentration of PRPP, fluorinated nucleotide formation was proportionally increased in the treatment arms. These results indicate the importance of drug scheduling of the above two agents in treating P388 leukemia.
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PMID:Biochemical mechanisms for the scheduled synergism of (alpha S, 5S)-2 amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid and 5-fluorouracil in P388 leukemia. 240 73

1. At the lowered concentrations of 0.5 mM ATP and 1.5 mM MgCl2, 2.0 mM UTP, UDP and UMP inhibited the activity of Crithidia fasciculata carbamoyl-phosphate synthetase II by about 65, 80 and 40% respectively. 2. The result suggests that feedback inhibition of the activity by uridine nucleotides is a mechanism of regulation of the de novo pyrimidine biosynthetic pathway in C. fasciculata. 3. ADP, AMP and CDP inhibited the activity (about 70, 40 and 40%). 4. Excess Mg2+ at around 1 mM, relative to the ATP concentration, was required for the maximum activity. 5. 5-Phosphoribosyl 1-pyrophosphate had no significant effect on the activity under various conditions examined.
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PMID:Regulatory properties of carbamoyl-phosphate synthetase II from the parasitic protozoan Crithidia fasciculata. 244 85

The arginine-independent, de novo biosynthetic pathway of pyrimidines in Dictyostelium discoideum is initiated by a class II carbamoyl-phosphate synthetase (EC 6.3.5.5) specific for pyrimidine biosynthesis which utilized L-glutamine as its N donor and was partially inhibited by both UTP and CTP. The second step in the de novo pathway was provided by an unregulated aspartate transcarbamoylase (EC 2.1.3.2) which primarily appeared as a multimeric enzyme of 105 kilodaltons. The next enzyme, dihydroorotase (EC 3.5.2.3), was approximately 90-100 kilodaltons. Although the early enzymatic activities of the pyrimidine pathway appeared to reside in independent protein complexes, various unstable molecular species were observed. These structural variants may represent proteolytic fragments of a multienzyme complex. In addition to de novo synthesis, the amoeba demonstrated the capacity for salvage utilization of uracil, uridine, and cytidine. Upon starvation on a solid substratum, axenically grown amoebas began a concerted developmental program accompanied by a restructuring of nucleotide metabolism. The absolute levels of the ribonucleotide pools droppedby 98% within 30 h; however, both the adenylate energy charge and the GTP/ATP ratios were maintained for 50 h after the initiation of development. The maintenance of these metabolic energy parameters required the tight cell-cell contact necessary for development, and the capacity for pyrimidine metabolism was maintained throughout developmental morphogenesis.
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PMID:Characterization of pyrimidine metabolism in the cellular slime mold, Dictyostelium discoideum. 256 62

Carbamyl phosphate (CP) is synthesized in the liver by two separate enzymes, CPS I and CPS II. CPS I, an intramitochondrial enzyme involved in ureogenesis, has a relative activity of 500- to 1000-fold greater than CPS II, a cytoplasmic enzyme which initiates the sequence of reactions for pyrimidine biosynthesis. The contributions of NH4Cl (substrate for CPS I) ang glutamine (substrate for CPS II) as precursors for pyrimidine biosynthesis in isolated hepatocytes were compared by measuring their effect on uracil nucleotide pool size, the incorporation of NaH14CO3 into these pools, and the accumulation of orotic acid. Physiological concentrations of NH4Cl caused a marked stimulation of incorporation of radioactivity into uracil nucleotides (6-fold increase at 0.5 mM NH4Cl), and radioactive orotate appeared in both the cells and the medium. In contrast, glutamine (at concentrations up to 10 mM) had no effect on the incorporation of radioactivity into uracil nucleotides, and no orotic acid was detected. Uracil nucleotide pools were expanded up to 50% by low levels of NH4Cl, but there was no expansion of this pool in the presence of added glutamine. NH4Cl-driven pyrimidine de novo biosynthesis was insensitive to feedback inhibition by an expanded uracil nucleotide pool, to galactosamine treatment, and to acivicin treatment, indicating that NH+4 stimulated pyrimidine biosynthesis as a result of CP synthesis by mitochondrial CPS I. The consequence of intramitochondrially produced CP being available for pyrimidine biosynthesis is that the controlling step of this pathway (CPS II) is bypassed. The appearance of orotic acid following NH4Cl stimulation indicated that the rate-controlling step of hepatic de novo pyrimidine synthesis under these conditions was orotate phosphoribosyl transferase. These data indicate that, at physiological concentrations of NH+4, the majority of uracil nucleotides synthesized in isolated rat hepatocytes was derived from intramitochondrially generated CP. The effect of NH4Cl on the output of uridine by the isolated perfused rat liver was examined. In the presence of a single addition of 20 mM NH4Cl, the excretion of uridine was increased from 100-200 to 375 nmol h-1 g-1 liver and orotic acid was released into the circulating perfusate reaching a maximum of 2 microM (in 220 ml of perfusate) after 2 h. With 40 mM NH4Cl, uridine export was increased to 450 nmol h-1 g-1 and a maximum of 5 microM orotic acid was released into the perfusate after 2 h.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Influence of ammonium ions on hepatic de novo pyrimidine biosynthesis. 298 2

The in vivo actions of two antimetabolites, acivicin (NSC-163501) and tiazofurin (NSC-286193), were examined on the enzymic programs of rat bone marrow. From the bone marrow of the femurs, 100,000 g supernatant fractions were prepared; enzymic activities were measured by isotopic assays, and cellularity was determined. In the normal bone marrow, the specific activities of pyrimidine de novo synthetic enzymes, CDP reductase, dTMP synthase, CTP synthase, carbamoyl-phosphate synthase II (synthase II), orotidine 5'-phosphate decarboxylase and aspartate carbamoyltransferase, were 1, 2.7, 5, 10, 63 and 601 nmol/hr/mg protein, respectively, whereas those of the salvage enzymes, deoxycytidine, thymidine, cytidine and uridine kinases were 3, 43, 149, and 367 nmol/hr/mg protein, respectively. In purine biosynthesis, the activities of the de novo synthetic enzymes, IMP dehydrogenase, formylglycinamidine ribonucleotide (FGAM) synthase, GMP synthase, amidophosphoribosyl-transferase (AT) and adenylosuccinate synthase were 16, 8, 107, 78 and 124 nmol/hr/mg protein, respectively, and those of the salvage enzymes, adenine, hypoxanthine and guanine phosphoribosyl-transferases, were 340, 407, and 1018 nmol/hr/mg protein, respectively. The sequence of events was elucidated after a single i.p. injection of acivicin (5 mg/kg) or tiazofurin (200 mg/kg). Within 2 hr after acivicin injection, CTP, GMP and FGAM synthases lost 85-90%, while AT and synthase II lost 50 and 80%, respectively, of their activities. The activities rose to near normal range by 72-96 hr. The bone marrow cellularity decreased, reaching a nadir at 24 and 48 hr, and returning to normal range by 72 and 92 hr; thymidine kinase activity followed a similar pattern. Tiazofurin injection depressed IMP dehydrogenase activity to 20% by 2 hr with a rebound to normal range by 48 and 72 hr. The cellularity decreased more slowly, reaching its lowest point at 24 hr and returning to normal range at 72 hr. For acivicin the marked depletion of the activities of the glutamine-utilizing enzymes and for tiazofurin that of IMP dehydrogenase might account, in part at least, for the bone marrow toxicity of these antimetabolites. Because of the presence in the bone marrow of high activities of purine and pyrimidine salvage enzymes, it should be possible to design methods utilizing nucleosides and nucleobases to protect the bone marrow from the action of antimetabolites.
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PMID:Enzymic programs of rat bone marrow and the impact of acivicin and tiazofurin. 334

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