Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:6.3.5.5 (CPS)
 1,262 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A single injection of the anti-glutamine drug, acivicin (NSC 163501), in tumor-bearing rats in 30 min decreased the activities of amidophosphoribosyltransferase, carbamoyl-phosphate synthetase II and CTP synthetase to 56, 50, and 7% of those of the controls. By 1 hr the activities were down to 32, 13 and 3% and they remained low for 12 hr, after which they slowly returned towards normal range in 72 hr. The decline of the activity of CTP synthetase (a loss of 80% in 10 min) was the most rapid, and the activity only returned to 60% of the controls by 3 days after the acivicin injection. In the hepatoma the concentrations of ATP and UTP changed little, but those of GTP and CTP rapidly decreased, reaching at the lowest point 32 and 2%, respectively, of control values 2 hr after acivicin; concentrations started to rise at 12 hr, reaching normal levels by 48 hr. The drop in enzyme activities preceded the decline in the pools of GTP and CTP. The behavior of enzyme activities and nucleotide concentrations in the host liver had a pattern similar to that in the hepatoma; however, the changes were less extensive than those in the tumor. The differential response between tumor and liver is attributed, in part at least, to the tissue L-glutamine concentration which in the hepatoma (0.5 mM) was 9 times lower than in the liver (4.5mM). The selectivity of acivicin action in inhibiting glutamine-utilizing enzymes is also demonstrated by the lack of effect on aspartate carbamoyltransferase, an enzymic activity which resides in the same complex as that of carbamoyl-phosphate synthetase II. The rapid decline in the activities of glutamine-utilizing enzymes is attributed to an inactivation of the enzymes by acivicin which functions as an active sitedirected affinity analog of L-glutamine. The rapid modulation of the enzymic phenotype and ribonucleotide concentrations by acivicin provides a useful tool for elucidating the role of enzymic and nucleotide imbalance in the commitment of cancer cells to replication and in the targeting of anticancer chemotherapy.
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PMID:Rapid in vivo inactivation by acivicin of CTP synthetase, carbamoyl-phosphate synthetase II, and amidophosphoribosyltransferase in hepatoma. 707 46

The antitumor drug acivicin, L-(alphaS,5S)-alpha-amino-3-chloro-4,5-dihydro-5-isoxazoleacetic acid, in vivo irreversibly inactivated carbamoyl-phosphate synthetase II(glutamine-dependent)(EC 6.3.5.5), the first and rate-limiting enzyme of de novo pyrimidine nucleotide biosynthesis, in transplantable rat hepatoma and host liver. With two injections of 0.5 mg acivicin per 100 g body weight to one group and two injections of 5 mg to another group, enzyme activity decreased to 20 and 1% in hepatoma and to 99 and 31% in liver respectively. Aspartate carbamoyltransferase (EC 2.1.3.2) activity was not affected. Acivicin in vitro selectively inactivated glutamine-dependent activity of the synthetase II from the hepatoma and liver, with an inactivation constant (Kinact) of 90 microM and a minimum inactivation half-time (T) of 0.7 min. The inactivation velocity with 10 microM acivicin was 5.0-fold stimulated by 2 mM MgATP and 18.4-fold by 2 mM MgATP plus 16.7 mM bicarbonate. MgATP at 0.5 mM caused half-maximum stimulation of the inactivation velocity. Under in vitro conditions, L-glutamine (1 mM) protected the enzyme from inactivation by 10 microM acivicin. The synthetase activity was protected in vitro by 6 mM concentrations for glycine (84%), L-glutamate (59%) and L-aspartate (51%) and by 0.5 mM UTP (35%) from inactivation by 20 microM acivicin. The results are compatible with the suggestion that acivicin is an active site-directed affinity analog of L-glutamine.
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PMID:In vivo inactivation by acivicin of carbamoyl-phosphate synthetase II in rat hepatoma. 708 74

All the five enzymes of urea synthesis and the formation of urea in vitro can already be demonstrated in human liver as early as the 9th week of fetal development. At this stage the activity of carbamoyl phosphate synthetase is the highest, whereas that of ornithine carbamoyltransferase is the lowest as compared to those in the adult. The kinetic parameters of the urea cycle enzymes are the same in fetal liver as in adult liver, except that the Km values of ornithine carbamoyltransferase for L-ornithine are 3.5 mM and 0.42 mM in the fetus and in adult liver, respectively. Urea formation in vivo seems to begin in the second half of fetal life, and a gradual increase can be detected in the activity of the enzymes of urea synthesis. The activity of ornithine decarboxylase, the glutamine-dependent carbamoyl phosphate synthetase and aspartate carbamoyltransferase, however, changes in the opposite direction. The concentration of carbamoyl phosphate and aspartate remains constant, but that of ornithine gradually decreases during ontogenesis. The ornithine, carbamoylphosphate and aspartate pools are probably utilized in the polyamine, pyrimidine and urea syntheses at varying rates.
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PMID:Urea cycle enzymes in human liver: ontogenesis and interaction with the synthesis of pyrimidines and polyamines. 708 58

The inhibitory activities of two oncolytic amino acid analogs, acivicin and N-(phosphonacetyl)-L-aspartate, on pyrimidine biosynthesis have been examined in a murine tumor line, the Lewis lung carcinoma. Acivicin, an antimetabolite elaborated by Streptomyces sviceus, inhibits a spectrum of L-glutamine utilizing enzymes including carbamoyl phosphate synthetase II, the inaugurating enzyme of de novo pyrimidine biosynthesis. Profound inhibition of carbamoyl phosphate synthetase II activity by acivicin is demonstrated in vitro as well as in vivo. N-(Phosphonacetyl)-L-aspartate, a rationally-designed transition-state analog of the reaction catalyzed by L-aspartate transcarbamylase, the second enzyme of the pathway, is a potent and specific inhibitor of L-aspartate transcarbamylase. Both agents, at therapeutic doses, exert marked inhibitions of their respective target enzymes and impede flux through the pathway as monitored by inhibition of pyrazofurin-provoked accumulation of orotate and orotidine. Additionally, synergistic effects are observed when acivicin and N-(phosphonacetyl)-L-aspartate are used in combination, both in terms of biochemical and therapeutic endpoints. The salient features of the actions of these drugs on pyrimidine biosynthesis in the Lewis lung carcinoma are summarized in Table 6. Comparison of the effects of acivicin with those of N-(phosphonacetyl)-L-aspartate suggest divergent actions on nucleotide biosynthesis. In spite of its pronounced sensitivity to acivicin, carbamoyl phosphate synthetase II appears not to be a critical target for the antineoplastic activity of this drug.
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PMID:Effects of acivicin and PALA, singly and in combination, on de novo pyrimidine biosynthesis. 711 4

Addition of ammonium ions to isolated rat hepatocytes stimulated the rate of synthesis of pyrimidines. Isolation and quantification of pyrimidine nucleotides orotic acid and the acid-hydrolyzed product of carbamoyl-aspartic acid by ion-exchange chromatography and high-pressure liquid chromatography show a marked stimulation in the incorporation of [14C]bicarbonate in incubations with added ammonium ions. The incorporation into total uridine nucleotides (sigma UMP) was increased twofold in the presence of 5 mM ammonium ion, and approximately eightyfold into orotic acid. There was a parallel increase in labelling of carbamoylaspartic acid from undetectable to a level similar to that of orotic acid. The specific activity of urea formed during the incubations did not change during incubations or in the presence of ammonium ions confirming that the change in labelling of pyrimidine was not due to a change in the specific activity of precursor. Despite the stimulation in incorporation of label into pyrimidines there was no increase in the hepatocyte content of sigma UMP, which was 11.5 mumol/g dry weight, although the orotic acid content increased from 0.09 mumol/g dry weight in the absence of added ammonium ions (but in the presence of 2 mM L-glutamine) to 8.6 mumol/g dry weight with 5 mM ammonium ion. The stimulated incorporation of [14C]bicarbonate in the presence of 5 mM and 10 mM ammonium ion was shown to be due to a stimulated synthesis of carbamoyl phosphate, since greater than 80% of label in the uracil ring was present at position C-2. Incubation of hepatocytes in basal medium (Eagles) containing 2.5% foetal calf serum and 20 mM bicarbonate showed that there was a significant stimulation of pyrimidine synthesis with 1 mM ammonium ion. The stimulatory effect of ammonium ions on incorporation of bicarbonate into pyrimidines was almost completely reversed by 5 mM L-ornithine and was partially reversed by 1 mM L-ornithine. Evidence for a contribution of the urea cycle carbamoyl phosphate synthetase to pyrimidine synthesis is discussed.
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PMID:Effect of ammonium ion on pyrimidine synthesis de novo in isolated rat hepatocytes. 725 Jan 18

The L-glutamine- and N-acetyl-L-glutamate-dependent carbamoyl phosphate synthetase III present in liver of spiny dogfish (Squalus acanthias) has been purified to a high state of purity. The purified enzyme has a Mr congruent to 160,000 and is subject to self-association which is facilitated by the presence of MgATP, L-glutamine, and N-acetyl-L-glutamate. The enzyme exhibits hysteretic properties. The time course of the reaction is characterized by a lag or a burst in activity, depending upon preincubation conditions, which can last up to 30 min. The lag period can be eliminated by preincubating the enzyme at 26 degrees C (but not at 4 degrees C) in the presence of the above three ligands. Mg2+ in excess of that required to complex ATP as MgATP and N-acetyl-L-glutamate are both required for full activity. The requirement of K+ for activity can be replaced by NH4+, but not by Na+. Ammonia can act as a substrate in place of L-glutamine, but the maximal rate is much less than that which can be obtained with L-glutamine. The glutamine-dependent activity is inhibited by ammonia. Apparent Km values under optimal conditions for N-acetyl-L-glutamate, L-glutamine, MgATP, bicarbonate, and ammonia are 0.013 mM, 0.16 mM, 0.35 mM, 1.7 mM, and 2 mM, respectively. The apparent Km for N-acetyl-L-glutamate decreases when the concentration of L-glutamine increases, and vice versa. The apparent Km values for these two ligands are increased when urea is present at normal physiological concentrations (0.4 M), and the activity of the enzyme is significantly affected by changes in urea concentration. Compounds known to act as allosteric effectors on other glutamine-dependent carbamoyl phosphate synthetases had little or no effect on this enzyme. The properties of the enzyme are consistent with the view that the function of this carbamoyl phosphate synthetase III is related to the synthesis of urea which is retained in these species as a mechanism for osmoregulation.
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PMID:Purification and properties of the glutamine- and N-acetyl-L-glutamate-dependent carbamoyl phosphate synthetase from liver of Squalus acanthias. 729 55

Carbamoyl phosphate synthetase from Escherichia coli catalyzes the synthesis of carbamoyl phosphate from bicarbonate, ammonia, and two molecules of MgATP. The enzyme is composed of two nonidentical subunits. The small subunit catalyzes the hydrolysis of glutamine to glutamate and ammonia. The large subunit catalyzes the formation of carbamoyl phosphate and has the binding sites for bicarbonate, ammonia, MgATP, and the allosteric ligands IMP, UMP, and ornithine. The allosteric ligands are believed to bind to the extreme C-terminal portion of the large subunit. Truncation mutants were constructed to investigate the allosteric binding domain. Stop codons were introduced at various locations along the carB gene in order to delete amino acids from the carboxy-terminal end of the large subunit. Removal of 14-119 amino acids from the carboxy-terminal end of the large subunit resulted in significant decreases in all of the enzymatic activities catalyzed by the enzyme. A 40-fold decrease in the glutamine-dependent ATPase activity was observed for the delta 14 truncation. Similar losses in activity were also observed for the delta 50, delta 65, delta 91, and delta 119 mutant proteins. However, formation of carbamoyl phosphate was detected even after the deletion of 119 amino acids from the carboxy-terminal end of the large subunit. No allosteric effects were observed for UMP with either the delta 91 or delta 119 truncation mutants, but alterations in the catalytic activity were observed in the presence of ornithine even after the removal of the last 119 amino acids from the large subunit of CPS. Six conserved amino acids within the allosteric domain were mutated.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulatory changes in the control of carbamoyl phosphate synthetase induced by truncation and mutagenesis of the allosteric binding domain. 757 87

The structural and functional domains of Escherichia coli carbamoyl phosphate synthetase (CPS) have been identified by limited proteolysis. Incubation of CPS with several proteases, including trypsin, chymotrypsin, subtilisin and endoproteinase Asp-N, under native conditions, causes a time-dependent loss of enzymatic activity and the generation of a common fragmentation pattern. Amino-terminal sequencing studies demonstrated that the initial cleavage event by trypsin occurred at the carboxy-terminal end of the large subunit. The ultimate fragments produced in most of the proteolysis studies, 35- and 45-kDa peptides, were derived from areas corresponding to the putative ATP binding regions. Substrate protection studies showed that the addition of ligands did not affect the final fragmentation pattern of the protein. However, ornithine and UMP were found to significantly reduce the rate of inactivation by inhibition of proteolytic cleavage. MgATP and IMP provided modest protection whereas bicarbonate and glutamine showed no overall effect on proteolysis. Limited proteolysis by endoproteinase Asp-N resulted in the production of a fragment (or multiple fragments) which contained enzymatic activity but had lost all regulation by the allosteric ligands, UMP and ornithine. The small subunit has been shown to be protected from proteolysis by the large subunit. Proteolysis of the isolated small subunit resulted in the generation of a stable 31-kDa species which contained 10% of the original glutaminase activity. These studies demonstrate that a portion of the C-terminal end of the large subunit can be excised without entirely destroying the ability of CPS to catalyze the formation of carbamoyl phosphate.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mapping the structural domains of E. coli carbamoyl phosphate synthetase using limited proteolysis. 764 1

Carbamoyl-phosphate synthetase II (CPSase II), aspartate transcarbamoylase (ATCase), and dihydroorotase (DHOase) catalyze the first three steps of de novo pyrimidine nucleotide biosynthesis, respectively. In mammalian species, these three enzyme activities exist in the cytosol in liver and other tissues as a multifunctional complex on a single polypeptide called carbamoyl-phosphate synthetase-aspartate transcarbamoylase-dihydroorotase (CAD) in the order of NH2-CPSase II-DHOase-ATCase-COOH. Previous studies provided evidence that in Squalus acanthias (spiny dogfish) these enzymes are not expressed in liver and that they exist as separate entities in the cytosol of extra-hepatic tissues such as testes and spleen (Anderson, P. M. (1989) Biochem. J. 261, 523-529). Here we report that the genes for these three enzymes are expressed in testes as a single transcript analogous to CAD in mammalian species and that these genes are not expressed in liver at levels that can be detected by Northern blots or by the polymerase chain reaction. The absence of the pyrimidine pathway in the liver may be related to the exclusive localization of glutamine synthetase in the mitochondrial matrix which provides for efficient assimilation of ammonia as glutamine for urea synthesis in these ureoosmotic species; thus glutamine may not be available for CPSase II or other amidotransferase activities in the cytosol. The amino acid sequence deduced from the nucleotide sequence of the shark CAD cDNA reported here is very similar to CAD from other species; alignment with the hamster CAD sequence shows 77% identical residues.
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PMID:Nucleotide sequence and tissue-specific expression of the multifunctional protein carbamoyl-phosphate synthetase-aspartate transcarbamoylase-dihydroorotase (CAD) mRNA in Squalus acanthias. 777 74

The reactive cysteine residue within the small subunit of Escherichia coli carbamoyl phosphate synthetase has been identified using the technique of site-directed mutagenesis. Three cysteine residues have previously been found to react with N-ethylmaleimide (NEM) under controlled reaction conditions. Two of these cysteine residues are found on the large subunit, while the third cysteine is located on the small subunit. In the present investigation, Cys-248 of the small subunit has been identified as the residue that reacts with NEM in the presence of MgATP and bicarbonate. Three cysteine residues of the small subunit at positions 131, 214, and 248 were individually mutated to serine residues. These site-specific changes, in addition to N-ethylmaleimide-labeling studies, demonstrated that Cys-248 is the amino acid that reacts with N-ethylmaleimide. Substitution of Cys-248 of the small subunit with larger residues (Asp, Phe, Arg, and Trp) was conducted in order to more closely mimic the observed properties of the NEM-labeled enzyme. The partial glutaminase activity of the C248D mutant increased 40-fold relative to the wild-type enzyme, while the formation of carbamoyl phosphate using glutamine as a nitrogen source was completely abolished. Similar, but less dramatic, effects were observed for the other mutants, C248S, C248R, C248F, and C248W. There was good correlation between the extent of enhancement of the partial glutaminase activity and an uncoupling of the phosphorylation reactions that occur on the large subunit.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:A molecular wedge for triggering the amidotransferase activity of carbamoyl phosphate synthetase. 813 Feb 8


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