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)

Experiments with carbamoyl phosphate synthetase (ammonia) in solution and in isolated mitochondria are reported which show the following. NH3 rather than NH4+ is the substrate of the enzyme. The apparent Km of NH3 for the purified enzyme is about 38 microM. The apparent Km for NH3 measured in intact isolated mitochondria is about 13 microM. This value was obtained for both coupled and uncoupled mitochondria and was unchanged when the rate of carbamoyl phosphate synthesis was increased 2-fold by incubating uncoupled mitochondria in the presence of 5 mM-N-acetylglutamate. According to the literature, the concentration of NH3 in liver is well below the measured apparent Km. On the basis of this and previous work we conclude that, quantitatively, changes in liver [NH3] and [ornithine] are likely to be the most important factors in the fast regulation of synthesis of carbamoyl phosphate and urea. This conclusion is consistent with all available evidence obtained with isolated mitochondria, isolated hepatocytes, perfused liver and whole animals.
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PMID:The apparent Km of ammonia for carbamoyl phosphate synthetase (ammonia) in situ. 403 55

Rats given a lethal dose (LD(99.9)) of ammonium acetate (10.8 mmol/kg of body weight) were protected to the extent of 85 and 76% when previously injected with N-carbamoyl glutamate or L-arginine, respectively, at a level of 4 mmol/kg of body weight. At a dose of 1 mmol/kg of body weight, L-arginine protected 24%, while N-carbamoyl-L-glutamate protected 61% of the animals. When a combination of N-carbamoyl-L-glutamate plus L-arginine (1 mmol each per kg of body weight) was injected, 100% of the rats were protected. The efficacy of N-carbamoyl-L-glutamate is related to its role as an activator of mitochondrial carbamoyl phosphate synthetase (EC 2.7.2.5) and its resistance to hydrolysis by tissue acylaminoacid acylase. N-Acetyl-L-glutamate, the naturally occurring and most effective activator of mitochondrial carbamoyl phosphate synthetase, was relatively ineffective in protection against lethal dose of ammonium acetate, because of its ready hydrolysis by acylaminoacid acylase. The findings reported provide a rational basis for the use of N-carbamoyl-L-glutamate plus L-arginine in the prevention and treatment of hyperammonemia in clinical conditions of liver disease and parental infusion of amino acids, and in feeding of urea supplements to ruminants.
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PMID:Ammonia intoxication in rats: protection by N-carbamoyl-L-glutamate plus L-arginine. 450 11

1. Carbamoyl phosphate synthetase activity of Phaseolus aureus extracts was assayed by coupling it to the catalytic subunit of Escherichia coli aspartate transcarbamoylase and determining the [(14)C]carbamoylaspartate so formed. The stability of the activity was improved by the addition of ornithine and dimethyl sulphoxide to the extraction medium. 2. The synthetase activity was found to utilize either glutamine or ammonia as amino donor, the Michaelis constants being 0.17+/-0.03mm and 6.1+/-1.0mm respectively. N-Acetylglutamate did not significantly alter the rate with either substrate, and azaserine inhibited the reaction with both amino donors to the same extent. 3. Ornithine was shown to stimulate the activity, and to counteract inhibition by UMP. The purine nucleotides IMP and GMP enhanced carbamoyl phosphate formation, whereas AMP had an inhibitory effect. 4. The Michaelis constant for carbamoyl phosphate was determined in concentrated extracts for both aspartate transcarbamoylase and ornithine transcarbamoylase activities, and was 0.13+/-0.03mm and 1.58+/-0.16mm respectively. The ratio of the activities of these two enzymes, determined at near-saturating substrate concentrations, was 1:3 (aspartate transcarbamoylase/ornithine transcarbamoylase). 5. It is concluded that in this plant tissue there is one enzyme, carbamoyl phosphate synthetase, supplying carbamoyl phosphate to both the pyrimidine and arginine pathways, that the pyrimidine pathway claims most of the available carbamoyl phosphate (depending on the concentration of the nucleotide effectors) when this intermediate is present at low concentrations; and that when the carbamoyl phosphate concentration is increased, possibly by ornithine stimulation, a larger proportion can be taken up by the arginine pathway.
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PMID:Pyrimidine nucleotide biosynthesis in Phaseolus aureus. Enzymic aspects of the control of carbamoyl phosphate synthesis and utilization. 457 94

Rat liver ornithine carbamoyltransferase appears to be located exclusively in the mitochondria; the activity that is found in the soluble fraction is indistinguishable from mitochondrial ornithine carbamoyltransferase by simple kinetic criteria, and seems to result from breakage of mitochondria during homogenization. Of several rat tissues studied, only the liver and the mucosa of small intestine contain significant amounts of ornithine carbamoyltransferase; the activity in intestinal mucosa is less than one thousandth of that in liver. Qualitatively, this distribution coincides with that of carbamoyl phosphate synthetase I and its cofactor, acetylglutamate. The rat liver contents of carbamoyl phosphate and ornithine were 0.1 and 0.15mumol/g wet wt. of tissue respectively. On the basis of these values, it is proposed that in vivo the ornithine carbamoyltransferase activity of liver may be much lower than its maximal activity in vitro might suggest.
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PMID:Citrulline synthesis in rat tissues and liver content of carbamoyl phosphate and ornithine. 482 31

Glutamine synthetase and glutamine- and acetylglutamate-dependent carbamoyl-phosphate synthetase, both of which are present in high concentrations in liver of urea-retaining elasmobranchs, have been found to be located exclusively in the mitochondria in liver from the representative elasmobranch Squalus acanthias. This observation is consistent with the view that the function of this unique carbamoyl-phosphate synthetase is related to urea synthesis, and that the initial nitrogen-donating substrate for urea synthesis in these species is glutamine rather than ammonia. The urea cycle enzymes, ornithine carbamoyltransferase and arginase, are also located in the mitochondria, whereas argininosuccinate synthetase and argininosuccinate lyase are located in the cytosol. Glutamine synthetase and arginase are mitochondrial enzymes in uricotelic species, but are normally found in the cytoplasm in ureotelic species. the properties of the elasmobranch arginase, however, are characteristic of arginases from ureotelic species (e.g. the Km for arginine is 1.2 mM, and the enzyme has an Mr congruent to 100,000).
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PMID:Subcellular location of glutamine synthetase and urea cycle enzymes in liver of spiny dogfish (Squalus acanthias). 612 10

Cell growth in 'ornithine-medium' requires the expression of two liver-specific genes, those for ornithine transcarbamoylase (OTC) and carbamoyl phosphate synthetase I (CPS-I). CPS-II appears unable to replace CPS-I in this system. The need for N-acetylglutamate (to activate CPS-I) can be met, at least in part, by providing it in the medium. The other gene products involved in arginine biosynthesis are probably all ubiquitous (i.e. not tissue-specific). In an attempt to study the factors responsible for the expression of liver-specific genes, variant hepatomas are isolated that have lost the ability to grow in ornithine-medium. Two classes of 'orn-' variants are identified: unstable variants that require dexamethasone for adequate CPS-I production, and 'stable' variants that have lost many liver-specific traits. Studies on one stable variant show that it can revert (though rarely), and that it regains its various liver-specific traits in a non-coordinate fashion.
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PMID:Arginine synthesis by hepatomas in vitro. I. The requirements for cell growth in medium containing ornithine in place of arginine and the isolation and characterization of variant hepatomas auxotrophic for arginine. 614 29

Rat liver carbamoyl-phosphate synthetase I is shown to have synthetase and ATPase activity in the absence of acetylglutamate. Km values for ATP, Mg2+ and K+ are greatly increased, the Km for HCO-3 is not changed much, and the Km for NH+4 is markedly reduced. Vmax for the synthetase reaction is less than 20% of that of the acetylglutamate-activated enzyme whereas Vmax for the ATPase activity is greater than 40% of that with acetylglutamate. Pulse-chase experiments with H14CO-3 show formation of less "active CO2" (the central intermediate) than with acetylglutamate; ATPase activity is reduced in proportion, but the synthetase activity is much smaller. Binding of one ATP molecule with high affinity (Kd = 20-30 microM) is shown in the absence of acetylglutamate. This appears to be the molecule of ATPB (ATPB provides the phosphoryl group of carbamoyl phosphate). In contrast, the affinity for ATPA (ATPA yields Pi) is much reduced. Initial velocity measurements without acetylglutamate show a time lag before reaching a constant velocity. At 50 microM acetylglutamate the lag is much longer, but at 10 mM acetylglutamate it is shorter. Activation by acetylglutamate requires ATP at concentrations sufficient to occupy the ATPA and the ATPB binding sites. Preincubation with 10 mM acetylglutamate alone shortens the activation time. From these findings we propose an allosteric model for activation of carbamoyl-phosphate synthetase in which there are two active states, R and R . AcGlu. Binding of ATPA is associated with the conversion of T to R. R . AcGlu differs from R in that transfer to carbamate of the gamma-phosphoryl group of ATPB appears to be facilitated.
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PMID:Mitochondrial carbamoyl phosphate synthetase activity in the absence of N-acetyl-L-glutamate. Mechanism of activation by this cofactor. 622 15

The mechanism of the reaction catalyzed by rat liver mitochondrial carbamoyl-phosphate synthetase has been studied by using [beta-18O2]ATP and HC18O-3, monitoring the isotopic composition of adenosine triphosphate (ATP) and inorganic phosphate (Pi) by high-resolution 31P NMR spectroscopy. In the presence of both HCO3- and acetylglutamate, the enzyme catalyzes the exchange of oxygen atoms between the beta, gamma bridging and the beta nonbridging positions of ATP. Addition of NH3 stops the exchange, Pi released by the ATPase activity of the enzyme in the absence of NH3 contains one oxygen atom from HC18O3- but there is no incorporation of 18O into ATP. There is no significant incorporation of [14C]ADP or 32Pi into ATP. It is concluded that in the enzyme-ATPA.HCO30.ATPB complex formed in the presence of ATP and HCO3- there is reversible transfer of the gamma-PO3 group of ATPA (the molecule that yields Pi) to HCO3- without dissociation of products. The beta-PO3 of the enzyme-bound ADP that is formed can rotate. Virtually all of the complex appears to be in the form in which ATPA is cleaved, but in the absence of NH3, ATP is reconstituted and dissociates from the complex on at least 75% of the occasions. On the remainder, the carbonyl phosphate is cleaved in an irreversible process that yields Pi and a low-energy form of carbonic acid (probably HCO3-). NH3 reacts rapidly and irreversibly with the complex, and at saturation the rate (greater than 10 times the rate of Pi release in the absence of NH3) is sufficient to prevent dissociation of ATPA. In the absence of HCO3- an enzyme-ATPA.ATPB complex is formed, but cleavage of the bond between beta, gamma bridging oxygen and P gamma of ATPA does not occur.
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PMID:Mechanism of activation of bicarbonate ion by mitochondrial carbamoyl-phosphate synthetase: formation of enzyme-bound adenosine diphosphate from the adenosine triphosphate that yields inorganic phosphate. 626 8

Valproate (0.5-5 mM) strongly inhibited urea synthesis in isolated rat hepatocytes incubated with 10 mM-alanine and 3 mM-ornithine. Valproate at the same concentrations markedly decreased concentrations of N-acetylglutamate, an essential activator of carbamoyl-phosphate synthetase I (EC 6.3.4.16), in parallel with the inhibition of urea synthesis by valproate. This compound also lowered the cellular concentration of acetyl-CoA, a substrate of N-acetylglutamate synthase (EC 2.3.1.1); glutamate, aspartate and citrulline were similarly decreased. Valproate in a dose up to 2 mM did not significantly affect the cellular concentration of ATP and had no direct effect on N-acetylglutamate synthesis, carbamoyl-phosphate synthetase I and ornithine transcarbamoylase (EC 2.1.3.3) activities.
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PMID:Inhibition of ureagenesis by valproate in rat hepatocytes. Role of N-acetylglutamate and acetyl-CoA. 641 45

To examine the beneficial effect of arginine on ammonia intoxication, rats were injected intraperitoneally with a single dose of NH4Cl (6.75 mmol/kg) with and without arginine (5.0 mmol/kg) or ornithine (5.0 mmol/kg). Arginine or ornithine reduced the blood ammonia nitrogen at 30 min after NH4Cl injection from 3,288 +/- 800 micrograms/dl (mean +/- SE) to 538 +/- 90 and 575 +/- 34 micrograms/dl, respectively. In rats administered this dose of NH4Cl, arginine or ornithine did not increase further the hepatic carbamoyl-phosphate synthetase (EC 6.3.4.16) activation by N-acetylglutamate beyond the effect of NH4Cl. However, arginine or ornithine did increase the hepatic citrulline and urea content as well as the plasma urea concentration in these NH4Cl-injected rats. In rats injected with four doses of NH4Cl (2.5 mmol/kg), arginine or ornithine pretreatment increased the urea excretion and normalized the orotic acid excretion. These results indicate that arginine mitigates ammonia intoxication in the rat by increasing ornithine carbamoyltransferase activity through increased ornithine availability and not via activation of N-acetylglutamate synthetase. By increasing ornithine carbamoyltransferase activity, ornithine enhances the conversion of ammonia to citrulline and urea.
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PMID:Mechanism of arginine protection against ammonia intoxication in the rat. 647 19

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