EC:3.5.1.1 - FACTA Search

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Query: EC:3.5.1.1 (asparaginase)
2,695 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

An intracellular L-asparaginase with antitumour activity was purified from a strain of Citrobacter. The optimum conditions for enzyme production by fermentation on scales up to 2700 l were investigated. Highest enzyme yield was obtained in corn-steep liquor medium (9-2%, W/V) at 37 degrees C. Oxygen limitation was not necessary for high enzyme yield. A total recovery of 4-3% from nucleic-acid-free extract and a 180-fold increase in specific activity were obtained after purificaiton. The specific activity of the purified preparation was 45 i.u./mg protein. The enzyme hydrolysed D-asparagine and L-glutamine at 7 and 5%, respectively, of its activity toward L-asparagine, but L-glutaminase activity could be demonstrated only at substrate concentrations above 5 mM. The Km values for L-asparagine and D-asparagine were 2-6 X 10(-5) and 1-4 X 10(-4) respectively. The anti-lymphoma activity of the enzyme was demonstrated with Gardner lymphosarcoma and was found only slightly less potent that Crasnitin, the most active asparaginase so far tested in this system.
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PMID:The properties and large-scale production of L-asparaginase from citrobacter. 0 Apr 65

Crystalline glutaminase-asparaginase which is effective against solid as well as ascites tumors was prepared from soil isolate organism Pseudomonas 7A. This enzyme has a ration of Vmax for L-glutamine and L-asparagine of 2.0. The presence of glutamic acid in the growth medium is essential for optimal enzyme production and glucose inhibits the production of glutaminase-asparaginase. The purification procedure provides an overall yield of 40 to 45% from crude cell extract to homogeneous glutaminase-asparaginase and is adaptable to large scale production of the enzyme. The specific activity of homogeneous enzyme is 160 +/- 15 i.u./mg of protein and the E1% 280 is 9.8. No disulfide or sulfhydryl groups appear to be present on the enzyme. The isoelectric point of glutaminase-asparaginase by isoelectric focusing on ampholine polyacrylamide gel plates is 5.8. The Km values for L-glutamine and L-asparagine are 4.6 and 4.4 X 10(-6) M, respectively. The enzyme catalyzes the hydrolysis of the D isomers of glutamine and asparagine at 87 and 69% the rate of the respective L isomers. L-Glutamic acid gamma-monohydroxamate is hydrolyzed at approximately the same rate as L-glutamine. The enzyme is not inhibited by ethylenediaminetetraacetate (0.1 mM), L-glutamate (30 mM), or L-aspartate (30 mM). Ammonium sulfate (10 mM) inhibits the enzymatic activity. The plasma half-life of Pseudomonas 7A glutaminase-asparaginase if 13 hours in normal mice and 43 hours in mice infected with the lactate dehydrogenase-elevating virus.
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PMID:Purification and properties of a highly potent antitumor glutaminase-asparaginase from Pseudomonas 7Z. 0 41

Pseudomonas ovalis produces L-glutaminase and L-asparaginase activities simultaneously upon induction by L-glutamine or L-asparagin in the growth medium. Both activities are confined to the cell during active growth and are not released into the medium. The apparent Km values are 1.4 X 10(-2) M and 6 X 10(-3) M for L-glutamine and L-asparagine substrates, respectively. Induction of both activities is substantially favoured in media with initial pH values higher than 7. In buffered yeast extract L-asparagine medium, significant amounts of L-glutaminase and L-asparaginase activities appeared towards the end of the exponential phase and along the stationary phase. The process of enzyme formation showed a firm link to the cell active growth, as evidenced by the use of growth inhibitors.
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PMID:Kinetics and properties of L-glutaminase and L-asparaginase activities of Pseudomonas ovalis. 1 88

A Chlamydomonas species isolated from a marine environment possesses an L-asparaginase, an enzyme not yet reported in the microalgae. This enzyme enabled the organism to grow as well with asparagine as sole nitrogen source as with inorganic nitrogen sources (NO3-, NH4+). Only the amide nitrogen was used for growth since growth did not occur on aspartate and aspartate accumulated in the media when cells were either grown on asparagine or during short-term incubations with L-[U-14C]asparagine. Cells grown on NO3-, NH4+, or L-asparagine in batch culture possessed equivalent asparaginase activities. However, nitrogen-limited cells possessed four times the activity of cells grown with sufficient nitrogen for normal growth, regardless of the possessed the lowest activity per cell, while lag phase and stationary phase cells possessed greater activity. The enzyme behaved like a periplasmic space enzyme since (1) breaking the cells did not release into solution more activity than was shown by whole cells and (2) whole cells converted L-[U-14C]asparagine to [14C]aspartate with little intracellular accumulation of radioactivity. Cell-free preparations of the enzyme possessed a Km value for asparagine of 1.1 x 10-4 M, with no glutaminase activity.
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PMID:Asparagine metabolism and asparaginase activity in a euryhaline Chlamydomonas species. 4 71

The formation of the high-affinity (Km equal to 0.2 muM) L-glutamine transport system of Escherichia coli strain 7 (Lin) appears to be subject to the same major control as the glutamine synthetase (EC 6.3.1.2) of this gram-negative organism. Culture of cells under nitrogen-limited conditions provides maximum derepression of both the glutamine synthetase and the glutamine transport system. Nutritional conditions providing a rich supply of ammonium salts or available sources of nitrogen, i.e., conditions which repress the formation of glutamine synthetase, provide three- and 20-fold repression, respectively, of the glutamine transport system. Culture of cells with glutamine supplements of 2 mM does not increase the repression of high-affinity glutamine transport system beyond the level observed in the absence of glutamine. A second kinetically distinct low-affinity component of glutamine. A second kinetically distinct low-affinity component of glutamine uptake is observed in cells cultured with a glutamine-depleted nutrient broth. This second component is associated with the appearance of glutaminase A (EC 3.5.1.2) and asparaginase I (EC 3.5.1.1), a periplasmic enzyme. Parallel changes were observed in the levels of the high-affinity glutamine transport system and the glutamine synthetase when cells were cultured with the carbon sources: glucose, glycerol, or succinate.
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PMID:Regulation of Glutamine Transport in Escherichia coli. 23 38

The effects of E. coli L-asparaginase on cultured human pancreatic carcinoma (MIA PaCa-2) have been studied. The enzyme (1 U/ml) inhibited growth and protein synthesis in both MIA PaCa-2 and PANC-1, another pancreatic carcinoma cell line, but had little or no effect on human breast carcinoma or melanoma cells. The inhibition of protein synthesis by E. coli L-asparaginase was largely reversed by L-glutamine but not by L-asparagine. The growth of both MIA PaCa-2 and PANC-1 showed absolute dependence on L-glutamine. These results indicate that the effect of E. coli L-asparaginase on cultured pancreatic carcinoma cells is exerted at least in part through its L-glutaminase activity. Although the addition of L-glutamine to the culture appeared to prevent cell death caused by L-asparaginase, it did not restore the ability of the cells to proliferate. Asparaginase derived from vibrio succinogenes, which is virtually free of L-glutaminase activity, was equally inhibitory to MIA PaCa-2 cell growth but did not affect protein synthesis. It is concluded that the inhibition of growth of cultured pancreatic carcinoma cells by E. coli asparaginase is a combined function of both its L-asparaginase and L-glutaminase activity.
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PMID:Mechanism of sensitivity of cultured pancreatic carcinoma to asparaginase. 36 26

Nutrients as therapy for patients with cancer are important as adjunctive therapy, i.e., adequate nutrition may be important for the success of whatever form of therapy is administered. Diets deficient in certain amino acids have some selectivity when tested against experimental tumors propagated in vivo. Such diets have had limited clinical trial and have been characterized by poor patient acceptance. Enzymes that produce deficiencies of certain amino acids, e.g., asparaginase, glutaminase, methioninase appear to offer a more reasonable approach to development of selective amino acid deficiencies in man. Trace metals in excessive amounts may be toxic or carcinogenic to the host. Two heavy metal salts, Cis-diamine dichloroplatinum and gallium nitrate, have recently been shown to have anti-neoplastic effects in man. There is no conclusive evidence that vitamins, administered in large doses, have significant antineoplastic effects although large doses of vitamin A, vitamin C, and vitamin B12 have been used for this purpose. In contrast, certain vitamin analogs such as folate antimetabolites can cause tumor regression and are useful clinical treatment. An enzyme, carboxypeptidase G1, by splitting naturally occurring folates, may also have promise as a method of producing enzymic folate deficiency.
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PMID:Nutrients, vitamins and minerals as therapy. 37 10

Three enzymes which catalyze the hydrolysis of L-asparagine have been identified in extracts of Citrobacter freundii. One of these (asparaginase-glutaminase (EC 3.5.1.1) also shows substantial glutaminase activity. This enzyme is extremely labile, is sensitive to inactivation by p-chloromercuribenzoate, and is not protected by dithiothreitol. A second enzyme (asparaginase B) is also sensitive to mercurials but is protected from inactivation by dithiothreitol. This enzyme has a relatively low affinity for L-asparagine (Km = 1.7-10(-3) M). The third enzyme (asparaginase A) is insensitive to inactivation by mercurials, is stable upon long term storage and has a relatively high affinity for L-asparagine (Km = 2.9-10(-5) M). This enzyme has been purified to homogeneity and has a molecular weight of approx. 140 000; the subunit weight being approx. 33 000. The C. freundii asparaginase A produced significant increases in the survival time of C3H/HE mice carrying the 6C3HED lymphoma tumor.
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PMID:L-Asparagainases from Citrobacter freundii. 40 50

Deamidase AG (asparaginase-glutaminase) from Pseudomonas fluorescens AG was shown to hydrolyze 1-glutamine and 1-asparagine highly effectively. Besides, the enzyme exhibited the rather high rate of deamidation of D-asparagine and D-glutamine (70% and 100%, respectively), Nalpha-butyl asparagine (63%) and among peptides -- of glycyl-L-asparagine (40%). L-glutamic acid gamma-methyl ester was hydrolyzed only slightly (5%). Effect of several substrate analogues on the deamidase AG activity was studied as well. Albiciine (alpha-amino-beta-ureide propionic acid) proved to be the strongest inhibitor (100%). Beta-Methyl aspartic acid, S-carbamoyl cysteine, alpha-ketoglutaric acid showed the slight inhibitory effect (20%). Amount of active centres per enzyme molecule was estimated by means of 14C-albiciine. Deamidase AG had apparently only one active centre. In estimation of relationship between the rate of reaction and substrate (L-asparagine) concentration, the reaction was found to follow Michaelis-Menten kinetics, K(m) = 4.5 with 10-4 M.
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PMID:[Substrate specificity, inhibitors and kinetics of deamidase AG (asparaginase-glutaminase) from Pseudomonas fluorescens AG]. 41 63

Specific L-asparaginase activity and non-specific cytotoxicity of asparaginase-glutaminase preparation from Pseudomonas fluorescens were studied. Two cell lines, i.e. the asparaginase-dependent (Berkitt lymphoma cells) and the asparaginase-independent (the ovary cancer cells) were used as the test-system. Incorporation of 3H-timidine into DNA was used as the criterion of the drug effect on the cells. Krasnitin was used as the reference preparation. The preparation of asparaginase-glutaminase was inferior to krasnitine by its specific antitumour asparaginase activity and superior to it by the general cytotoxicity in the cells of CaOv. With the help of the above test-system it is possible to study the specific asparaginase activity of the drugs containing L-asparaginase. For studying the specific glutaminase properties it is necessary to develop another cell test-system.
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PMID:[Biological properties of an asparaginase-glutaminase preparation from Pseudomonas fluorescens in cell cultures]. 41 58

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