Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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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)

L-Asparaginase (L-asparagine amidohydrolase, EC 3.5.1.1) B from Acinetobacter calcoaceticus has been purified by precipitation with streptomycin, chromatography on DEAE-cellulose and CM-cellulose, gel filtration on Agarose and chromatography on phosphocellulose. The molecular weight of the enzyme was found to be 130 000. The enzyme was rather insensitive to pH changes between 7 and 9. The Michaelis constant was 3-10(-3) M. Hg2+, Cu2+, and Ni2+ as well as high ionic strength inhibited the activity of the enzyme, whereas citrate seemed to stimulate the activity. The enzyme catalyzed the deamination of L-glutamine to about the same extent as L-asparagine. The temperature stability of the enzyme is also reported. The enzyme had a weak tumor inhibitory power.
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PMID:Purification and properties of L-asparaginase B from Acinetobacter calcoaceticus. 93 83

L-Asparaginase has long been used in the treatment of acute lymphoblastic leukemia or malignant lymphoma in childhood. To determine cell type specific sensitivity to this drug, the L-asparaginase-mediated inhibition of blastogenesis of human peripheral T or B lymphocytes was compared. The rate of incorporation of [3H]-thymidine into the DNA of either T lymphocytes due to phytohemagglutinin (PHA) or B lymphocytes due to Staphylococcus aureus Cowan I (SAC) was measured by the addition of Escherichia coli L-asparaginase in the medium. The blastogenic response of either T or B lymphocytes was also determined in medium depleted of exogenous asparagine and/or glutamine, both of which are hydrolyzed by this enzyme. The in vitro blastogenesis of either human T lymphocytes due to PHA or B lymphocytes due to SAC was inhibited by the inclusion of asparaginase in the medium. The deprivation of exogenous asparagine did not have any inhibitory effect on the blastogenic response of both T and B lymphocytes to each mitogen. On the other hand, the glutamine concentration in the culture medium provided a critical influence on the proliferative response of T and B lymphocytes. The rate of incorporation of [3H]-thymidine into DNA was increased markedly as the concentration of glutamine was increased from 2(-7)-2 mmol/l. It is concluded that the mechanism of inhibition of PHA- or SAC-stimulated lymphocyte blastogenesis by L-asparaginase is not asparagine deprivation but glutamine deprivation. Glutamine, which is the most abundant amino acid, is thought to have an important role in the immune response of lymphocytes.
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PMID:The inhibition of lymphocyte blastogenesis by asparaginase: critical role of glutamine in both T and B lymphocyte transformation. 128 1

L-Asparaginase from Escherichia coli, an anti-tumor enzyme, was chemically modified with two types of maleic anhydride copolymers with a comb-shaped form, the one composed of polyoxyethylene allyl methyl diether with the molecular weight of 13,000 (activated PM13) and the other of polyoxyethylene 2-methyl-2-propenyl methyl diether with 100,000 (activated PM100). The modified asparaginases (PM13- and PM100-asparaginases) exhibited the complete loss of immunoreactivity towards anti-asparaginase serum. The enzymic activity of PM100-asparaginase without immunoreactivity was well retained by 85% of non-modified one, while that of PM13-asparaginase was retained 46%. These results were discussed in relation to the chemical structure of modifying reagents including chain shaped-polyethylene glycol derivatives.
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PMID:Chemical modification of L-asparaginase with a comb-shaped copolymer of polyethylene glycol derivative and maleic anhydride. 156 19

The effects of L-asparaginase were evaluated on glucose-induced insulin release from isolated rat islets of Langerhans. Islets were obtained by enzymatic digestion of pancreas from Sprague-Dawley rats. The study of L-asparaginase effects on insulin secretion was performed in a static incubation of islets. Insulin secretion was measured at 60 min of incubation with different secretagogues with and without L-asparaginase. L-Asparaginase at concentrations from 310 to 5,000 U/ml could inhibit the glucose-induced insulin secretion in a dose-dependent manner. This effect was not recovered after incubation in the absence of the drug for another 2 h. The half-maximal inhibitory effect of the enzyme on insulin secretion was observed at L-asparaginase concentrations of 1,000 U/ml. Tolbutamide (200 microM) and ketoisocaproic acid (20 mM) did not induce insulin secretion in the presence of moderately high L-asparaginase concentrations. L-Asparaginase did not inhibit glucose-induced insulin secretion in the presence of isobutyl-methyl-xanthine (IBMX) (20 microM) or forskolin (20 microM). L-Asparaginase promoted a decrease in total c-AMP in isolated rat islets at concentrations from 500 to 1,500 U/ml when they were stimulated by glucose. If islets were treated with IBMX or forskolin, L-asparaginase did not inhibit the glucose-induced total c-AMP levels in islets.
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PMID:Effect of L-asparaginase on insulin secretion from isolated rat islets of Langerhans. 172 85

L-Asparaginase of T. pyriformis is a membrane-bound enzyme with an active site situated on the outside surface of the membrane. When radioactive L-asparagine was incubated with T. pyriformis cells in the L-asparaginase assay medium, the hydrolysis was 240 higher than the uptake of this amino acid. In a similar experiment performed in salt medium (Wagner's solution), the hydrolysis was linearly increased and reached after one hour of incubation a value of 60 nmol/10(6) cells, while the uptake after 20 min of incubation reached a plateau with a value of 15 nmol/10(6) cells. The uptake of L-leucine under these conditions was 44 nmol/10(6) cells/hr, while no measurable transport of aspartic acid was observed. That L-aspartic acid is not migrated into T. pyriformis cells is in agreement with the finding that no efflux of this amino acid takes place as well. The uptake of L-asparagine is pH and K+ dependent, whereas Na+ ions strongly inhibit this uptake. The Km and Vmax values of L-asparagine uptake is 1.43 mM and 0.7 nmol/min, respectively. The half life of L-asparagine "protein transport system" was 40 min, a value which is very close to the half life of the membrane-bound L-asparaginase of this microorganism. Ouabain and vanadate inhibit the uptake of L-asparagine by more than 80%, while ouabain or vanadate inhibit in vivo 5% or 95% the activity of L-asparaginase, respectively. This indicates the lack of interrelationship between the L-asparagine "protein transport system" and the L-asparaginase protein molecule.
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PMID:Transport of L-asparagine in Tetrahymena pyriformis ecto-L-asparaginase is not related to L-asparagine-protein transport system. 193 Feb 47

L-Asparaginase has been encapsulated in Swiss mouse or human erythrocytes by hypotonic haemolysis followed by isotonic resealing and reannealing. The details of incorporation and properties of carrier erythrocytes are presented. When L-asparaginase loaded into 51Cr-labelled erythrocytes, was infused intravenously, the same half-life was found for asparaginase and 51Cr. In addition, L-asparaginase loaded into erythrocytes was much more effective in eliminating plasma asparagine compared with the same dose of free L-asparaginase injected in solution, during a sustained period (14 days).
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PMID:Erythrocytes as carriers for L-asparaginase. Methodological and mouse in-vivo studies. 198 Feb 86

L-Asparaginase from Cylindrocarpon obtusisporum MB-10 inhibits the growth of Ascites Fibrosarcoma and Dalton's Lymphoma tumor cells in vivo and significantly increases the survival rate of tumor bearing mice. The enzyme-treated normal mice become more healthy and survive longer than their usual life span. The spleen size of normal animals treated with L-asparaginase become larger, and the number of their rosetting T-lymphocytes along with the capacity of SRBC constellation gets increased. The surface topography of splenic T-lymphocytes of enzyme-treated mice exhibits some extensions of different parts of the membrane with ruffling of surface and formation of innumerable blebs, foldings, microvilli, etc. The adherence of leukocytes of peritoneal exudate cells of these mice is also enhanced. All results suggest that C. obtusisporum MB-10 L-asparaginase is active against tumors and non-immunosuppressive, and it deserves to be an immunotherapeutic agent.
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PMID:Antitumor activity of L-asparaginase from Cylindrocarpon obtusisporum MB-10 and its effect on the immune system. 208 Sep 16

A simple kinetic method to assay L-asparaginase and L-asparagine with an ammonia gas-sensing electrode is described. The method is based upon the de-amination of L-asparagine by L-asparaginase from Escherichia coli, resulting in the production of ammonia. The initial rate (mV/min) of ammonia release is proportional to the activity of L-asparaginase and also to the concentration of L-asparagine in the presence of a large amount of the enzyme. Optimal temperature, buffer composition and pH for the assays are specified. L-Asparaginase was determined in the range of 0.4-1.6 U in a 0.1 ml sample; the recovery was 98.1-103.8% for 16 determinations and sigma n was 1.59. L-Asparagine was determined in the concentration range of 1 x 10(-4)--1 x 10(-3) M with sigma n-1 1.92. The method was applied to the determination of 1-5 x 10(-4) M asparagine added to human serum with sigma n-1 1.96 for 5 determinations.
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PMID:An enzymatic method for the kinetic measurement of L-asparaginase activity and L-asparagine with an ammonia gas-sensing electrode. 218 73

A high L-asparaginase (L-asparagine amidohydrolase: EC 3.5.1.1) activity was found under conditions of lysine overproduction in cultures of Corynebacterium glutamicum. L-Asparaginase was purified 98-fold by protamine sulphate precipitation. DEAE-Sephacel anion exchange, ammonium sulphate precipitation and Sephacryl S-200 gel filtration. The asparaginase protein was subjected to PAGE under non-denaturing conditions, identified by an in situ reaction and eluted from the gel in an active form. The estimated Mr from gel filtration and SDS-PAGE was 80,000. The L-asparaginase activity was inhibited by the L-asparagine analogue 5-diazo-4-oxo-L-norvaline. Neither D-asparagine nor L-glutamine was a substrate for the enzyme. L-Asparaginase was produced constitutively: its role may be that of an overflow enzyme, converting excess asparagine into aspartic acid, the direct precursor of lysine and threonine.
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PMID:Characterization and partial purification of L-asparaginase from Corynebacterium glutamicum. 239 90

L-Asparaginase of Tetrahymena pyriformis is a lipoprotein with relative M(r) approximately 200 kDa and one subunit size of 39 kDa. This enzyme also exhibits protein kinase activity and it is autophosphorylated in tyrosine residues. Phosphorylation-dephosphorylation of L-asparaginase resulted in complete loss or activation by more than 10-fold of its catalytic activity. Both native and dephosphorylated forms of L-asparaginase are inactivated by phospholipase C and this inactivation can be reversed by the addition of lipids. Based on these results a working hypothesis is suggested that L-asparaginase of T. pyriformis exists in four interconvertible forms: Form A, phosphorylated complexed with lipids, form HA, dephosphorylated (highly active), form I, free of lipids, (inactive) and form B, free of lipids and phosphate.
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PMID:A model for the regulation of the activity of L-asparaginase/ kinase enzyme of Tetrahymena pyriformis. 250 74


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