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)

Purified L-asparaginase of Tetrahymena pyriformis is a multi-subunit enzyme exhibiting protein kinase activity as well. The enzyme's L-asparaginase activity is affected by its phosphorylation state. Both native and dephosphorylated L-asparaginase show antiproliferative activity on three breast cancer cell lines (T47D, BT20 and MCF-7) and on Walker 256 cells. These cells do not possess measurable L-asparaginase or L-asparagine synthetase activity. When T47D cells are treated for different times with L-asparaginase and then placed in fresh medium, the growth of cells treated for 1, 3, or 6 hours is initiated and parallels control curve, while the growth of cells treated for 24 or 48 hours with L-asparaginase stays at the same inhibitory level (24 h treatment) or continues to drop (48 h treatment). Addition of D-asparagine, a competitive inhibitor of T. pyriformis L-asparaginase, counteracts the antiproliferative activity of L-asparaginase, indicating that L-asparaginase and not the kinase activity is responsible for that effect.
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PMID:Antiproliferative activity of L-asparaginase of Tetrahymena pyriformis on human breast cancer cell lines. 212 95

Acylation of L-asparaginase (L-asparagine amidohydrolase, EC 3.5.1.1) with complete retention of catalytic activity was achieved. Several parameters of the acylation method, based on the binding of palmitoyl residues to epsilon-NH2 groups of protein, were optimized. The correlation between the acylation degree of L-asparaginase and the retention of catalytic activity was established. For a palmitoyl chloride/protein molar ratio ranging from 50 to 900, a degree of modification of 10 to 30% and a retention of catalytic activity of 98 to 60% respectively, was observed. Hydrophobicity of 30% acylated protein was correlated with turbidity in water and octanol and was compared with the native protein. Acylated protein incorporated into liposomes, showed an increase in catalytic activity in intact form as compared to the native enzyme. By the introduction of a sequential acylation cycle, an improvement of the degree of modification with a maximal value at 50% was obtained. Total retention of catalytic activity was achieved by acylation in the presence of 8 mM L-asparagine in a reactional medium.
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PMID:Acylation of L-asparaginase with total retention of enzymatic activity. 212 8

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

A human histiocytic lymphoma cell line, U937, is highly sensitive to L-asparaginase with an ID50 of about 0.0001 U/ml after 72 hr of culture. When U937 cells were made resistant to either L-asparaginase (1 U/ml) or asparagine deprivation, the activity of asparagine synthetase increased to 80- or 7-fold of the wild type, respectively. The phenotype of the resistance to L-asparaginase turned out to be stable under nonselective conditions for over several months. The hybrids between L-asparaginase sensitive (Molt4) and resistant (HL-60) cell lines revealed the latter phenotype in terms of L-asparaginase sensitivity and the activity of asparagine synthetase. Furthermore, U937 cells resistant to L-asparaginase could survive in glutamine-free media with 1.5-fold elevation of glutamine synthetase activity. These results altogether clarify the role of asparagine synthetase in L-asparaginase toxicity and have a good implication for the clinical use of L-asparaginase.
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PMID:Biochemical characterization of U937 cells resistant to L-asparaginase: the role of asparagine synthetase. 256 53

Incorporation of asparagine synthetase-specific monoclonal antibodies into L5178Y D10/R (L-asparaginase-resistant) murine lymphoma cells by osmotic lysis of pinocytic vesicles was used to evaluate the potential of the technique for macromolecular incorporation for metabolic studies. Nonspecific effects of the incorporation procedure included temporary inhibition of protein and DNA synthesis by 80-85% and a transitory loss of membrane integrity. Cells incorporated with an antibody inhibitory to tumor cell asparagine synthetase showed increased dependence upon an exogenous source of asparagine in the culture medium, while cells incorporated with a control antibody were not affected. These studies demonstrated that incorporation of inhibitory monoclonal antibodies into cells can be used to study the short term metabolic role of specific enzymes; however, the metabolic effects induced by the specific macromolecule must be evaluated within the context of the nonspecific effects caused by the osmotic treatment required for incorporation.
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PMID:Incorporation of monoclonal antibodies into cells by osmotic permeabilization. Effect on cellular metabolism. 256 2

Photo-switchable ion and enzyme sensors were fabricated by the use of glassy carbon electrode coated with nonactindoped or enzyme modified poly(vinyl chloride) (PVC) membranes. The ion sensor with nonactin-doped PVC membrane, which contained spirobenzopyran as the photosensitive dye, exhibited a potentiometric photoresponse to NH4+ ion in the solution. The dynamic range of the NH4+ ion sensor was 10(-7)--10(-3) M. Urea, adenosine, and asparagine sensors were prepared by coating the surface of the NH4+-ion sensor with urease, adenosine deaminase, and asparaginase membranes, respectively. These enzyme sensors could be used for determining the substrates at the micro mole level. The performance characteristics of these sensors were compared with those previously prepared membrane electrode sensors.
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PMID:Photo-switchable ion and enzyme sensors. Photoinduced potentiometric response of glassy carbon electrode coated with polymer or polymer/enzyme dual membrane. 263 77

L-Asparaginase, an effective agent in the treatment of acute lymphoblastic leukemia, may induce a diabetic state. The pathogenesis of the diabetogenic effect was studied in cultured pancreatic islets. Mean serum concentrations in three children with acute lymphoblastic leukemia were 2.4 U/mL (range 1.4-4.5) before and 31.5 U/mL (range 18.6-51.8) immediately after an intravenous injection of 1000 U/kg L-asparaginase. Glucose-induced insulin release from pancreatic islets of rat and man was measured after 3 and 7 days of culture in media with or without clinically relevant concentrations of Escherichia coli L-asparaginase (0.01-100 U/mL). After culture, the remaining insulin, glucagon, and DNA in the islets were determined. After 7 days of culture of adult rat or human islets, both the accumulation of insulin in the medium and the content of insulin and glucagon in the islets were significantly reduced in the presence of 100 U/mL L-asparaginase compared with controls. Addition of 10(-6) M hydrocortisone to the culture medium enhanced this effect. In newborn rat islets a significant reduction in insulin release and content was observed already in the presence of 0.1 U/mL asparaginase, whereas the glucagon content was unchanged. Removal of the drug resulted in partial recovery of the insulin secretion. To elucidate the mechanisms of of action of the drug, insulin biosynthesis was studied in islets cultured in asparagine-free medium with or without asparaginase. No difference in biosynthesis was seen between media with or without asparagine, whereas 0.1 U/mL asparaginase caused about a 50% reduction under both conditions.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Direct long-term effects of L-asparaginase on rat and human pancreatic islets. 267 5

A simple rapid and reproducible procedure for transferring monoclonal antibodies into mammalian cells by electroporation is described. Two functionally different monoclonal antibodies (Mab 3F3 and Mab 2B4) specific for asparagine synthetase (EC 6.3.1.1) were used for electroporation into HeLa, HT-5, and L5178Y D10/R (L-asparaginase-resistant) cells. The conditions were optimized so that the viability of the electroporated cells was very high (80-90%), and 90% of the viable cells had antibody incorporated. Electropermeabilized cells were structurally intact, and the high voltage electric pulse had no inhibitory effect on overall cellular DNA and protein synthesis. Incorporated immunoglobulins showed unaltered structural integrity and were functionally active. L5178Y D10/R cells incorporated with an antibody (Mab 3F3) known to be a potent inhibitor of tumor asparagine synthetase showed increased dependence on an exogenous source of asparagine in the culture medium, while the growth of cells incorporated with a control (noninhibitory) antibody (Mab 2B4) remained unaffected. These studies demonstrate that electroporation can be employed successfully for large scale transfer of antibodies into cultured mammalian cells for the study of cellular metabolism.
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PMID:Transfer of monoclonal antibodies into mammalian cells by electroporation. 276 74

A large-scale process was developed to purify L-asparaginase from submerged cultures of Erwinia carotovora. Cells from 880 L of fermentation broth were harvested and washed using a plate and frame type filter press. A cellular acetone powder was prepared from the washed cells by suspending the cells twice in acetone and the residual acetone was removed by washing the acetone powder in the filter press with 10 mM phosphate buffer (pH 7.0). The cellular acetone powder was extracted with 10 mM borate buffer at pH 9.5. The enzyme-rich borate extract was recovered by filtration and clarified by an in-line bag filter. The filtrate was adjusted to pH 7.5 and filtered through a 1-micron bag filter precoated with Celite and then through a 0.22-micron cartridge filter. The cell-free extract, containing 21 x 10(6) IU of enzyme and 448 g of total protein, was applied to an L-asparagine Sepharose 6 Fast Flow affinity column (9 L) using a bag filter loaded with Cell Debris Remover as an in-line prefilter. The affinity gel was prepared by coupling L-Asn at pH 9.0 to epoxy-activated Sepharose 6 Fast Flow beads. A total of 14 x 10(6) IU of enzyme (35 g protein) was eluted at pH 9.0 in 10.5 L. The eluted enzyme was determined to be greater than 90% pure using sodium dodecyl sulfate polyacrylamide gel electrophoresis. The total process time from whole broth to affinity column elution was 68 h and the enzyme yield was 38%. This improved process for the 880 L fermentation broth produced a cell-free extract of high specific activity, shortened the process time, increased the column capacity, and yielded a product with high purity.
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PMID:L-asparaginase from Erwinia carotovora. An improved recovery and purification process using affinity chromatography. 280 97


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