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: UMLS:C0023418 (leukemia)
93,477 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A glutaminase-asparaginase enzyme from Achromobacter sp has antitumour activity in vitro and in animals. Glutaminase was administered in doses of 3500-20 000 IU/m2 body surface area/day to six patients with acute lymphoblastic leukaemia (ALL) and three patients with acute myeloid leukaemia (AML). The enzyme had a blood half life of 80 minutes but depletion of blood glutamine persisted for 12 hours after single doses. Seven patients, including four (two with AML and two with ALL) resistant to asparaginase, received repeated doses of glutaminase. Antileukaemic effects were observed in all seven; one elderly patient developed metabolic acidosis. Study of this new antileukaemic agent in patients with acute leukaemia at an earlier stage of their disease is now justified.
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PMID:Bacterial glutaminase in treatment of acute leukaemia. 77 14

Phosphate-activated glutaminase is found in mammalian small intestine, brain, and kidney, but not in liver. The enzyme initiates the catabolism of glutamine as the principal respiratory fuel in the small intestine, may synthesize the neurotransmitter glutamate in the brain, and functions in the kidney to help maintain systemic pH homeostasis. Interleukin-9 (IL9) is a relatively new cytokine that supports the growth of helper T-cell clones, mast cells, and megakaryoblastic leukemia cells. cDNA clones have recently been obtained for each of these genes. The human loci for phosphate-activated glutaminase (GLS) and IL9 have previously been mapped to chromosomes 2 and 5, respectively, by analysis of somatic cell hybrid DNAs. By using chromosomal in situ hybridization, we have regionally mapped GLS to 2q32----q34 and IL9 to 5q31----q35.
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PMID:Regional localization of the human glutaminase (GLS) and interleukin-9 (IL9) genes by in situ hybridization. 168 Jun 6

Glutamine depletion strongly inhibits the replication of Rauscher murine leukaemia retrovirus (RLV) in vitro. Pseudomonas 7A glutaminase-asparaginase (PGA), capable of depleting glutamine and asparagine for prolonged periods, was used to determine the therapeutic effectiveness of glutamine depletion in mice infected with RLV or Friend virus. During PGA treatment of viraemic animals, serum reverse transcriptase activity fell to control levels and infected animals did not develop splenomegaly. The therapeutic results obtained with PGA compared favourably with those of azidothymidine given intraperitoneally at 30 mg/kg/day. Western blots performed on splenic tissue from control and treated animals indicated that glutamine depletion prevented readthrough of an amber codon at the gag-pol junction, stopping translation of viral mRNA at that point. Treatment of RLV-infected animals with PGA resulted in nearly a 200% increase in mean survival time even when therapy was initiated late in the course of the disease. To our knowledge, this is the first demonstration that a nutrient required for viral replication can be enzymically depleted in vivo to inhibit viral replication.
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PMID:Inhibition of mouse retroviral disease by bioactive glutaminase-asparaginase. 170 10

Several side-effects of asparaginase therapy have been said to be a consequence of the glutaminase activity of Escherichia coli asparaginase, especially the deleterious influence on the liver function. We report here the drug-induced impairments of asparagine and glutamine metabolism in correlation to concentrations changes of plasma proteins, synthesized in the liver, in patients with acute lymphatic leukaemia. One hour after asparaginase application, plasma glutamine decreased to 5% (0-39%: median, range) of the initial values, with a subsequent rise to concentrations slightly lower than those prior to therapy. During the 14 days of drug application the fasting plasma concentrations of glutamine fell to a median of 63% of the pre-therapeutic levels, indicating a depletion of the glutamine pools. Two days after the end of asparaginase application, in one patient the glutamine concentrations increased to the pre-therapeutic range. Plasma concentrations of fibrinogen and antithrombin III decreased to 46% and 56%, respectively, of the initial values, with a slight increase 2 days after the end of therapy. The changes of plasma protein concentrations followed the course of plasma glutamine and asparagine. From that we deduce that the hepatic synthesis of the plasma proteins might be influenced by asparagine and glutamine depletion as a consequence of the therapy with E. coli asparaginase.
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PMID:Asparaginase-induced derangements of glutamine metabolism: the pathogenetic basis for some drug-related side-effects. 314 4

Mouse P388 and L1210 leukemia cells grown in vitro were found to be 4 to 10 times more sensitive to 6-diazo-5-oxo-L-norleucine and 3 to 5 times more sensitive to Acivicin than were 3T3 and C57BL x DBA/2 F1 embryonic fibroblasts. The combined actions of succinylated Acinetobacter glutaminase-asparaginase and 6-diazo-5-oxo-L-norleucine or Acivicin produced synergistic inhibition of nucleic acid synthesis in P388 tumor cells. An uptake system for Acivicin is described. Its properties in P388 and 3T3 cells are similar in their strong temperature dependence, utilization of the "L" transport system, presumably competitive inhibition by glutamine, similar Km's (about 200 microM), and potent inhibition by p-chloromercuribenzene sulfonate, NA+. However, Acivicin uptake was inhibited in 3T3 (but not in P388) cells by KCN or 2,4-dinitrophenol. At equilibrium in P388 cells, the intracellular level of Acivicin was approximately 57-fold greater than was the extracellular concentration. The accumulated Acivicin was not metabolized by P388 cells, nor does exchange of 3H label into water occur. Rapid efflux of Acivicin occurred with both cell lines at 37 degrees, but efflux from 3T3 cells was greatly diminished at 0 degrees. The rate of efflux was accelerated by including glutamine or unlabeled Acivicin in the extracellular medium.
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PMID:Enhancement of antitumor activity of glutamine antagonists 6-diazo-5-oxo-L-norleucine and acivicin in cell culture by glutaminase-asparaginase. 721 22

Succinylated Acinetobacter glutaminase-asparaginase (SAGA) has broader antitumor activity than Escherichia coli L-asparaginase in experimental systems; moreover, drug resistance does not develop in tumor cell lines initially sensitive to this enzyme. We have investigated the pharmacology and toxicology of SAGA after both single-dose and serial daily dose injections in 20 adult patients. Glutaminase activity in plasma after i.v. injection of single doses did not follow simple first-order kinetics (half-life during the initial 24 hr was 21 +/- 9 hr. A linear relation was observed between increasing doses of SAGA and resultant levels of plasma enzyme activity and blood glutamate. Assay of whole blood which had been deproteinized immediately following phlebotomy showed that single doses of SAGA lowered glutamine only transiently to nondetectable levels; serial daily doses were required to achieve and maintain continuous glutamine depletion. Reversible depression of the central nervous system, ranging from encephalopathy to coma, occurred in a dose-related manner and was dose limiting. Other prominent reactions included respiratory alkalosis, hyperglycemia, nausea, and vomiting. Transient antitumor effects were noted in two patients with solid tumors and in two patients with leukemia. SAGA causes considerable neurotoxicity in adults which requires close patient monitoring. Phase II studies in leukemic patients are in progress.
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PMID:Phase I evaluation of succinylated Acinetobacter glutaminase-asparaginase in adults. 743 89

ECAR-LANS, the recombinant L-asparaginase from Erwinia carotovora, is a prospective therapeutic enzyme for leukaemia treatment. An efficient and economical scheme was developed for the purification, cloning and expression in Eschericha coli of ECAR-LANS. More than 90% purity, complemented with 72% active enzyme recovery, was achieved with a single chromatographic purification step. The activity of purified L-asparaginase was 630 i.u./mg. The ECAR-LANS K (m) value was 98x10(-6) M for the main physiological substrate L-Asn and 3400x10(-6) M for L-Gln. ECAR-LANS was found to have low relative glutaminase activity (1.2%) at physiological concentrations of L-Asn and L-Gln in blood. Kinetic studies of ECAR-LANS showed that the recombinant asparaginase combined the main advantages of Erw. chrysanthemi and E. coli L-asparaginases II, currently used in the treatment of acute lymphoblastic leukaemia.
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PMID:One-step purification and kinetic properties of the recombinant L-asparaginase from Erwinia carotovora. 1503 42

The pattern of expression of glutaminase isoenzymes in tumour cells has been investigated to clarify its role in the malignant transformation and the prospect of its use as a clinically relevant factor. Using leukaemia cells from medullar blood of human patients and several established human cancer cell lines, we have developed a competitive RT (reverse transcriptase)-PCR assay to quantify simultaneously K-type (kidney-type) and L-type (liver-type) glutaminase mRNAs. Co-expression of both transcripts and higher amounts of L-type mRNA were always found in all cancer cell types analysed. However, mature lymphocytes from the medullar blood of a patient suffering aplasia did not express the K-type transcript and showed a 15-fold increase of L-type transcript. Co-expression was also confirmed at the protein level using isoform-specific antibodies; nevertheless, it did not correlate with the relative abundance of glutaminase transcripts and strong K-type protein signals were detected. On the other hand, marked differences were found with regard to glutamate inhibition and phosphate activation of tumour glutaminase activity. Taken together, the protein data suggest that K isoform would account for the majority of glutaminase activity in these human tumour cells. The results confirm that simultaneous expression of both isoenzymes in human cancer cells is a more frequent event than previously thought. Furthermore, the present work and other previous data suggest that K isoform is up-regulated with increased rates of proliferation, whereas prevalence of the L isoform seems to be related with resting or quiescent cell states.
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PMID:Co-expression of glutaminase K and L isoenzymes in human tumour cells. 1549 40

Bacterial L-asparaginases have been used as therapeutic agents in the treatment of acute childhood lymphoblastic leukaemia for over 30 y. However, their use is limited owing to the glutaminase activity of the administered enzymes, which results in serious side effects. In contrast, L-asparaginase from Erwinia carotovora exhibits low glutaminase activity at physiological concentrations of L-asparagine and L-glutamine in the blood. Recombinant Er. carotovora L-asparaginase was crystallized in the presence of L-glutamate by the hanging-drop vapour-diffusion method using 10 mg ml(-1) purified enzyme, 16-18%(w/v) PEG 3350 and 0.2 M NaF. X-ray diffraction data were collected to 2.6 A at 293 K using an in-house rotating-anode generator. The crystals belong to the monoclinic P2(1) space group, with unit-cell parameters a = 78.0, b = 112.3, c = 78.7 A, beta = 101.9 degrees and a homotetramer in the crystallographic asymmetric unit. A molecular-replacement solution has been found and refinement is currently in progress. The crystal structure may provide leads towards protein-engineering efforts aimed at safer asparaginase administration in leukaemia treatment.
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PMID:Crystallization and preliminary crystallographic analysis of L-asparaginase from Erwinia carotovora. 1651 Oct 54

The transport system responsible for glutamine, alanine and glutamate in MOLT4 human T4 leukemia cell line were characterized. Kinetic studies of sodium-dependent glutamine and alanine transport exhibited a single saturable high-affinity carrier with a Michaelis constant of 152 +/- 26 microm and 203 +/- 36 microm and a maximal transport velocity of 960 +/- 165 and 1096 +/- 208 nmol/10(9)cells/min, respectively. Glutamate uptake was less than one-tenth of glutamine and alanine, and linearly increased with glutamate concentration which was mediated by diffusion. 4-acetamido-4'-isothiocyanatostilbene-2,2'-disulfonic acid (SITS), known as anion channel blockers, inhibited the sodium-dependent glutamine and alanine transport by 40% at 10 microm. Cellular contents of these amino acids in MOLT4 cells revealed glutamate to be the highest among them despite low glutamate influx. A glutamine metabolism study using whole cells indicated this high conversion rate from glutamine to glutamate, but no conversion to another amino acid. Based on these results, the high glutamate concentration in MOLT4 was speculated to be synthesized from transported glutamine by active glutaminase.
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PMID:Characterization of several amino acid transports and glutamine metabolism in MOLT4 human T4 leukemia cells. 1710 94


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