UMLS:C0023418 - FACTA Search

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Query: UMLS:C0023418 (leukemia)
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L-Asparaginase, in the dose of greater than or equal to 6000 IU/sq m three times weekly, was demonstrated to be an effective agent in reinduction of remissions in childhood leukemia. Four hundred thirteen children with acute lymphocytic leukemia were treated with L-asparaginase. Doses i.m. ranged from 300 to 12,000 IU/sq m. None of the patients had received prior asparaginase therapy. 6-Mercaptopurine was given p.o. concurrently. All of the patients had experienced several previous relapses, and their disease was not responsive to 6-mercaptopurine. L-Asparaginase was found to be effective in reinducing remissions at the following rates: 9.5% for 300 IU/sq m; 35.1% for 3,000 IU/sq m; 53.5% for 6,000 IU/sq m; and 62.5% for 12,000 IU/sq m. The drug was given three times weekly for four weeks. Hypersensitivity reactions occurred in 6.5% of patients.
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PMID:Effective dose of L-asparaginase for induction of remission in previously treated children with acute lymphocytic leukemia: a report from Childrens Cancer Study Group. 38 78

L-Asparaginase sensitivity and asparagin-deficiency of 5 tumor cell populations, i.e. mouse lymphoma L-1210, LI0-1, LTL, Berkitt lymphoma and human ovary cancer, line CaOv were studied. Radiometric estimation of 3H-thimidine incorporation into the cells of DNA served a criterion of cytotoxicity. "Krasnitin" (FDR) was used as L-asparaginase. The cells of leukemia L-1210, lymphosarcoma LIO-1 and line CaOv were asparagine-independent and non-sensitive to L-asparaginase. The cells of mouse lympholeukemia LTL and the cultures of Berkitt human lymphoma proved to be asparagin-dependent and highly sensitive to L-asparaginase. In concentration of 50 IU/ml the drug inhibited incorporation of 3H-thimidine in the cells of LTL and Berkitt lymphoma by 97-98 and 75-80 per cent respectively. Inhibition of 3H-thimidine incorporation in the cells of LTL and Berkitt lymphoma was more pronounced after incubation with the drug for 8 and 24 hours respectively. Two out of the 5 tumor cell populations were chosen as a result of the study. One of these 2 populations, i.e. the cells of Berkitt lymphoma was asparagin-dependent and highly sensitive to L-asparaginase, the other, i.e. the cells of line CaOv was asparagin-independent and resistant to the specific antitumor effect of the enzyme. The use of a system of these two cell lines provided estimation of the ratio of the specific cytostatic (antitumor activity) and non-specific cytostatic properties in the preparations with L-asparaginase activity.
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PMID:[Cellular test system for studying the biological properties of preparations with L-asparaginase activity]. 59 48

Biological modification in cancer therapy involves many different strategies and substances. Bacterial products with established usefulness include BCG, C. parvum and L-Asparaginase. Immunotherapy with such agents has not, however, found general application, although revived interest in 'Coley's mixed toxins' (used earlier this century) paralleled the development of their presumed effector molecules, tumour necrosis factor and lymphotoxin. Many other Cytokines, both natural or recombinant, are now produced on a vast scale following the recent biotechnology revolution. Of these, Alpha Interferons have already proved useful in hairy cell leukaemia, carcinoid tumours, renal cell cancer, Kaposi's sarcoma, chronic granulocytic leukaemia and certain lymphomas, whilst their use as adjuvants or in combination is currently being investigated. More recently, Interleukin-2, which stimulates the clonal expansion of activated T-cells, has shown promise both as a single agent, and when used with lymphokine activated killer (LAK) cells or tumour infiltrating lymphocytes (TILS). A different approach involves the Colony Stimulating Factors such as G-CSF and GM-CSF which reduce the degree and duration of treatment-related myelosuppression, thereby allowing more intensive cytotoxic or radiation therapy, as well as facilitating early recovery following bone marrow transplantation. Monoclonal antibodies have not proved as specific for malignant cells as was originally hoped, but certain tumours, such as lymphoma, are now realistic targets for therapy. Increasingly sophisticated effector mechanisms (e.g. conjugated pro-drugs) and genetically engineered "humanised" monoclonal antibody hybrids present the brightest hopes for the future. Biotherapy, the "fourth modality of cancer treatment" has already assumed its place alongside surgery, radiotherapy and cytotoxic chemotherapy, and will grow in importance as our understanding of the molecular biology of cancer increases in the coming decades.
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PMID:Biological modifiers and their role in cancer therapy. 218 42

L-Asparaginase (ASNase) is a potent antileukemic enzyme routinely used in the treatment of children with acute lymphoblastic leukemia. As part of investigations of the biological activity of ASNase, we have developed techniques which measure the in vitro and in vivo cell killing ability of ASNase. To study the effect of ASNase on in vitro survival of primary lymphoblasts, bone marrow mononuclear cells obtained from untreated patients with acute lymphoblastic leukemia were cultured with and without ASNase. After 5 days, viable cells were counted using trypan blue exclusion to calculate total cell kill due to ASNase. Propidium iodide exclusion, leukemia cell surface antigens, and flow cytometry were used to determine leukemia cell kill due to ASNase. Comparison of leukemia cell kill and total cell kill showed a direct linear relationship (n = 24, r = 0.7), preferential killing of leukemia cells by ASNase (slope = 0.66), and that use of leukemia cell surface markers yielded a more accurate measurement of leukemia cell killing. ASNase at concentrations from 0.0001 to 0.1 IU/ml had equal effects on extent of leukemia cell killing (P = 0.3 to 0.7), suggesting the absence of a dose response at the ASNase concentrations tested. As a measure of the in vivo response to ASNase treatment, the number of viable bone marrow leukemia cells in the patient prior to and 5 days after treatment with ASNase was measured as the product of (% of rhodamine 123 fluorescent [viable] cells) x (absolute leukemic infiltrate). The change which occurred in the viable leukemic infiltrate was the same for patients whether they received 25,000 or 2,500 IU/m2 of ASNase as a single drug. There was a linear correlation (n = 8, r = 0.9) between in vivo and in vitro leukemia cell killing by ASNase. Thus, the in vitro assay described here can be used to predict in vivo sensitivity to ASNase in acute lymphoblastic leukemia.
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PMID:In vitro and in vivo killing of acute lymphoblastic leukemia cells by L-asparaginase. 274 26

L-Asparaginase (ASNase), a drug widely used in the treatment of acute lymphoblastic leukemia, has been reported to decrease serum T4-binding globulin (TBG) levels, while results of serum albumin determinations were conflicting. This effect in vivo has been attributed to depressed liver protein synthesis, but this hypothesis has not been proved. To investigate this problem, human hepatoma (Hep G2) cells were continuously labeled for 4 h with 100 microCi/ml [35S]methionine in the absence or presence of graded amounts of ASNase (from 0.1 nM to 0.1 mM). Media and cell lysates were collected, immunoprecipitated with antialbumin or anti-TBG serum and protein A, and submitted to sodium dodecyl sulfate-polyacrylamide gel electrophoresis. Gels were sliced, and the radioactivity was counted in a beta-counter. A dose-dependent inhibition of TBG and albumin biosynthesis (as well as of total protein synthesis) was demonstrable, but TBG appeared to be more sensitive to the action of the drug. In fact, TBG biosynthesis was reduced by 8% with 0.1 nM ASNase, while an effect on albumin was observed only at 1 nM ASNase; 50% inhibition was obtained with 30 nM ASNase in the case of TBG and with 800 nM in the case of albumin. At the highest concentration (0.1 mM), TBG biosynthesis was reduced by 94%, and albumin biosynthesis by 75%. ASNase also proved to have a time-dependent effect, as assessed by the measurement of radioimmunoassayable TBG in the media from Hep G2 cells grown in the presence of 10 nM ASNase for 1-4 days. The TBG concentration was progressively reduced, by 40% after 1 day to 85% after 4 days. In pulse-chase experiments, a reduction of total (intracellular plus secreted) immunoprecipitable TBG and, to a lesser extent, albumin was observed, suggesting that the drug also affected the catabolism of newly synthesized proteins. These results provide the first in vitro evidence that ASNase actually inhibits TBG biosynthesis. This effect is not specific for TBG, but this protein appears to be more susceptible than albumin to ASNase action. This can explain why in patients treated with ASNase for leukemia, a decrease in serum TBG concentrations has not always been associated with a reduction in serum albumin levels.
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PMID:Effect of the antileukemic agent L-asparaginase on thyroxine-binding globulin and albumin synthesis in cultured human hepatoma (HEP G2) cells. 301 70

L-Asparaginase was used to treat 40 patients with acute leukaemia or lymphosarcoma. Fifteen with acute lymphoblastic leukaemia either untreated or in relapse after previous therapy were given "Squibb," "Bayer," or "Porton" L-asparaginase. Five of these patients had complete remission of their disease, and four had good partial remission. Eleven patients with acute myeloid leukaemia were treated for a short period with L-asparaginase alone. None of them went into remission though a pronounced fall in the numbers of circulating white cells was seen. Six patients with lymphosarcoma received L-asparaginase, two of them having good partial remissions.The toxic side-effects of the L-asparaginase from the three sources seemed to vary, and L-asparaginase from Erwinia carotovora appeared to be antigenically different from the enzyme produced by Escherichia coli.The way in which leukaemic cells become resistant to the action of the enzyme requires further investigation. To overcome this resistance asparaginase should be used in combination with other drugs in the treatment of acute leukaemia.
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PMID:L-asparaginase in treatment of acute leukaemia and lymphosarcoma. 490 33

L-Asparaginase treatment during induction therapy in acute lymphoblastic leukaemia (ALL) is known to be frequently complicated by thromboembolic events. It was recently suggested that L-asparaginase derived from Erwinia chrysanthemi alters the coagulation system less severely than does Escherichia coli asparaginase. In a series of 11 adult patients with ALL, we investigated some parameters of the coagulation system during treatment with Erwinia asparaginase. The doses employed were rather high; all patients below the age of 60 years received 15,000 U/m2 daily over 14 days. In accordance with what is known from treatment with E. coli asparaginase, we observed significant lowering of antithrombin as well as of fibrinogen. However, as to fibrinogen indeed a significant decrease had occurred prior to the institution of Erwinia asparaginase treatment. The most striking observation in the present study was that the levels of prothrombin complex, reflecting the function of K-vitamin dependent coagulation factors II, VII and X, remained within normal ranges during treatment. This indicates that these coagulation factors were not affected by Erwinia asparaginase, an observation at variance with several reports where E. coli asparaginase was investigated. This latter observation was the only finding which could lend support to the view that Erwinia asparaginase affects the coagulation system less than E. coli asparaginase. Finally, one of our patients developed a sinus thrombosis, a severe thrombotic complication.
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PMID:Effects of Erwinia-asparaginase on the coagulation system. 749 74

L-Asparaginase (ASP), a chemotherapeutic agent used in the treatment of children with acute lymphoblastic leukaemia (ALL), is linked to thromboembolic complications secondary to an acquired deficiency of antithrombin III (ATIII). Fresh frozen plasma (FFP) is used to prevent and/or treat thrombotic complications in these children. However, the effect of FFP on plasma concentrations of ATIII and biochemical markers of activation of coagulation has never been tested. In this study, FFP (20 ml/kg) was administered to eight children with ALL receiving ASP in the consolidation phase of their treatment. Plasma samples were drawn pre-infusion, and following infusion at 1, 24, and 48 hr. Prior to the FFP infusions, plasma concentrations of prothrombin, fibrinogen, alpha 2-macroglobulin, heparin cofactor II, protein C, and protein S were similar to levels in healthy children. Only plasma concentrations of ATIII were significantly decreased (0.55 U/ml). Following FFP infusions, there was no statistical or clinically important increase in plasma concentrations of any coagulation protein at any time point. Pre-infusion plasma concentrations of markers of endogenous thrombin generation (thrombin-antithrombin III complexes (TAT)) and activation of the fibrinolytic system in response to activation of the coagulation system (D-dimer levels) were significantly increased. However, FFP had no statistical or clinically important effect on concentrations of these markers. We conclude that FFP administration for the prevention and treatment of acquired ATIII deficiency secondary to ASP has no demonstrable benefit on plasma levels of coagulation proteins and is unlikely to be of clinical benefit.
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PMID:Fresh frozen plasma has no beneficial effect on the hemostatic system in children receiving L-asparaginase. 752 13

L-Asparaginase-induced pancreatitis is an uncommon but potentially lethal complication. An 8-year-old girl with acute lymphoblastic leukaemia developed acute pancreatitis following treatment with asparaginase. Clinical and laboratory improvements were evident after treatment with somatostatin, with no complications of pancreatitis. Induction therapy for the leukaemia was able to be continued and complete remission was documented during the course of pancreatitis and somatostatin treatment, suggesting a beneficial role of somatostatin in the management of asparaginase-induced pancreatitis.
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PMID:Somatostatin therapy in L-asparaginase-induced pancreatitis. 790 15

The long-term results of a therapeutic regimen for adult acute lymphoblastic leukemia (ALL) have been analysed with the main purpose to evaluate the impact of Daunorubicin (DNM) dosage given during the induction. The files of 86 consecutive adult ALL patients treated in our institution between 1974 and 1988 were reviewed. They received the same induction regimen based on Vincristine, DNM and Prednisone, consolidation with L-Asparaginase, central nervous system prophylaxis, and 3-year maintenance with 6-mercaptopurine and Methotrexate with periodic cycles of reinduction. We analysed the overall and disease-free survival (DFS) in relation to various prognostic factors, focusing on the dosage of DNM actually received during the induction period. Complete remission (CR) was achieved in 68 (79%) patients and the overall DFS was of 32 months (median follow-up 37 months); 22 patients (25.6%) are off-therapy and disease-free. The actual dosage of DNM received during induction turned out to be an independent DFS prognostic factor. In fact, patients who received more or less than 175 mg/sqm in induction had a median DFS of 44 and 12 months, respectively (p = 0.05). The plateau of DFS in the two groups was 44% and 21%, respectively. Similar data were found analyzing the dose-intensity (mg/sqm/week) of DNM given in induction. Our data suggest that the actual dosage of DNM given in induction plays a role in the long term DFS of adult ALL.
Leukemia 1994 Mar
PMID:Relationship between Daunorubicin dosage delivered during induction therapy and outcome in adult acute lymphoblastic leukemia. 812 42

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