UMLS:C0023418 - FACTA Search

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

The acridine derivative AMSA, Amsacrine, is a new anticancer drug which was effective in patients with advanced AML and ALL in studies performed in USA. In a multicenter phase II trial we treated 27 patients with acute resistant leukemia with AMSA. All presented progressive disease following several drug combination regimens. Out of the 25 evaluable patients 5 were resistant to primary therapies, 13 were in 2nd relapse, 6 in 3rd, and 1 in 4th relapse. Dosage was 75 mg/m2, iv, day 1-7, all 3-5 weeks. On an average, only 76% of the planned dose per cycle could be given, due to severe leucopenia. From 21 patients with ALL, 1 CR and 3 PR were observed; the 3 patients with ALL presented 1 CR and 1 PR. 1 AUL showed progressive disease. In all patients a marked cell reduction could be observed in the peripheral blood. The general tolerance was good. The most important side-effect was bone-marrow toxicity, 48% (12/25) presented leucopenia less than or equal to 600/mm3, 5 (20%) had fatal septic complications. All 5 early death presented high initial leucocyte counts of greater than or equal to 32.000 mm3 as a common risk factor. In conclusion, AMSA is an effective drug in heavily pretreated patients with AML and ALL.
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PMID:[Phase II study of AMSA in adults with acute therapy-refractory leukemias]. 635 48

The recently developed acridine derivative 4'-[(9-acridinyl)amino] methanesulphon-m-anisidine (m-AMSA) has become one of the preferred agents in the management of acute leukaemia but little is known of its effects on cellular immune components. We evaluated the qualitative and quantitative effects of m-AMSA on immune cell numbers and function, during both the leucopenic and myelorestorative phases, following intermittent high-dose therapy. Cell-mediated and inflammatory responses were depressed in the treated animals during the leucopenic phase but restoration of immune capability paralleled the recovery of circulating leucocyte numbers. Additionally, m-AMSA displayed unexpected immunomodulatory features: thymus-dependent antibody and delayed-type hypersensitivity responses were actually increased, suggesting the potential of m-AMSA as an immunoregulator in clinical and experimental studies.
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PMID:Quantitative and qualitative effects of m-AMSA (amsacrine) on cellular immune components. 638 83

The 4-(N-methylcarboxamido)-5-methyl derivative of amsacrine (NSC 249 992) has been synthesized as part of a program aimed at optimizing solid tumor activity in this series. Physicochemical studies of this analogue (N-5-dimethyl-9-[(2-methoxy-4-methylsulfonylamino) phenylamino]-4-acridinecarboxamide; NSC 343 499) indicate a slightly increased lipophilicity (estimated log p = 1.10), a decreased acridine base strength (pKa 6.40), and a 16-fold-higher association constant for double-stranded calf thymus DNA (Ka 2.1 X 10(6) M-1 at 0.01 ionic strength). Like amsacrine, the drug binds to DNA by intercalation. Inhibition of cell growth has been monitored by continuous drug exposure assays with a variety of rodent and human cell lines. The concentration for 50% inhibition varied from 6.7 nM (T-47D, a human breast carcinoma line) to 800 nM (P388/ADR, a murine cell line resistant to Adriamycin). N-5-Dimethyl-9-[(2-methoxy-4-methylsulfonylamino) phenylamino]-4-acridinecarboxamide was cytotoxic at growth-inhibitory concentrations and also induced cell cycle arrest in the G2 phase. It was active against P388 leukemia following administration by p.o., i.v., or i.p. routes, and it was superior to amsacrine, daunorubicin, and Adriamycin. It was curative towards i.v.-injected Lewis lung tumor in a proportion of animals when treatment was started on Day 1 or Day 5 after tumor inoculation. It also produced highly significant life extensions against advanced tumors (treatment starting Day 9 after i.v. inoculation or on Day 8 after s.c. inoculation) and was comparable to cyclophosphamide in its effectiveness. It is a candidate drug for clinical trial.
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PMID:Synthesis, antitumor activity, and DNA binding properties of a new derivative of amsacrine, N-5-dimethyl-9-[(2-methoxy-4-methylsulfonylamino) phenylamino]-4-acridinecarboxamide. 654 35

4'-(9-Acridinylamino)-methanesulfon-m-anisidide (m-AMSA) is an acridine compound that has been found useful in the systemic treatment of acute leukemia. This paper specifically investigates the CSF pharmacokinetics of m-AMSA following both intravenous and intraventricular administration in a subhuman primate model. Following intravenous administration, m-AMSA crossed the blood-brain barrier poorly; cerebrospinal fluid (CSF) concentrations were only 1-3% of systemic concentrations. Intraventricular administration of drug achieved high initial ventricular fluid concentrations, but the drug was rapidly cleared with a half-life of 115 min. Following 500 micrograms of intraventricular drug, CSF concentrations of m-AMSA remained above 1 microM for only 6 h. These data suggest that m-AMSA has potential as an intrathecal agent against meningeal leukemia refractory to more conventional therapy, but detailed toxicology and neurohistopathology will be required before intra-CSF m-AMSA can be considered for human use.
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PMID:Intrathecally administered m-AMSA in the rhesus monkey. 654 72

Kinetics of transport of the acridine derivative 4'-(9-acridinylamino)-methanesulfon-m-anisidide (m-AMSA) were examined in P388 murine leukemia cells and in P388/ADR, a subline selected for adriamycin resistance and cross-resistant to a variety of drugs including m-AMSA. Compared with the drug-responsive parent cell line, P388/ADR cells showed impaired accumulation of m-AMSA and an enhanced rate of drug exodus. Competition studies demonstrated structural specificity of the outward transport process. There was a low degree of intracellular m-AMSA binding, and steady-state drug levels were reached in less than 1 min. These results suggest that m-AMSA will be a useful probe for studying transport systems associated with anthracycline resistance.
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PMID:m-AMSA as a probe for transport phenomena associated with anthracycline resistance. 658 5

m-AMSA, an acridine dye derivative, has been utilized in 36 patients with advanced hematologic malignancies. In 22 patients with lymphoma receiving 120 mg/m2 every 3 weeks, 10(45%) have achieved remissions. Eight of these remissions have been partial. The median duration of remission in patients with lymphoma was 3 months (range 1-12+ months). In 11 patients with acute leukemia receiving m-AMSA, 40 mg/m2 t.i.d. for 5 days, three (27%) have achieved remissions. Two of the three remissions have been complete. All three remissions in patients with leukemia were sustained for 1 month. Two patients with myeloma and one patient with chronic lymphocytic leukemia failed to respond. The major toxicity of m-AMSA has been myelosuppression. The dose-limiting toxic effect in patients with lymphoma was neutropenia. Nausea and vomiting, alopecia, phlebitis, and hepatic dysfunction have been noted in a minority of patients. Phlebitis appeared to be prevented with heparin administration after m-AMSA infusion. One fatal arrhythmia occurred, apparently related to therapy. m-AMSA appears active in advanced leukemia and lymphoma. Further studies are merited, particularly in combination with known effective agents, in order to improve upon remission duration.
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PMID:m-AMSA: phase II trial in advanced lymphoma and leukemia. 658 46

A series of acridine monosubstituted derivatives of the antitumour agent amsacrine [4'-(9-acridinylamino)methanesulphon-m-anisidide] has been tested for activity against intraperitoneally inoculated P388 leukaemia and intravenously inoculated Lewis lung carcinoma growing in DBA/2J X C57BL/6J mice, and treated using a q4d X 3 intraperitoneal injection schedule. Whereas all derivatives tested exhibited moderate to high activity towards the leukaemia, activity against the lung tumour varied from inactive to curative. Amsacrine itself displayed low but statistically significant activity. Cyclophosphamide and 2-beta-D-ribofuranosylthiazole-4-carboxamide (tiazofurin) were highly active. 5-Fluorouracil was active but doxorubicin, daunorubicin, ametantrone and mitoxantrone showed no significant activity. Since the Lewis lung carcinoma is responsive to a high proportion of agents active against solid tumours in the clinic, it is concluded that some derivatives of amsacrine could be considerably more active than amsacrine itself against human solid tumours.
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PMID:Divergent activity of derivatives of amsacrine (m-AMSA) towards Lewis lung carcinoma and P388 leukaemia in mice. 668 94

Replacement of the 1'-methanesulfonamide group of the 9-anilinoacridine class of antitumor agents with the 1'-(dimethyl phosphoramidate) group provides compounds that are generally more lipophilic and bind more tightly to DNA. On the average, the dimethyl phosphoramidates are twice as dose potent as the corresponding methanesulfonamide (AMSA) compounds against P388 leukemia in vivo, but also show about twice the acute toxicity and no resultant improvement in tumor cell selectivity (ILSmax values) is seen. A pairwise comparison of a range of acridine-substituted compounds shows that structure-activity relationships within each series are similar and dominated by the acridine substitution pattern.
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PMID:Potential antitumor agents. 42. Structure-activity relationships for acridine-substituted dimethyl phosphoramidate derivatives of 9-anilinoacridine. 674 89

The growth-inhibitory activity of 4'-(9-acridinylamino)methanesulfon-m-anisidide and 47 acridine-monosubstituted derivatives has been measured using cultures of L1210 murine leukemia cells grown for 3 days in the presence of each drug. The results have been compared with previously published in vivo antitumor activity and physicochemical properties related to DNA binding, acridine base strength, stability to chemical attack by thiols, and lipophilicity. Multiple-parameter regression equations show that both dose potency and host toxicity in mice are related to a combination of in vitro activity and a nonlinear (quadratic) term in lipophilicity. The in vitro activity can in turn be modeled as a combination of terms representing DNA binding, ability to quench the fluorescence of DNA-bound ethidium stability to thiolysis, and lipophilicity. It is hypothesized that the terms for thiolytic stability and lipophilic-hydrophilic balance describe the availability of the drug to the cell, and that the DNA binding constant determines what proportion of the available drug is bound to DNA, the proposed target site. The remaining terms could reflect changes in the geometry of drug-DNA binding, which in turn affect the intrinsic activity of these drugs when bound at their site of action.
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PMID:Comparison of the in vivo and in vitro antileukemic activity of monosubstituted derivatives of 4'-(9-acridinylamino)methanesulfon-m-anisidide. 689 81

A newly developed flow cytometry technique for simultaneous measurements of three features of individual cells--DNA, RNA, and nuclear diameter--using acridine orange as a fluorescent metachromatic dye, has been applied to cell-cycle analysis. DNA stemline determination, and to classification of 102 cases of human leukemias in adults. Acute lymphoblastic leukemia (L1-2) was characterized by moderately increased RNA of G0/1 cells as compared to normal lymphocytes; acute nonlymphoblastic leukemia (M 1-5) by very high RNA of G0/G1 cells. Both had either diploid or aneuploid DNA stemlines. Chronic lymphocytic leukemia showed diploid DNA, very low proliferation, and low RNA, similar to that found by use to be typical for normal B cells. In chronic myelogenous leukemia, two cell populations were distinguished, one with high RNA, the other with very low RNA and elongated nuclear diameter due to stripped, unfolded nuclei of polymorphonuclear leukocytes. The number of leukemic blast cells, identified by aneuploid DNA values, correlates well with conventional microscopy counts and could be followed during the course of treatment. Thus, acridine orange flow cytometry can be used to discriminate subtypes of human leukemias, to determine cell cycle stages, and to detect and monitor aneuploid leukemia stemlines.
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PMID:Discrimination of human leukemia subtypes by flow cytometric analysis of cellular DNA and RNA. 692 6

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