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)

Iron (Fe) depletion with anti-transferrin (Tf) receptor monoclonal antibodies (MAbs), Fe chelators, or gallium (Ga) salts inhibits in vitro and in vivo growth of tumor cells. The present studies examined the cytotoxic effects of an IgA anti-human Tf receptor MAb, 42/6, combined with parabactin, a powerful Fe chelator, or Ga nitrate. Parabactin inhibited in vitro growth of human hematopoietic and solid tumor cells, and the rank order of their sensitivities to the Fe chelator was identical to their relative sensitivity to MAb 42/6 as demonstrated in previous studies. When the most parabactin and MAb 42/6-sensitive (HL60 leukemia) and -resistant (KB carcinoma) cells were incubated with various concentrations of parabactin, cell killing was time and dose dependent over the first 24 hours. Little additional cytotoxicity occurred, however, when cells were exposed to parabactin for 48 hours. HL60 cells were slightly more sensitive than KB cells to parabactin cytotoxicity. Addition of optimally effective concentrations of anti-Tf receptor MAb 42/6 to parabactin increased cytotoxicity to HL60 cells over a narrow parabactin dose range but had little effect on cytotoxicity to KB cells. Cell cycle analysis of cells treated with parabactin for 24 hours showed that doses causing variable cytotoxicity increased the percentage of cells in S phase, but higher parabactin concentrations consistently arrested cells in G1 phase or at the G1/S interface. MAb 42/6 also increased toxicity of parabactin to granulocyte/macrophage colony-stimulating factors and normal marrow granulocyte/macrophage progenitors. When HL60 or KB cells were treated with MAb 42/6 combined with Ga nitrate, MAb 42/6 increased cytotoxicity of Ga for HL60 cells but had little or no effect on Ga cytotoxicity to KB cells. In contrast, MAb 42/6 had minimal effects on cytotoxicity of the ribonucleotide reductase inhibitor, isoquinaldehyde thiosemicarbazone, to either HL60 or KB cells. Both hematopoietic and solid tumors were killed by Fe depletion, but the present studies suggested that hematopoietic cells are more sensitive than solid tumor cells to cytotoxic effects of Fe depletion. Combined Fe depletion therapy by the use of MAb 42/6 with an Fe chelator or Ga salt increased toxicity to MAb 42/6-sensitive cells, such as HL60, but was not more effective against MAb 42/6-resistant solid tumor cells. Combination Fe depletion therapy of hematopoietic cell tumors merits evaluation in experimental in vivo tumor systems.
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PMID:Combination iron depletion therapy. 266 76

The fluoropyrimidines, FUra and 5-fluoro-2'-deoxyuridine (FUdR), have been found to be more growth inhibitory and cytotoxic to both mouse and human tumor cells when grown in cell culture medium containing folinic acid. The increment in the activity of these drugs observed in folinate-containing medium was similar for a mouse leukemia cell line and for 4 human leukemia cell lines. This suggests that the mechanism of action of the fluoropyrimidines against these mouse and human cell lines is similar. The most probable mechanism of the interaction between folinic acid and the fluoropyrimidines is stabilization of thymidylate synthase (TS) in inactive complexes with 5-fluoro-2'-deoxyuridine-5'-monophosphate (FdUMP) and folate cofactor. Such trapping of enzyme in inactive form would negate the effects of the accumulation of the reaction substrate 2'-deoxyuridine-5'-monophosphate. It is suggested that the combination of FUra with folinic acid and, in addition, an inhibitor of ribonucleotide reductase such as hydroxyurea may be more effective than FUra and folinic acid alone.
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PMID:Biochemical rationale for the synergism of 5-fluorouracil and folinic acid. 296 29

Hydroxyurea, hydroxyguanidine, and some thiosemicarbazones have been shown to have anticancer and antiviral activities. One of their possible sites of action is the enzyme ribonucleotide reductase (RR). Combination of the structural features of these compounds led to the design and synthesis of the Schiff bases of N-hydroxy-N'-aminoguanidine. Synthesis and structure-activity studies of some of these compounds point to increased size and lipophilicity as important factors for activity. To optimize the activities of this series of compounds, 13 derivatives of high lipophilicity and molecular size have been synthesized and their biological activities studied. The most active anticancer compounds against L1210 in vitro (compounds 9 and 12) are about 7 times more active than hydroxyguanidine and hydroxyurea. The most active antiviral compounds against Rous sarcoma virus transformation of chick fibroblasts in vitro (7, 9) are about 40 times more active than hydroxyguanidine. One of the compounds (4) shows promising activity in vivo (% T/C = 140 against P388 leukemia in mice) and is undergoing further studies by the National Cancer Institute (NCI). Studies of the inhibition of transformation of chick embryo cells by Rous sarcoma virus show that all these compounds inhibit transformation while some compounds inhibit viral replication as well.
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PMID:Optimization of the Schiff bases of N-hydroxy-N'-aminoguanidine as anticancer and antiviral agents. 299 20

The bis derivative 6 of 8-hydroxyquinoline, which, like tropolones, readily forms a chelate, was synthesized and found to have high potency (dose = 12.5 mg/kg, T/C % = 164) against leukemia P388 in mice approximately equivalent to that of the bistropolone 1b. 8-Hydroxyquinoline analogues with broad structural variation were synthesized and their structure-activity relationships followed the same pattern as in the tropolone series. In addition, the bistropolones 1a-e were tested for their ability to bind to tubulin and found to have no such property. The results of this study suggested that bistropolone and bis(8-hydroxyquinoline) derivatives must form a chelate with the metal necessary for the enzyme, such as ribonucleotide reductase, which catalyzes the DNA biosynthetic pathways.
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PMID:Synthesis and antitumor activity of tropolone derivatives. 6. Structure-activity relationships of antitumor-active tropolone and 8-hydroxyquinoline derivatives. 311 57

This report describes a structure-activity analysis of isomers of three classes of dihydroxybenzene derivatives, including dihydroxybenzaldoxime, dihydroxybenzaldehyde, and dihydroxybenzonitrile. These derivatives were examined for their effect on ribonucleotide reductase activity, macromolecular synthesis, cell growth, and in vivo antitumor activity against the L1210 murine leukemia. One of the compounds studied exhibited significant antitumor activity against the growth of L1210 leukemia cells. A comparison of the various analogues revealed a possible correlation for 3,4-dihydroxybenzaldoxime between its potent inhibitory effect toward ribonucleotide reductase activity (IC50 = 38 microM) and its superior L1210 antitumor activity [percent increased life span (% ILS) = 100].
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PMID:Antitumor effects of biologic reducing agents related to 3,4-dihydroxybenzylamine: dihydroxybenzaldehyde, dihydroxybenzaldoxime, and dihydroxybenzonitrile. 331 71

The ribonucleotide reductase inhibitors deferoxamine and hydroxyurea induce monocyte-macrophage cell differentiation in the leukemic cell line HL-60 as judged by the expression of cell surface antigens, nonspecific esterase activity, and morphological changes. Treatment of HL-60 cells with deferoxamine results in inhibition of DNA synthesis and irreversible loss of colony-forming ability. In addition, both deferoxamine and hydroxyurea caused an increase in the number of DNA strand breaks in HL-60 cells. A DNA methylating agent, N-methyl-N'-nitro-N-nitrosoguanidine, also caused cellular differentiation in HL-60 cells associated with DNA strand breaks. These observations are consistent with a role for DNA damage or for inhibition of DNA synthesis and repair in the differentiation process of HL-60 cells.
Leukemia 1987 May
PMID:Effect of deferoxamine on DNA synthesis, DNA repair, cell proliferation, and differentiation of HL-60 cells. 331 41

Ribonucleotide reductase catalyzes the rate-limiting step in the de novo synthesis of 2'-deoxyribonucleoside 5'-triphosphates that is required for DNA replication. The mammalian enzyme consists of two nonidentical protein subunits that are both required for enzyme activity. In leukemia L1210 cells, enriched in G1-phase cells by centrifugal elutriation, it was found that ribonucleotide reductase activity increased as the cells progressed to S-phase. The two subunits making up the holoenzyme did not increase coordinately. The nonheme iron subunit increased much more rapidly than the effector-binding (EB) subunit. The activity of the holoenzyme paralleled the level of the EB subunit, which was limiting. The half-lives of the holoenzyme and its subunits were determined in S-phase cells by treatment with cycloheximide. The half-lives of the holoenzyme and the nonheme iron and EB subunits, as determined by enzyme activity, were 3.5, 7.6, and 4 h, respectively. These half-lives are consistent with the data that indicate that the EB subunit is the limiting component in L1210 cells.
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PMID:Differential turnover of the subunits of ribonucleotide reductase in synchronized leukemia L1210 cells. 353 76

The biochemical modulation of tumor cell response to increase the cytotoxicity of Hydroxyurea (HU), directed at the ribonucleotide reductase enzyme, has been studied in in vitro. Mice bearing ascites tumor models such as L1210 leukemia, Sarcoma 180 (S180) and Ehrlich ascites tumor (EAT) were employed in this study. The cytotoxicity of HU alone at various concentrations was dose dependent and showed the following order of sensitivity; L1210 greater than EAT greater than S180. The hydrophobic iron-chelating agent 2,2-bipyridyl significantly potentiated the antitumor activity of HU in all the murine tumor models studied. In contrast, hydrophilic iron-chelator, Desferal, did not show any cytotoxicity when combined with HU. The present study demonstrated the factors influencing the amelioration of HU cytotoxicity and possible therapeutic use of iron-chelating agents alone and with HU for better therapeutic results in clinics.
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PMID:Potentiation of hydroxyurea cytotoxicity by iron-chelating agent in murine tumor models in vitro. 377 2

The toxicity and metabolism of a thymidine analogue, 5-hydroxymethyl-2'-deoxyuridine (5HmdUrd) were studied with human leukemia cells (HL-60) and with human platelets. 3 X 10(-5) M 5HmdUrd caused a 50% inhibition in the proliferation of HL-60 cells. The compound was hydrolyzed to 5-hydroxymethyluracil (5HmUra) by the enzyme thymidine phosphorylase (EC 2.4.2.4) present in leukemia cells; this catabolic product was non-toxic. The catabolism of 5HmdUrd by human platelet thymidine phosphorylase could be inhibited by 6-aminothymine. The toxicity of 5HmdUrd was effectively reversed by deoxycytidine and 5HmdUrd increased the incorporation of deoxycytidine into dCTP and DNA several fold. The two latter phenomena are explicable in terms of a feedback action to ribonucleotide reductase, resulting in deoxycytidylate starvation, which is a known effect of excess thymidine. We report here also our preliminary observations that 5HmdUrd is active against mouse leukemia in vivo.
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PMID:In vitro and in vivo studies of a promising antileukemic thymidine analogue, 5-hydroxymethyl-2' deoxyuridine. 379 Jan 49

A series of iron chelating agents including the bacterial siderophores, parabactin and bis-N1,N8(2,3 dihydroxybenzoyl )spermidine, and four related compounds were synthesized and tested biologically. They were found: (a) to inhibit growth of cultured L1210 leukemia cells at IC50 values of 2-14 microM, (b) to inhibit replication of the DNA virus, herpes simplex type I, in monkey kidney cells at IC50 values of 0.4 microM ( parabactin ) to 55 microM, and (c) to be inactive against the RNA virus, vesicular stomatitis, at concentrations up to 1 mM. All effects were fully preventable by exogenous Fe (III). The activities correlated generally with the iron formation constants (10(36) to 10(48) moles/1) and more specifically with the lipophilicity of the compounds. The data suggest inhibition of DNA (but not RNA) synthesis by interference with the iron-containing enzyme, ribonucleotide reductase.
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PMID:Antineoplastic and antiherpetic activity of spermidine catecholamide iron chelators. 633 31

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