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)

Adult T cell leukemia-derived factor (ADF) is a human thioredoxin (Trx) and is a disulfide reducing protein with various biological functions. We found that expression of the ADF/Trx gene was increased by oxidative agents such as hydrogen peroxide, diamide and menadione in Jurkat cells. Analysis using a CAT expression vector plasmid under the control of the ADF/Trx gene promoter revealed that CAT gene expression in Jurkat cells was increased after exposure to oxidative agents. A series of deletion analyses showed that a region from -976 to -890 of the 5' flanking sequence was required for enhancement of ADF/Trx promoter activity against the oxidative agents. Gel mobility shift assay revealed the specific DNA binding activities to the sequences from -953 to -930 in the nuclear extracts from the Jurkat cells. The sequences in this region showed no homology with any known consensus sequences for DNA binding factors. It is suggested that ADF/Trx gene expression is enhanced through a novel cis-acting regulatory element responsive for the oxidative stress and a new factor(s) is involved in this oxidative stress responsive element.
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PMID:A novel promoter sequence is involved in the oxidative stress-induced expression of the adult T-cell leukemia-derived factor (ADF)/human thioredoxin (Trx) gene. 875 6

Adult T-cell leukemia is associated with high levels of neopterin, released in large amounts from human macrophages upon stimulation with interferon-gamma. Recent data suggested a potential role of neopterin-derivatives in oxygen radical-mediated processes, and evidence accumulates that oxidative stress is involved in the pathogenesis of viral diseases. We now report that increased concentrations of 7,8-dihydroneopterin may lead to enhanced apoptosis and disturbance of the redox-balance of human leukemic Jurkat T cells. Additionally, we demonstrate that 7,8-dihydroneopterin and hydrogen peroxide activate the type 1 human T-cell leukemia virus (HTLV-1) long terminal repeat (LTR). Furthermore, we found that the activity of the HTLV-1 transactivator protein Tax is amplified by an elevated concentration of 7,8-dihydroneopterin. Tax did not significantly augment 7,8-dihydroneopterin mediated apoptosis. Based on our data we propose that 7,8-dihydroneopterin may be involved in the progression to higher stages of HTLV-1 associated disease.
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PMID:Role of 7,8-dihydroneopterin in T-cell apoptosis and HTLV-1 transcription in vitro. 895 Sep 96

Mitoxantrone (1,4-dihydroxy-5,8-bis[2-[(2-hydroxyethyl)amino]ethyl]amino-9,10-anth rac enedione; MXH2) is a novel anticancer agent that is useful in the treatment of leukemia and breast cancer. In contrast to other anthracenedione-based agents, this drug causes fewer side effects, mainly because it is resistant to metabolic reduction. We investigated the interaction between MXH2 and inorganic nitrite (NO2-) in aqueous solutions and found that this drug undergoes acid-catalyzed oxidation by nitrite. The rate of this reaction measured versus [NaNO2] at constant pH or versus pH at constant [NaNO2] was found to be directly proportional to the actual HNO2 concentration, indicating HNO2 to be the major oxidizing species. Involvement of .NO and/or NO2. radicals as minor oxidants is suggested based on the dependence of the rate of oxidation on the presence of air. Spectrophotometric and electron paramagnetic resonance analyses indicate that early products of the reaction are identical to those generated by oxidation of MXH2 by a horseradish peroxidase/hydrogen peroxide system. The major product is hexahydronaphtho[2,3-f]quinoxaline-7,12-dione, which is formed by intramolecular cyclization of one alkylamino side chain in the oxidized, diiminoquinone MX(N) form of the drug. This study shows that MXH2 effectively scavenges HNO2 and possibly other nitrogen oxides. Because these reactive forms of nitrogen may be present in vivo, this property of the drug may be relevant to its biological or perhaps anticancer activities.
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PMID:Acid-catalyzed oxidation of the anticancer agent mitoxantrone by nitrite ions. 896 84

A useful synthetic methodology was developed to synthesize and radiolabel a series of (E)-5-(2-[125I]iodovinyl)uracil nucleoside substrates for herpes simplex virus type-1 thymidine kinase (HSV-1 TK). (E)-5-(2-[125I]Iodovinyl)-2'-deoxyuridine ([125I]IVDU, 10), (E)-5-(2-[125I]iodovinyl)-2'-fluoro-2'-deoxyuridine ([125I]IVFRU, 11), (E)-5-(2-[125I]iodovinyl)-2'-fluoro-2'-deoxyarabinouridine ([125I]IVFAU, 12), and (E)-5-(2-[125I]iodovinyl)arabinouridine ([125I]IVAU, 13) were synthesized in 63-83% radiochemical yield by reaction of the unprotected (E)-5-(2-(trimethylsilyl)vinyl) precursors (6-9) with [125I]ICl. Cellular uptake of these labeled compounds (10-13) was evaluated in vitro. All compounds showed minimal uptake in the KBALB cell line. However, increased uptake was observed for all compounds in KBALB-STK cells which are transduced with a replication incompetent Moloney murine leukemia virus vector encoding the HSV-1 TK gene. The results indicate that uptake of these compounds in KBALB-STK cells is variable and highly dependent on the nature of the sugar 2'-substituent. When a fluoro (12) or a hydroxy (13) substituent is present in the arabinofuranosyl (up) configuration at the 2'-position, there is diminished cellular uptake in KBALB-STK cells relative to hydrogen (10) or fluorine (11) in the ribofuranosyl (down) configuration at the 2'-position. Our results indicate that radiolabeled IVFRU (11) is most promising for further in vivo studies.
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PMID:Synthesis and cellular uptake of 2'-substituted analogues of (E)-5-(2-[125I]iodovinyl)-2'-deoxyuridine in tumor cells transduced with the herpes simplex type-1 thymidine kinase gene. Evaluation as probes for monitoring gene therapy. 921 37

Although many compounds have been found that bind to DNA in various ways and exhibit various biological activities, few compounds that specifically bind to RNA or RNA:DNA hybrids are known, even though such compounds are expected to have important biological properties. For example, one characteristic function of the retroviruses, which is generally not found in eukaryotic cells, is the production of an RNA:DNA hybrid in the viral replication phase. If an agent is designed to bind only to an RNA:DNA hybrid, and not to DNA or to RNA, such an agent might be able to inhibit specifically the RNase H activity of retroviral reverse transcriptase, and therefore suppress viral replication. Actinomycin D is known to bind to double-stranded DNA, but not to RNA, because steric hindrance between the 2-amino group of the phenoxazone ring and the 2'-hydroxyl group of RNA prevents intercalation of the compound. However, if the > C-H moiety at the 8-position of the phenoxazone ring is replaced by a > C-F, a possible hydrogen-bond acceptor, this analogue (8-fluoro-actinomycin D, F8AMD) might be able to bind intercalatively to an RNA:DNA hybrid by forming an additional hydrogen bond between F8 and the 2'-hydroxyl group of the guanosine ribose. To test this hypothesis, the crystal structure of d(GAAGCTTC)2-F8AMD has been determined at 3.0 A resolution. Based on this crystal structure, a model in which F8AMD binds into the hybrid r(GAAGCUUC):d(GAAGCTTC) has been built using molecular mechanics and dynamic methods. These structural studies indicate that F8AMD binds intercalatively to a B-form double-stranded DNA whereas the drug intercalates into an RNA:DNA hybrid taking an A-form conformation. In the RNA:DNA hybrid complex, the F8 atom is located so as to be able to interact to an O2' hydroxyl group with either an O-H...F hydrogen bond or H+...F- electrostatic interaction. This interaction might stabilize the F8AMD molecule in the RNA:DNA hybrid. A binding study indicates that both actinomycin D (AMD) and F8AMD bind intercalatively not only to double-stranded DNAs, but also to RNA:DNA hybrids. Although the overall binding capacity of F8AMD (k = 4.5 x 10(5) M-1) is reduced slightly in comparison with AMD itself (k = 1.8 x 10(6) M-1), F8AMD tends to bind relatively more favorably than AMD to the RNA:DNA hybrids. The drugs' effects on RNA synthesis in HeLa cells indicates that the binding capacities of AMD and F8AMD correlates strongly to their RNA synthesis inhibitory activities. F8AMD required a concentration of 78 nM to inhibit RNA polymerase activity in HeLa cells by 50%, whereas AMD reached the same inhibitory level at 30 nM. Surprisingly, F8AMD exhibits unique selectivity against leukemia cells as does another C8-derivatized AMD analogue, N8AMD. F8AMD inhibits 50% of leukemia cell growth at less than 1.0 nM whereas 10- to 130-fold-higher drug concentrations are required to inhibit the growth of other tumor cell lines by 50%. The GI50 value of F8AMD for leukemia cells is the lowest among the GI50 values for all other AMD derivatives tested. By contrast, AMD is quite potent and kills most cells at less than 50 nM concentration, but it does not show any selectivity for certain cell lines. This indicates that AMD should have very limited use as an antitumor agent. It is difficult to rationalize why F8AMD and N8AMD show such strong selectivity against leukemia cells. However, this study and our previous study (J. Am. Chem. Soc. 1994, 116, 7971) indicated that F8AMD and N8AMD tended to bind more favorably to RNA:DNA hybrids. Thus, the unique antileukemia selectivity shown by F8AMD and N8AMD might be used by the agents binding to RNA:DNA hybrids rather than to double-stranded DNA.
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PMID:Selectivity of F8-actinomycin D for RNA:DNA hybrids and its anti-leukemia activity. 922 13

Thioredoxin peroxidase (TPx) is a member of a newly discovered family of proteins that are conserved from yeast to mammals and to which natural killer enhancing factor belongs. These proteins are antioxidants that function as peroxidases only when coupled to a sulfhydryl reducing system. The physiological function of TPx in cells is not yet known. Here we demonstrate that when the human TPx II, a member of this family, is stably overexpressed in Molt-4 leukemia cells, it protects from apoptosis induced by serum deprivation, ceramide, or etoposide. TPx II, like Bcl-2, is able to inhibit release of cytochrome c from mitochondria to cytosol, and it inhibits lipid peroxidation in cells. TPx II, unlike Bcl-2, could prevent hydrogen peroxide accumulation in cells, suggesting that it functions upstream of Bcl-2 in the protection from apoptosis and may be implicated as an endogenous regulator of apoptosis.
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PMID:Thioredoxin peroxidase is a novel inhibitor of apoptosis with a mechanism distinct from that of Bcl-2. 938 94

Mitoxantrone [1,4-dihydroxy-5,8-bis[[2-[(2-hydroxyethyl)amino]ethyl] amino]-9,10-anthracenedione, MXH2] is a novel anticancer agent frequently employed in the chemotherapy of leukemia and breast cancer. Earlier studies have shown that metabolic oxidation to reactive 1,4-quinone or/and 5,8-diiminequinone intermediates may be an important mechanism of activation of this agent, pertinent to its cytotoxic action in vivo. Here we report that in the presence of nitrite ions (NO2-), MXH2 undergoes oxidation by the mammalian enzyme lactoperoxidase (LPO) and hydrogen peroxide and that the process proceeds at a rate that is proportional to NO2- concentration. In contrast, when MXH2 was exposed to LPO/H2O2 in the absence of nitrite, oxidation of the drug was either completely absent or markedly inhibited. These experiments were carried out using concentrated solutions of MXH2 (approximately 100 microM) at near neutral pH where dimers of the drug predominate. We propose that oxidation of MXH2 is mediated by an LPO/ H2O2 metabolite of NO2-, most likely the .NO2 radical. Because in mitoxantrone therapy the drug is administered intravenously, it is directly exposed to nitrogen oxides and other free radicals produced by blood components. It is therefore possible that the ability of mitoxantrone to react with the nitrogen dioxide radical may be relevant to the biological action of the drug in vivo.
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PMID:Lactoperoxidase-catalyzed oxidation of the anticancer agent mitoxantrone by nitrogen dioxide (NO2.) radicals. 943 21

Beta-Lapachone a novel topoisomerase inhibitor, has been found to induce apoptosis in various human cancer cells. In this study we report that a dramatic elevation of hydrogen peroxide (H2O2) in human leukemia HL-60 cells following 1 microM beta-lapachone treatment and that this increase was effectively inhibited by treatment with antioxidant N-acetyl-L-cysteine (NAC), ascorbic acid, alpha-tocopherol. NAC strongly prevented beta-lapachone-induced apoptotic characteristics such as DNA fragmentation and apoptotic morphology. However, treatment of HL-60 cells with another topoisomerase inhibitor camptothecin (CPT) did not induce H2O2 production as compared to untreated cells. NAC also failed to block CPT-induced apoptosis. Correlated with these findings, we found that cancer cell lines K562, MCF-7, and SW620, contained high level of intracellular glutathione (GSH), were not elevated in H2O2 and were resistant to apoptosis after treatment with beta-lapachone. In contrast, cancer cell lines such as, HL-60, U937, and Molt-4 which have lower level of GSH, were readily increased of H2O2 and were sensitive to this drug. Furthermore, ectopic overexpression of Bcl-2 in HL-60 cells also attenuated beta-lapachone-induced H2O2 and conferred resistance to beta-lapachone-induced cell death. Beta-Lapachone at the concentration as low as 0.25 microM effectively induced HL-60 cells to undergo monocytic differentiation, as evidenced by CD14 antigenicity and alpha-naphthyl acetate esterase activity. Again, the beta-lapachone-induced monocytic differentiation was suppressed by NAC. These results suggest that intracellular H2O2 generation plays a crucial role in beta-lapachone-induced cell death and differentiation.
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PMID:Involvement of hydrogen peroxide in topoisomerase inhibitor beta-lapachone-induced apoptosis and differentiation in human leukemia cells. 955 79

We have used a human leukemia cell line that, after homologous recombination knockout of the gp91-phox subunit of the phagocyte respiratory-burst oxidase cytochrome b-558, mimics chronic granulomatous disease (X-CGD) to study the role of oxygen radicals in apoptosis. Camptothecin (CPT), a topoisomerase I inhibitor, induced significantly more apoptosis in PLB-985 cells than in X-CGD cells. Sensitivity to CPT was enhanced after neutrophilic differentiation, but was lost after monocytic differentiation. No difference between the two cell lines was observed after treatment with other apoptosis inducers, including etoposide, ultraviolet radiation, ionizing radiation, hydrogen peroxide, or 7-hydroxystaurosporine. After granulocytic differentiation of both cell lines, CPT still induced apoptosis, suggesting independence from replication in fully differentiated and growth-arrested cells. Pyrrolidine dithiocarbamate (an antioxidant inhibitor of NF-kappaB) and catalase partially inhibited CPT-induced DNA fragmentation in granulocytic-differentiated PLB-985 cells, but had no effect in X-CGD cells. Flow cytometry analysis revealed that reactive oxygen intermediates were generated in CPT-treated PLB-985 cells. These data indicate that oxygen radicals generated by NADPH oxidase may contribute directly or indirectly to CPT-induced apoptosis in human leukemia and in neutrophilic-differentiated cells.
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PMID:Role of oxygen radicals generated by NADPH oxidase in apoptosis induced in human leukemia cells. 983 21

Nitric oxide (NO) released from (Z)-1-[N-(2-aminoethyl)-N-(2-ammonioethyl)amino]diazen-1- ium-1,2-diolate (DETA/NO or NOC-18) induces apoptosis in human leukemia HL-60 cells. In this study, we isolated a HL-60 variant cell line, HL-NR6, that is resistant to DETA/NO toxicity as assessed by DNA fragmentation, morphology, and colony forming ability. The variant cells also showed resistance to reactive oxygen species (ROS) such as superoxide and hydrogen peroxide as well as NO donors, but not to anti-tumor drugs. We found that HL-NR6 cells when compared with HL-60 cells possessed twice the activities of Cu,Zn-superoxide dismutase (Cu,Zn-SOD) and catalase, but no change in Mn-SOD nor in glutathione peroxidase. Immunoblotting confirmed the high levels of both enzymes in the variant cell. We also observed that ROS generation following DETA/NO exposure was substantially higher in HL-60 cells than in HL-NR6 cells, using the 2',7'-dichlorofluorescein fluorometric method. Moreover, the SOD mimetic Mn(III) tetrakis(1-methyl-4-pyridyl) porphyrin and exogenous catalase effectively attenuated DETA/NO-elicited DNA fragmentation in HL-60 cells. Taken together, these data suggested that the NO resistance in HL-NR6 cells is associated with the increased Cu,Zn-SOD/catalase and that NO-mediated apoptosis in HL-60 cells is correlated with the generation of ROS and derived molecules like peroxynitrite.
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PMID:Resistance to nitric oxide-mediated apoptosis in HL-60 variant cells is associated with increased activities of Cu,Zn-superoxide dismutase and catalase. 989 23


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