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)

(1) Superoxide dismutase activity in polymorphonuclear cells from human blood is considerably lower than that in lymphocytes. Macrophages from ascites show the middle level between the other two cells. (2) In myelocytic, monocytic, and lymphocytic leukemia cells, the enzyme activities are increased compared to those in the corresponding normal cells. (3) Gel electrophoresis patterns of all normal cells reveal bands corresponding to the cytosol and mitochondrial bands reported in previous studies. However, the mitochondrial Mn-containing superoxide dismutase activities are diminished or absent in leukemia cells. CN-insensitive superoxide dismutase activity in leukemia cells is not detected under the conditions.
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PMID:Increase of superoxide dismutase activity in various human leukemia cells. 29 94

The catalase activities of HP50-2 and HP100-1 cells, which are H2O2-resistant cell lines derived from human leukemia HL-60 cells, were 3 and 18 times higher, respectively, than that of HL-60 cells. These catalase activities of the resistant cells were precipitated with anti-catalase serum. The glutathione peroxidase activity of HP50-2 cells was about twice that of HL-60 or HP100-1 cells. The superoxide dismutase activities of HP50-2 and HP100-1 cells were, respectively, about 4 and 2 times that of HL-60 cells. In addition, both the resistant cell lines were completely devoid of myeloperoxidase activity. Pulse-labeling experiments showed that the syntheses of catalase in HP50-2 and HP100-1 cells were, respectively, 2 and 4 times that in HL-60 cells, and that, unlike the parent cells, neither line synthesized myeloperoxidase. Thus the alteration of catalase, glutathione peroxidase, and superoxide dismutase activity could be linked to the resistance of H2O2 of human leukemia cells.
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PMID:High production of catalase in hydrogen peroxide-resistant human leukemia HL-60 cell lines. 131 86

Merocyanine 540 (MC540) is a photosensitizing dye that has been used in several preclinical models and in a phase I clinical trial for the extracorporeal purging of tumor cells from autologous bone marrow grafts. The mechanism of the cytotoxic activity of MC540 is not yet fully understood, and the subcellular targets of MC540-mediated photodynamic damage remain to be identified. The human neutrophil provides an attractive model with which to study the effects of photoactivated MC540 on several well-defined cellular functions. As we report in this paper, simultaneous exposure of neutrophils to MC540 and light inhibited phagocytosis, random migration, chemotaxis, hydrogen peroxide production, and oxygen consumption. By contrast, the ability of neutrophils to kill engulfed bacteria and to produce superoxide radical was not compromised. Intracellular ATP levels and the activities of the cytosolic enzymes superoxide dismutase, catalase, and myeloperoxidase were only slightly reduced. Even in HL-60 leukemia cells, which bind more dye and are more readily killed by MC540-mediated photodynamic therapy than neutrophils, superoxide dismutase, catalase, and myeloperoxidase activities remained at normal or near-normal levels. These results are compatible with the view that plasma membrane components are primary targets of MC540-mediated photodynamic damage.
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PMID:Photodamaging effects of merocyanine 540 on neutrophils and HL-60 cells. 133 24

Down syndrome (DS) is a major cause of congenital heart and gut disease and mental retardation. DS individuals also have characteristic facies, hands, and dermatoglyphics, in addition to abnormalities of the immune system, an increased risk of leukemia, and an Alzheimer-like dementia. Although their molecular basis is unknown, recent work on patients with DS and partial duplications of chromosome 21 has suggested small chromosomal regions located in band q22 that are likely to contain the genes for some of these features. We now extend these analyses to define molecular markers for the congenital heart disease, the duodenal stenosis, and an "overlap" region for the facial and some of the skeletal features. We report the clinical, cytogenetic, and molecular analysis of two patients. The first is DUP21JS, who carries both a partial duplication of chromosome 21, including the region 21q21.1-q22.13, or proximal q22.2, and DS features including duodenal stenosis. Using quantitative Southern blot dosage analysis and 15 DNA sequences unique to chromosome 21, we have defined the molecular extent of the duplication. This includes the region defined by DNA sequences for APP (amyloid precursor protein), SOD1 (CuZn superoxide dismutase), D21S47, SF57, D21S17, D21S55, D21S3, and D21S15 and excludes the regions defined by DNA sequences for D21S16, D21S46, D21S1, D21S19, BCE I (breast cancer estrogen-inducible gene), D21S39, and D21S44. Using similar techniques, we have also defined the region duplicated in the second case occurring in a family carrying a translocation associated with DS and congenital heart disease. This region includes DNA sequences for D21S55 and D21S3 and excludes DNA sequences for D21S47 and D21S17.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Down syndrome: molecular mapping of the congenital heart disease and duodenal stenosis. 153 Nov 66

We measured the serum levels of manganese-superoxide dismutase (Mn-SOD) in acute myeloid leukemia (AML) and acute lymphoid leukemia (ALL). Serum Mn-SOD level for normal subjects was 94.1 +/- 23.5 ng/ml (mean +/- S.D.), the levels for AML and ALL patients were 159.6 +/- 77.1 ng/ml and 154.4 +/- 77.0 ng/ml, respectively. The serum Mn-SOD levels were unrelated to individual intracellular Mn-SOD levels, but correlated well with serum lactate dehydrogenase values. Regression of the leukemia was accompanied by decrease in the serum level of Mn-SOD. Serum Mn-SOD may thus serve as a measure of the activity of the disease.
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PMID:Elevated serum manganese superoxide dismutase in acute leukemias. 159 65

The hydroxyl radicals produced by two adherent cell lines, a human cancer cell and a mouse fibroblast, and six suspended human leukemia cell lines at different stages of differentiation were measured by electron spin resonance (ESR) spectrometry. The concentration of hydroxyl radicals detected in these tumor cells increased in proportion to temperature and cell number. The addition of the enzymes superoxide dismutase (SOD) and catalase (which do not permeate the cell membrane), reduced the amount of hydroxyl radicals detected. SOD decreased hydroxyl radicals somewhat but catalase eliminated hydroxyl radicals almost completely. These findings suggest that hydroxyl radicals are produced extracellularly consisted primarily of H2O2 but partially from superoxide radicals. Using the human leukemia cell lines at different stages of differentiation we demonstrated that cell differentiation may correlate with hydroxyl radical production. The earlier the stage of leukemic cell differentiation the more the greater the production of hydroxyl radicals. Moreover, the ability of SOD or catalase to eliminate hydroxyl radical activity correlated inversely with leukemic cell differentiation.
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PMID:Production of hydroxyl radicals by tumor cells varies with cell type as measured by electron spin resonance spectrometry. 164 69

A free radical is any species capable of independent existence that contains one or more unpaired electrons. Free radical reactions have been implicated in the pathology of more than 50 human diseases. Radicals and other reactive oxygen species are formed constantly in the human body, both by deliberate synthesis (e.g. by activated phagocytes) and by chemical side-reactions. They are removed by enzymic and nonenzymic antioxidant defence systems. Oxidative stress, occurring when antioxidant defences are inadequate, can damage lipids, proteins, carbohydrates and DNA. A few clinical conditions are caused by oxidative stress, but more often the stress results from the disease. Sometimes it then makes a significant contribution to the disease pathology, and sometimes it does not. Several antioxidants are available for therapeutic use. They include molecules naturally present in the body [superoxide dismutase (SOD), alpha-tocopherol, glutathione and its precursors, ascorbic acid, adenosine, lactoferrin and carotenoids] as well as synthetic antioxidants [such as thiols, ebselen (PZ51), xanthine oxidase inhibitors, inhibitors of phagocyte function, iron ion chelators and probucol]. The therapeutic efficacy of SOD, alpha-tocopherol and ascorbic acid in the treatment of human disease is generally unimpressive to date although dietary deficiencies of the last two molecules should certainly be avoided. Xanthine oxidase inhibitors may be of limited relevance as antioxidants for human use. Exciting preliminary results with probucol (antiatherosclerosis), ebselen (anti-inflammatory), and iron ion chelators (in thalassaemia, leukaemia, malaria, stroke, traumatic brain injury and haemorrhagic shock) need to be confirmed by controlled clinical trials. Clinical testing of N-acetylcysteine in HIV-1-positive subjects may also be merited. A few drugs already in clinical use may have some antioxidant properties, but this ability is not widespread and drug-derived radicals may occasionally cause significant damage.
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PMID:Drug antioxidant effects. A basis for drug selection? 172 62

We investigated the alteration of Cu,Zn-superoxide dismutase during erythroid and myeloid differentiation in order to elucidate its physiological significance in different types of cells. We measured enzyme activity and mRNA levels of superoxide dismutase in the process of differentiation to erythroid cells or myeloid cells. When human leukemia K562 cells are incubated in the presence of 80 microM hemin, benzidine-positive cells appear on day 1 and 80% of the cells become positive on day 5. During hemin-induced erythroid differentiation, Cu,Zn-superoxide dismutase activity increases 3.5-fold of the initial value and mRNA for Cu,Zn-superoxide dismutase increases prior to the activity to the same extent. On the other hand, when human promyelocytic leukemia HL-60 cells are incubated in the presence of 1.3% dimethyl sulfoxide, nitroblue tetrazolium-positive cells reach approximately 90% on day 5. During dimethyl sulfoxide-induced myeloid differentiation, the activity of Cu,Zn-superoxide dismutase decreases below 15% of the initial value on day 5 and mRNA for Cu,Zn-superoxide dismutase decreases as well. The results indicate that the synthesis of superoxide dismutase is linked with either the erythroid or myeloid differentiation program.
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PMID:Changes in Cu,Zn-superoxide dismutase gene during induced erythroid and myeloid differentiation. 180 85

Production of active oxygen by canine peripheral blood mononuclear lymphocytes (PBLs) from beagle dog was examined by luminol-dependent chemiluminescence production. The canine PBLs rapidly produced the active oxygen in parallel with the number of cells when PBLs were cocultured with canine leukemia-derived CL-1 cells as target cells. Cytolysis of the target cells and active oxygen production were inhibited linearly by the addition of benzoic acid and n-propyl gallate as hydroxyl radical scavenger. However, superoxide dismutase and tiron which are scavengers of superoxide anion did not inhibit the cytotoxicity so much at low concentrations that inhibited the induction of luminol-dependent chemiluminescence. These results suggest that hydroxyl radical production by stimulated PBLs might be playing a major role of cytotoxic action in the case of canine system.
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PMID:Effect of radical scavengers on canine peripheral blood mononuclear lymphocyte-mediated cytotoxicity and production of active oxygen. 228 Apr 89

CI-937 and CI-942 belong to a new class of DNA complexers, the anthra[1,9-cd]pyrazol-6(2H)-ones (anthrapyrazoles), and are being further developed as antitumor drugs based on their curative properties against murine solid tumour models. The biochemical effects of these agents were studied in L1210 leukemia in relation to other clinically used intercalators. After a 1-hr exposure, CI-937 and CI-942 reduced the cloning efficiency of L1210 cells by 50% at 3.0 X 10(-8) and 1.5 X 10(-7) M respectively. Based on an ethidium displacement assay, these drugs bound strongly to DNA, reducing the fluorescence of an ethidium-DNA complex by 50% at concentrations of 23 and 33 nM for CI-937 and CI-942 respectively. This was comparable to mitoxantrone at 15 nM, but much more potent than Amsacrine which required over 1.3 microM. A distinct property of the anthrapyrazoles was a much more potent inhibitory effect on whole cell DNA synthesis than on RNA synthesis. After L1210 cells were exposed to drug for 2 hr the concentration needed to inhibit DNA synthesis by 50% was 0.33 and 0.57 microM for CI-937 and CI-942, respectively, whereas 2.0 and 11.3 microM were required to inhibit RNA synthesis by the same extent. This was in contrast to Adriamycin and mitoxantrone which inhibited both activities equally at similar concentrations. It was apparent that the inhibition of these processes was not due to substrate depletion since intracellular ribonucleoside and deoxyribonucleoside triphosphates either remained constant or were elevated after a 2-hr exposure to 1 or 10 microM drug. A similar discriminatory effect was observed on DNA and RNA polymerase in permeabilized cells, and the inhibition of nucleic acid synthesis in this system could be reversed by exogenously added DNA. Since the high incidence of cardiotoxicity associated with the administration of anthracyclines has been related to the formation of reactive oxygen species, the ability of the anthrapyrazoles to augment superoxide dismutase sensitive oxygen consumption was observed in a rat liver microsomal system. CI-937 and CI-942 induced 5- and 10-fold less oxygen consumption than Adriamycin, producing rates of 12.4, 24.2 and 138.9 nmoles/min/mg microsomal protein, respectively, at a drug concentration of 0.5 mM.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:In vitro DNA strand scission and inhibition of nucleic acid synthesis in L1210 leukemia cells by a new class of DNA complexers, the anthra[1,9-cd]pyrazol-6(2H)-ones (anthrapyrazoles). 241 61


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