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)

PCBs are industrial chemicals that continue to contaminate our environment. They cause various toxic effects in animals and in exposed human populations. The mechanisms of toxicity, however, are not completely understood. PCBs are metabolized by cytochromes P450 to mono- and dihydroxylated compounds. Dihydroxy-PCBs can potentially be oxidized to the corresponding quinones. We hypothesized that reactive oxygen species (ROS) are produced by redox reactions of PCB metabolites. We tested several synthetic dihydroxy- and quinoid-PCBs with 1-3 chlorines for their potential to produce ROS in vitro and in HL-60 human leukemia cells, and DNA strand breaks in vitro. All dihydroxy-PCBs tested produced superoxide. The quinones generated superoxide only in the presence of GSH, probably during the autoxidation of the glutathione conjugates. We observed increased superoxide production with decreasing halogenation. Incubation of dihydroxy-PCBs or PCB quinones + GSH with plasmid DNA resulted in DNA strand break induction in the presence of Cu(II). Tests with various ROS scavengers indicated that hydroxyl radicals and singlet oxygen are likely involved in this strand break induction. Finally, dihydroxy- and quinoid PCBs also produced ROS in HL-60 cells in a dose- and time-dependent manner. We conclude that dihydroxylated PCBs, and PCB quinones after reaction with GSH, produce superoxide and other ROS both in vitro and in HL-60 cells, and oxidative DNA damage in the form of DNA strand breaks in vitro. The reactions seen in vitro and in cells may well be a predictor of the toxicity of PCBs in animals.
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PMID:Production of DNA strand breaks in vitro and reactive oxygen species in vitro and in HL-60 cells by PCB metabolites. 1122 76

Apparent differences in the pattern of leukemia risk have been observed between workers employed in 1,3-butadiene (BD) monomer production and those working in styrene-butadiene rubber production (SBR). There are a number of possible explanations for these discrepancies, including differences in disease classification and diagnosis as well as possible quantitative and qualitative differences in occupational exposure between these two industries. This led us to evaluate the possibility that the pattern of disease observed in SBR might be influenced by the presence of an important class of biologically reactive chemicals, dithiocarbamates (DTC), that were present in SBR but not BD monomer production. Therefore, we compared the immunotoxic and hematotoxic activities of DTC and BD metabolites in human immune and hematopoietic cells. Relative to the mouse, human CD34+ bone marrow cells are relatively resistant to the direct effects of BD metabolites, with only the bis-oxide producing any evidence of suppression of clonogenic response at concentrations between 1 and 10 microM. Similarly, treatment of human CD4+ lymphocytes with known (2,3-epoxybutene) and putative BD metabolites (D,L-butane-bis-oxide, (2S,3R)-3-epoxybutane-1,2-diol) does not result in appreciable T-cell toxicity at concentrations likely to be encountered in vivo. In contrast, treatment of human cells with DTC at concentrations as low as 100 nM results in significant suppression of hematopoietic clonogenic response and T-lymphocyte function. Additional studies in our laboratory and others suggest a role for copper in DTC toxicity in both human lymphocytes and bone marrow cells, although the pattern of altered transcriptional regulation observed is markedly different in these two cell populations. These results are consistent with the pattern of DTC toxicity previously observed in clinical and molecular studies.
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PMID:Comparative toxicity of dithiocarbamates and butadiene metabolites in human lymphoid and bone marrow cells. 1139 16

It has been reported in the literature that the endogenous estrogen metabolite 2-methoxyestradiol (2-ME) inhibits both manganese and copper,zinc superoxide dismutases (Mn and Cu,Zn SODs) and that this mechanism is responsible for 2-ME's ability to kill cancer cells. In fact, as demonstrated using several SOD assays including pulse radiolysis, 2-ME does not inhibit SOD but rather interferes with the SOD assay originally used. Nevertheless, as confirmed by aconitase inactivation measurements and lactate dehydrogenase release in human leukemia HL-60 cells, 2-ME does increase superoxide production in these cells and is more toxic than its non-O-methylated precursor 2-hydroxyestradiol. Other mechanisms previously suggested in the literature may explain 2-ME's ability to increase intracellular superoxide levels in tumor cells.
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PMID:2-methoxyestradiol does not inhibit superoxide dismutase. 1148 12

We present selected XAS applications, focused towards practical hospital questions of drug administration and bioavailability, where the technique is driven up to its limits of sensitivity. i) XAS was used to study the interactions between the components of parenteral nutrition solutions, in particular zinc and aminoacids, possibly modifying their bioavailability. ii) We studied by EXAFS a series of binary and ternary copper-aminoacid complexes, in view of the development of an efficient oral drug against copper deficiencies in Menkes disease. iii) EXAFS and XANES analysis allowed us to characterise the solution form of a new arsenic containing drug against leukaemia. In parallel to the XAS measurements, we analysed trace elements levels along patients' hairs, using X-ray fluorescence excited by synchrotron radiation. The measurements along the hair allow for a monitoring of essential trace elements during therapy.
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PMID:XAS applied to pharmaceuticals: drug administration and bioavailability. 1151 2

The 2-aldo- and 2-ketopyridine-N(4)-substituted thiosemicarbazones and their copper complexes demonstrated potent cytotoxic activity against a series of murine and human suspended cultured tumor cells. Selected compounds were active against the growth of cultured cells from solid human tumors, i.e. Mck-7 breast effusion, lung A549 and lung MB-9812, bone SOS-2 and clear cell Caki renal tumor. In Tmolt4 T cell leukemia cells the compounds inhibited the syntheses of DNA, RNA and protein over 60 min at 25 to 100 microM. Multiple target sites in nucleic acid metabolism were suppressed by the agents, i.e. DNA polymerase alpha, ribonucleoside reductase, dihydrofolate reductase, de novo purine synthesis, thymidylate synthetase and nucleoside kinases. The total effects of the agents on DNA metabolism led to the reduction of deoxyribonucleotide pools as well as DNA fragmentation.
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PMID:Cytotoxicity of 2-aldo- and 2-ketopyridine-N(4)-substituted thiosemicarbazones and mode of action in human Tmolt4 cells. 1153 44

Hydroxyurea is a chemotherapeutic agent used for the treatment of myeloproliferative disorders (MPD) and solid tumors. The mutagenic and carcinogenic potential of hydroxyurea has not been established, although hydroxyurea has been associated with an increased risk of leukemia in MPD patients. To clarify whether hydroxyurea has potential carcinogenicity, we examined site-specific DNA damage induced by hydroxyurea using (32)P-5'-end-labeled DNA fragments obtained from the human p53 and p16 tumor suppressor genes and the c-Ha-ras-1 protooncogene. Hydroxyurea caused Cu(II)-mediated DNA damage especially at thymine and cytosine residues. NADH efficiently enhanced hydroxyurea-induced DNA damage. The DNA damage was almost entirely inhibited by catalase and bathocuproine, a Cu(I)-specific chelator, suggesting the involvement of hydrogen peroxide (H(2)O(2)) and Cu(I). Typical free hydroxyl radical scavengers did not inhibit DNA damage by hydroxyurea, but methional did. These results suggest that crypto-hydroxyl radicals such as Cu(I)-hydroperoxo complex (Cu(I)-OOH) cause DNA damage. Formation of 8-hydroxy-2'-deoxyguanosine (8-OHdG) was induced by hydroxyurea in the presence of Cu(II). An electron spin resonance spectroscopic study using N-(dithiocarboxy)sarcosine as a nitric oxide (NO)-trapping reagent demonstrated that NO was generated from hydroxyurea in the presence and absence of catalase. In addition, the generation of formamide was detected by both gas chromatography-mass spectrometry (GC-MS) and time-of-flight-mass spectrometry (TOF-MS). A high concentration of hydroxyurea induced depurination at DNA bases in an H(2)O(2)-independent manner, and endonuclease IV treatment led to chain cleavages. These results suggest that hydroxyurea could induce base oxidation as the major pathway of DNA modification and depurination as a minor pathway. Therefore, it is considered that DNA damage by hydroxyurea participates in not only anti-cancer activity, but also carcinogenesis.
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PMID:Hydroxyurea induces site-specific DNA damage via formation of hydrogen peroxide and nitric oxide. 1171 40

The DNA-targeting activities of the 4-methoxypyrrolic natural products, that include prodigiosin (1), tambjamine E (2), and the blue pigment (3), have been compared using fluorescence spectroscopy to study DNA binding and agarose gel electrophoresis to assess their ability to facilitate oxidative copper-promoted DNA cleavage. Fluorescence emission titration of 3 with calf-thymus DNA (CT-DNA) shows that the natural product occupies a site size (n) of ca. two base pairs and possesses an affinity constant (K) of approximately 6x10(5) x M(-1). Similar to prodigiosin (1), the blue pigment 3 was found to facilitate oxidative double-strand DNA (dsDNA) cleavage without the aid of an external reducing agent. Quantitation of ds- (n2) and ss- (n1) breaks provided n1:n2 ratios of approximately 8-12, which were significantly greater than the number expected from the accumulation of ss-breaks (approximately 120). This was contrasted by the nicking activity of tambjamine E (2), which only generates ss-breaks in the presence of copper. The superior copper-nuclease activity of 1 and 3 also correlated with their superior anticancer properties against leukemia (HL-60) cells. These results are discussed with respect to the mode of cytotoxicity by the 4-methoxypyrrolic natural products.
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PMID:Copper-nuclease efficiency correlates with cytotoxicity for the 4-methoxypyrrolic natural products. 1173 Aug 94

In this paper we describe the synthesis of new copper complexes with alpha-ketoglutaric acid thiosemicarbazone. The crystal structures of the two compounds: [Cu(H(2)ct)Cl](n) [(Cu(H(2)ct)Cl)(2)] (1) and [Cu(Hct)](n).3nH(2)O (2) (H(3)ct=alpha-ketoglutaric acid thiosemicarbazone) have been determined by X-ray and spectroscopic methods. In 1 two independent copper atoms are present. Cu(1), in a nitrogen- and oxygen-bridged polymer, is a six-coordinated (4+2), Cu(2), five coordinated (4+1), is a chlorine-bridged dimer. In 2 the copper atom presents a penta-coordination, polymeric chains form layers and the -CH(2)CH(2)COO(-) groups bridge copper atoms. In 1 a monodentate and in 2 a syn-anti bidentate bridging carboxylate are present. The biological properties of 1 and 2 and also of the free ligand (H(3)ct) were tested in vitro and compared on Friend erythroleukemia cells (FLC) and on human leukemia cell lines K562 and U937. On the FLC cells the free ligand does not inhibit cell growth, but increases the DNA synthesis; complex 1 inhibits cell proliferation and increases the DNA synthesis; complex 2 inhibits cell growth, but induces a decrement of DNA synthesis and increases the reverse transcriptase activity. Regarding the human cell lines, both complexes show proliferation inhibition through an apoptosis mechanism on cell line U937, while they have no effects on the K562 line.
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PMID:Synthesis, characterization and biological activity of two new polymeric copper(II) complexes with alpha-ketoglutaric acid thiosemicarbazone. 1193 61

Interaction of the anticancer antibiotic altromycin B with Cu(II), Pd(II) and Pt(II) ions was studied using 1H-NMR, EPR, electronic absorption and circular dichroism spectroscopy. The results derived from NMR studies where that the Pt(II) and Pd(II) ions interact with the nitrogen atom of the dimethylamino group of the C(10)-disaccharide, while the C(2)-epoxide group does not participate and remains intact. Cu(II) ions interact in a different way with altromycin B as was concluded by EPR and circular dichroism spectra. Altromycin B coordinates to the Cu(II) ions via the oxygen atoms of the C(11) phenolic and the C(12) carbonyl group while the nitrogen atom does not participate in the complexation. The presence of these metal ions improves the stability of altromycin B in solution. These complexes were studied in vitro against K562 leukemia sensitive and doxorubicin-resistant cells and GLC4 lung tumor cells, sensitive and doxorubicin-resistant. The activity of the complexes compared to the free drug is improved against resistant cells and is affected moderately against sensitive cells. Finally, 20% of platinum added as altromycin B metal complex entered GLC4 cells.
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PMID:Interactions of the anticancer antibiotic altromycin B with copper(II), palladium(II) and platinum(II) ions and in vitro activity of the formed complexes. 1193 73

Prodigiosin (Prod, 1) is the parent member of a class of polypyrrole natural products that exhibit promising immunosuppressive and cytotoxic activity. They can facilitate copper-promoted oxidative double-strand (ds) DNA cleavage through reductive activation of Cu(II). This is triggered by oxidation of the electron-rich Prod molecule and may provide a basis for the cytotoxicity of the prodigiosins. To gain an understanding of this activity, we prepared several Prod analogues with various A-ring systems to examine their electrochemical properties in acetonitrile (MeCN) as a means to establish a basis for structure-reactivity relationships in copper-promoted nuclease activity. The intact bipyrrole (BP) chromophore is critical for the copper-mediated nuclease properties of the Prods. In fact, simple BP systems are shown to facilitate oxidative single-strand (ss) DNA cleavage. Replacement of the Prod A-pyrrole ring with alternative arenes (phenyl, furan-2-yl, or thiophen-2-yl) inhibits DNA strand scission and raises the half-peak oxidation potential (E(p/2)) of the Prod free base [E(p/2) = 0.44 V vs saturated calomel electrode (SCE) in MeCN] by ca. 200 mV. The same effect was achieved through attachment of an electron-withdrawing group (acetyl) at the 5'-position of the A-pyrrole ring. The structural modifications that inhibit DNA cleavage correlate with known structure-reactivity relationships of Prods against leukemia and melanoma cancer cells. The implications of our findings with regard to the cytotoxicity of the Prods are discussed.
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PMID:Influence of the a-ring on the redox and nuclease properties of the prodigiosins: importance of the bipyrrole moiety in oxidative DNA cleavage. 1201 97

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