UMLS:C0027651 - FACTA Search

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Query: UMLS:C0027651 (tumor)
685,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The influence of human recombinant tumor necrosis factor-alpha has been assessed on a cell line (U-251) derived from a human malignant glial tumor. The results of this study demonstrate that tumor necrosis factor-alpha at doses of 50 and 100 ng/ml: 1) did not have cytotoxic or cytostatic effects on the U-251 cell line; 2) significantly increased the intracellular activity of manganese superoxide dismutase but had no effect on copper and zinc superoxide dismutase, catalase, or glutathione peroxidase activity; and 3) did not significantly alter the intracellular or extracellular general protease and collagenase type IV activity of these cells. The resistance of the U-251 cell line to tumor necrosis factor-alpha cytotoxicity may be related in part to the high intrinsic manganese superoxide dismutase activity present in this cell line combined with the ability of this cell line to induce substantial amounts of protective manganese superoxide dismutase activity in response to tumor necrosis factor-alpha.
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PMID:The effect of tumor necrosis factor-alpha on human malignant glial cells. 131 41

The present study demonstrates that biogenic silica fibers (BSF), previously shown to promote skin tumors in mice and more recently to promote the induction of mesotheliomas when injected into the pleural cavity of rats, rapidly induces epidermal ornithine decarboxylase (ODC) activity in SENCAR mice following topical application. The time course for induction of epidermal ODC by BSF was very similar to that observed following topical treatment with 12-O-tetradecanoylphorbol-13-acetate (TPA). Maximal ODC activity was observed 4-6 h following treatment with BSF. Cycloheximide (70 mg/kg i.p.) partially inhibited (61%) the induction of ODC by BSF at 5 h. In addition, retinoic acid (RA, 5 micrograms per mouse given 30 min before BSF) effectively inhibited BSF-induced ODC by 68%, while indomethacin (100 micrograms per mouse 2 h before BSF) had little or no effect. Copper(II) bis(diisopropylsalicylate) (2 mumol 30 min before BSF), an effective inhibitor of TPA-induced ODC activity and tumor promotion, also had little or no effect on BSF-induced ODC. The work described in this paper suggests that BSF induces epidermal ODC by a very specific mechanism that exhibits both similarities and differences with that of the phorbol ester, TPA. Nevertheless, this response strongly supports the conclusion that BSF is an effective tumor promoter in mouse skin and that ODC induction is an integral part of the mechanism of action of this environmental promoter.
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PMID:Induction of epidermal ornithine decarboxylase activity in mouse skin exposed to biogenic silica fibers. 131 27

Mechanistic details of the interaction of 1,10-phenanthroline and its copper complex with Ehrlich ascites tumor cells were examined, using inhibition of cell proliferation, DNA breakage, and increased membrane permeability as indices of cellular damage. The metal chelating agent, 1,10-phenanthroline (OP), the 1:0.5 complex of 1,10-phenanthroline and CuCl2 [(OP)2Cu], and CuCl2 inhibited growth of Ehrlich ascites tumor cell monolayers during 48-h treatments by 50% at about 3.5, 2, and 70 nmol/10(5) cells/mL, respectively. (OP)2Cu at 10 nmol/10(5) cells also enhanced uptake of trypan blue dye during 6 h of treatment, while dye uptake in OP- and CuCl2-treated cells remained similar to controls. DNA breakage, measured by DNA alkaline elution, was produced during 1-h treatments with (OP)2Cu at drug/cell ratios similar to those producing growth inhibition. Copper uptake was similar for both (OP)2Cu and CuCl2. Electron spin resonance (ESR) spectroscopy suggested that cellular ligands bind copper added as (OP)2Cu or CuCl2 and then undergo time-dependent reductions of Cu(II) to Cu(I) for both forms. Inhibition of (OP)2Cu-induced single-strand scission and trypan blue uptake by scavengers of activated oxygen is consistent with participation of superoxide and H2O2 in both processes. In contrast, superoxide dismutase (SOD) did not reduce the magnitude of the fraction of cellular DNA appearing in lysis fractions prior to alkaline elution of (OP)2Cu-treated cells. Dimethyl sulfoxide (DMSO) inhibited uptake of trypan blue dye but did not inhibit DNA strand scission produced by (OP)2Cu. Thus, multiple mechanisms for generation of oxidative damage occur in (OP)2Cu-treated cells. Growth inhibition produced by OP or (OP)2Cu, as well as the low levels of strand scission produced by OP, was not reversed by scavengers.
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PMID:Interactions of 1,10-phenanthroline and its copper complex with Ehrlich cells. 131 48

The interaction of 2,9-dimethyl-1,10-phenanthroline (neocuproine or NC) and its copper complex with Ehrlich ascites tumor cells was studied. NC is frequently used as a negative control in studies of in vitro DNA degradation by copper phenanthroline and has also found use as a potential inhibitor of damage from oxidative stress in biological systems. NC inhibited Ehrlich cell growth in monolayer culture over 48 h treatment by 50% at 0.05 nmol/10(5) cells. Addition of 5- to 100-fold ratios of CuCl2 to NC (at 0.035 nmol NC/10(5) cells) produced progressively more growth inhibition. Addition of 1:0.5 ratios of NC to CuCl2 over the range of NC concentrations 0.08-0.2 nmol/10(5) cells/mL resulted in DNA single-strand breakage during 1-h treatments as measured by DNA alkaline elution. Concomitant addition of catalase or dimethyl sulfoxide (DMSO) inhibited DNA strand scission, while superoxide dismutase enhanced breakage. Catalase and DMSO also inhibited induction of membrane permeability by the copper complex of NC. These cellular effects apparently result from the intracellular generation of hydroxyl radical from H2O2. NC facilitated the uptake of copper into cells, though it was initially bound as a copper-histidine-like complex. The internalized copper was reduced to Cu(I), bound mostly as (NC)2Cu(I). To explain the (NC)2Cu-dependent generation of hydroxyl radical, it is hypothesized that glutathione successfully competes for Cu(I), converting it to a redox-active form that can catalyze the reduction of molecular oxygen to .OH. Model studies support this view. Radical scavengers did not reverse growth inhibition produced by NC or NC + CuCl2.
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PMID:Oxidation-reduction reactions in Ehrlich cells treated with copper-neocuproine. 133 27

Lysyl oxidase (EC 1.4.3.13) is a copper-dependent enzyme acting principally on collagen and elastin catalyzing the formation of aldehyde cross-links. It is also believed to possess a tumor suppressor activity as the anti-oncogene of ras. While rat, human, and mouse lysyl oxidase cDNAs have been cloned, little is known about the structure of the gene, its organization, or regulation. This paper describes the cloning of an intronic segment of the human lysyl oxidase gene. Sequence analysis defined the location of an intron that separates the prepro-coding segments from the segment encoding the catalytic domain. Genomic restriction mapping and gene copy number data established that multiple lysyl oxidase mRNA transcripts originate from a single gene and thus are products of alternative splicing. Northern analysis of adult and fetal fibroblast RNA showed a dominant approximately 4.3-kilobase lysyl oxidase mRNA transcript that varied in abundance as a function of cell line. These data are consistent with a complex mechanism regulating the expression of the lysyl oxidase gene.
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PMID:Characterization of the human lysyl oxidase gene locus. 135 76

Lysyl oxidase catalyzes the oxidation of lysine residues to alpha-aminoadipic-delta-semialdehyde. This is the first step in the covalent cross-linking of collagen and tropoelastin and results in the formation of insoluble collagen and elastic fibers in the extracellular matrix. We have characterized the complete nucleotide sequence of human lysyl oxidase (EC 1.4.3.13) and compared the derived amino acid sequence (417-amino acids) to rat lysyl oxidase and the mouse ras recision gene (rrg). 88% of amino acids and 83% of nucleotides were conserved between human and rat lysyl oxidase. The mouse ras recision gene demonstrated 89% conservation of amino acids with human lysyl oxidase. The sequence conservation was not evenly distributed along the molecule. The carboxy terminus of the protein, which contains the putative copper binding sites and is likely to be the catalytically active domain, was more highly conserved than the amino terminus. The 89% amino acid sequence similarity between the murine ras recision gene and human lysyl oxidase suggests that they are the same gene product. Therefore, in addition to cross linking of extracellular matrix proteins, lysyl oxidase may have a direct role in tumor suppression. Northern blot analysis of poly A+RNA from cultured skin fibroblasts revealed at least three-distinct transcripts, sized 4.8 kb, 3.8 kb and 2.0 kb. In addition, using a panel of human mouse cell hybrids, the lysyl oxidase gene was assigned to human chromosome 5.
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PMID:The complete derived amino acid sequence of human lysyl oxidase and assignment of the gene to chromosome 5 (extensive sequence homology with the murine ras recision gene). 135 35

Methods were developed to test angiogenic response to human tumor implants and various biologic agents in the cornea of rabbits and non-human primates (Macaca arctoides). Crude PDGF preparations were found to have significant angiogenic effect. Purified, recombinant PDGF preparations were also effective inhibitors (e.g. pentoxifylline (Px) (which also were found to release PgI2 and t-PA) inhibited human tumor implant induced angiogenesis and reduced spontaneous metastases in 3 transplantable murine tumors (Furth-Columbia Wilms' tumor in Furth-Wistar rats, C-1300 neuroblastoma in A/J mice and HM-Kim mammary carcinoma in Wistar rats) but not in the NIH adenocarcinoma in Balb/c mice. Sodium diethyldithiocarbamate (DDTC), a metal complexing agent with special affinity to copper and anti-thyroid as well as, immune stimulating activity was shown to be anti-angiogenic and to potentiate the effect of Px. The anti-fibrinolytic agents epsilon amino caproic acid (EACA) and tranaxamic acid (t-AMCHA) were anti-angiogenic. DDTC and Px were synergistic from this point of view.
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PMID:Studies on tumor induced angiogenesis. 137 68

Bleomycin is a glycopeptide antibiotic with a unique mechanism of antitumor activity. The drug binds to guanosine-cytosine-rich portions of DNA via association of the "S" tripeptide and by partial intercalation of the bithiazole rings. A group of five nitrogen atoms arranged in a square-pyramidal conformation binds divalent metals including iron, the active ligand, and copper, an inactive ligand. Molecular oxygen, bound by the iron, can produce highly reactive free radicals and Fe(III). The free radicals produce DNA single-strand breaks at 3'-4' bonds in deoxyribose. This yields free base propenals, especially of thymine: cytotoxicity is cell-cycle-phase specific for G2 phase. In humans, bleomycin is rapidly eliminated primarily by renal excretion. This accounts for approximately half of a dose. In patients with renal compromise or extensive prior cisplatin therapy, the drug half-life can extend from 2 to 4 hours up to 21 hours. Thus, dose adjustments are needed when creatinine clearance is less than or equal to 3N mL/min. Finally, resistance to bleomycin in normal tissues can be correlated with the presence of a bleomycin hydrolase enzyme, which is in the cysteine proteinase family. The enzyme replaces a terminal amine with a hydroxyl, thereby inhibiting iron binding and cytotoxic activity. The low concentration of enzyme in the skin and lung may explain the unique sensitivity of these tissues to bleomycin toxicity. However, correlation of hydrolase levels with tumor cell sensitivity has thus far been negative.
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PMID:Bleomycin pharmacology: mechanism of action and resistance, and clinical pharmacokinetics. 138 41

In an attempt to define the best conditions for an adjunctive treatment of residual colonic microtumors by photodynamic therapy (PDT), an experimental model has been defined. S.c. HT29 colonic-cancer-cell tumors grown in nude mice were used and, 48 hr after i.p. administration of 30 mg/kg Photofrin (PH), laser illumination was performed with 75 or 150 Joules/cm2. The efficiencies of 2 lasers, the classically used rhodamine laser (RL) and a copper metal vapor laser (CMVL), were compared. The effects of PDT were assessed by histological and immunocytochemical (detection of a digestive enzyme, dipeptidyl-peptidase IV, as a marker of cell viability) follow-up and by the growth curve of the tumors after illumination. We conclude that, although the depth of necrosis resulting from PDT was nearly 3 mm at 75 J/cm2 and nearly 4-5 mm at 150 J/cm2 with both lasers, complete necrosis was obtained only with the CMVL at 150 J/cm2 (in 50% of the tumors). Under the other conditions, a layer of unaffected cells persisted at the pole opposite to laser illumination, resulting in growth curves lower than but parallel to those of the controls. Analysis of drug concentrations in the tumors and various organs, 48 hr after injection, i.e., at the time of laser illumination, revealed the presence of 21 micrograms/g dry weight PH in the tumors. The tumor vs. host-organ ratios were equal to or higher than 1 for the small bowel, colon, stomach, lung, skin and muscle. In contrast, the ratios were below 1 for the spleen, pancreas, kidney and liver.
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PMID:Experimental photodynamic therapy with a copper metal vapor laser in colorectal cancer. 139 26

Obstetrician/gynecologists in Brussels and Gent, Belgium, inserted the FlexiGard 330 copper releasing IUD in 514 women and followed 405 of them to determine the ability of ultrasound to evaluate the anchoring concept of this frameless and flexible IUD. The ultrasonic equipment consisted of a Pie Data Medical 400 scanner with a 3.5 MHz focused linear array transducer. They inserted the IUD's small anchoring knot into the fundus at a depth of 1 cm. They measured the distance between the serosal surface of the uterus and the upper border of the first copper sleeve (S-S distance). The expulsion rate was just .78%. Improper insertion techniques, unintentional yanking of the tail, or genital touching during sexual foreplay accounted for the 4 expulsions. Ultrasound located the IUD in all the patients who still retained the IUD. The mean S-S distance at insertion was 12.6 mm (10 mm in normal uteri and 32 mm in uteri with muscular tissue tumor) compared to 12.7 mm at last follow-up (10 mm in normal uteri and 28 mm in uteri with muscular tissue tumors). The .1 mm difference was not statistically significant. Therefore the IUDs did not migrate (some cases had the IUD for 5 years). The IUDs did not penetrate the uteri. This study showed that ultrasound is effective in determining whether the FlexiGard 330 IUD was properly inserted and whether it remains in the proper position later. The physicians suggested that vaginal ultrasound examination or use of a sector transducer rather than a linear ultrasound transducer are preferable in cases of retroverted uteri.
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PMID:The FlexiGard 330 ICC, an ultrasound evaluation. 145 93

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