UMLS:C0006142 - FACTA Search

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Query: UMLS:C0006142 (breast cancer)
160,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Trans-tamoxifen (TAM) has been used successfully in therapy for estrogen-dependent human breast tumors and prevention of their recurrence. The mechanism of this prevention was thought to be due to the interference of TAM with estrogen promotion. TAM has a wider anticarcinogenic action that is similar to other chemopreventive agents in that it suppresses tumor promotion in 2-stage carcinogenesis by interfering with the action of protein kinase C. We report that TAM (5 microM) totally inhibits hydrogen peroxide (H2O2) formation by 12-O-tetradecanoyl-phorbol-13-acetate (TPA)-treated human neutrophils. Interestingly, beta-estradiol (10 microM) also slightly inhibits the oxidative burst of neutrophils. Pretreatment of neutrophils with varying amounts of TAM and beta-estradiol caused additive inhibition of H2O2 formation by the 2 agents. 4-Hydroxy-tamoxifen, a metabolite with the highest affinity for the estrogen receptor, was only as inhibitory as beta-estradiol. Other derivatives (cis-, N-desmethyl-, and N-desdimethyl-tamoxifen) with low biological activities had a smaller effect on H2O2 formation. TPA-treated neutrophils were shown to contain 5-hydroxymethyl uracil (HMU). TAM prevented the TPA-induced formation of HMU in other cells. Like TPA, dietary fat, which is a risk factor for breast cancer, induces formation of HMU in the DNA of human white blood cells. TAM may suppress the dietary fat-induced HMU in the same manner at it does in TPA-induced neutrophils.
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PMID:Tamoxifen suppresses tumor promoter-induced hydrogen peroxide formation by human neutrophils. 151 53

The absence of estrogen receptors (ER) in human breast tumors has been associated with a poorer prognosis compared to patients with ER positive breast cancer. Previous studies from our laboratory have shown that a multidrug resistant human breast cancer cell line selected for resistance to Adriamycin (ADR) exhibited markedly increased expression of both the pi class glutathione S-transferase (GST-pi) and the selenium-dependent glutathione peroxidase. These studies also revealed that the ER status was inversely related to the expression of GST-pi in six human breast cancer cell lines and primary tumor specimens. In the present study, we have examined the relationship between ER status and several biological properties of these cells, including their levels of glutathione peroxidase (GSH-Px) and catalase expression, their capacity to generate toxic hydroxyl radicals (degrees OH) by redox cycling of ADR, and their sensitivities to the cytotoxic effects of ADR and the oxidant, H2O2. Our results show that expression of GSH-Px, but not catalase, is inversely related to the ER status in these cell lines. Formation of the degree OH induced by treatment of cells with ADR was inversely proportional to the GSH-Px activity in these cell lines, and thus directly related to the ER status. Sensitivity of these cells to ADR or to H2O2, however, was not consistently related to ER status, GSH-Px, or catalase activity, or to ADR induced degree OH radical formation. These results indicate that these parameters are not predictive of cellular susceptibility to oxidative damage in these cell lines under the conditions studied.
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PMID:Selenium-dependent glutathione peroxidase expression is inversely related to estrogen receptor content of human breast cancer cells. 165 87

Defective monocyte function has been described in human malignancies. This report assessed adherence and the production of hydrogen peroxide by peripheral blood monocytes in breast and lung cancer patients receiving cyclic chemotherapy. Monocyte adherence was similar in cancer patients and normal controls, and adherence was unchanged with chemotherapy. Release of hydrogen peroxide by adherent monocytes was measured before and after chemotherapy in 15 breast and 7 lung cancer patients and compared to cells from 15 normal controls. Monocytes from untreated breast cancer patients released significantly less hydrogen peroxide than controls (Breast = 75 +/- 17.7 nmol/10(6) monocytes; Controls = 150 +/- 19.2, p less than 0.05). Hydrogen peroxide release by monocytes decreased two weeks after chemotherapy in breast and lung cancer patients (Breast Post = 67 +/- 18.3; Lung Pre = 168 +/- 45.9; Post = 77 +/- 16.0, p less than 0.01). This effect was reversible as hydrogen peroxide release prior to the fourth chemotherapy cycle was greater than pre-chemotherapy levels. These findings suggest that chemotherapy causes a reversible impairment of monocyte function.
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PMID:The effect of cancer and chemotherapy on monocyte function. 196 96

The prevention of cancer by agents in our diet has led to the concept that oxygen radicals are a necessary component of a variety of human cancers including breast, colon and prostatic cancer. These cancers are putatively promoted by estradiol, bile acids and androgens. Epidemiological studies have shown that these cancers are suppressed in vegetarian populations. Vegetable components that may be responsible for this cancer prevention are Vitamin A, retinoids and protease inhibitors (PIs). These agents have been shown to suppress the formation of hydrogen peroxide in promoter-induced neutrophils. They also have been shown to block two-stage carcinogenesis and breast cancer when fed to animals. PIs also suppress experimentally-induced colon cancer and spontaneous liver cancer. Moreover, a new series of cancer-preventive agents, Sarcophytols (isolated by Fujiki and co-workers), are capable of suppressing two-stage carcinogenesis, breast and colon cancers in rodents when given in low concentrations. Sarcophytols were also active suppressors of H2O2 formation of 12-O-tetradecanoyl-phorbol-13-acetate (TPA)-induced neutrophils. These observations point to an essential role of oxygen radicals in carcinogenesis. Suppression of the oxygen radical response of neutrophils in relation to cancer preventive agents is a facile assay of these important substances. The mechanism of action of oxygen radicals in promoting carcinogenesis is a multiple one, including: (1) activation of oncogenes, (2) modification of DNA bases, and (3) formation of single-strand breaks leading to poly(ADP)ribose polymerase activation.
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PMID:Prevention of cancer by agents that suppress oxygen radical formation. 206 Aug 47

Human breast tumor cells MCF-7 were grown during 5 days in the presence of Adriamycin and the IC50 was 50 nM with the highest sublethal concentration 0.1 microM. At this latter concentration Adriamycin produced a complete inhibition of cell division and a partial reversion to a normal breast epithelial appearance. Similar effects of Adriamycin were observed in cells cultured in the presence of 10% FBS and in a chemically defined medium, with Se-glutathione peroxidase activities of 3.8 and 1.3 U/mg of protein, respectively. Cell size and cell oxygen uptake were increased by 41% and by 50%, respectively, in Adriamycin-treated cells. The spontaneous chemiluminescence of monolayers of intact MCF-7 cells (81 +/- 9 cps/mg protein) was increased by 48% in the Adriamycin-treated cultures (120 +/- 11 cps/mg of protein) in agreement with a 91% higher concentration of malondialdehyde in the same cultures. Adriamycin treatment produced a 71% increase in the steady state concentration of H2O2, which was estimated assuming diffusion equilibrium with the external medium, from 1.38 microM in the control cells to 2.38 microM in the treated cells. Cyanide-insensitive respiration was also higher in the cells exposed to the drug than in the control cells. Adriamycin did not affect the activity of the antioxidant enzymes, Cu-Zn and Mn-superoxide dismutase, Se and non-Se-glutathione peroxidase, and catalase. These results contribute to the current hypothesis that oxygen free radicals produced by Adriamycin redox cycling are responsible for at least part of the cytotoxic effects due to this drug.
Breast Cancer Res Treat 1990 Dec
PMID:Adriamycin effects on hydroperoxide metabolism and growth of human breast tumor cells. 209 92

Of 50 patients who had scrape cytology of the excision cavity after conservative surgery for breast carcinoma, 10 (20%) had malignant cells remaining in the cavity recognised by cytology. Of these patients, 18 had histological evidence of tumour at the resection margin, giving an accuracy of the cytology of 84%, a sensitivity of 56%, and a specificity of 100%. When assayed for cytotoxicity against a breast tumour cell line (MCF7) or human fibroblasts, chlorhexidine gluconate was the most effective of eight antiseptics or antitumour agents (100% cytotoxicity at a 1/10,000 dilution) in killing breast tumour cells and had 70% toxicity to human fibroblasts at the same dilution. Hydrogen peroxide appeared to be the most useful agent overall with 94% cytotoxicity to breast tumour cells with only a 12% cytotoxicity to human fibroblasts at a dilution of 1/1,000,000. We suggest that free malignant cells left in the cavity after conservative surgery for breast cancer may be a cause of local recurrence. They can be recognised by scrape cytology at operation and the topical use of antiseptics as cytotoxic agents may be beneficial and warrants further investigation.
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PMID:Antiseptic toxicity to breast carcinoma in tissue culture: an adjuvant to conservation therapy? 201 20

The radicals generated by adriamycin-sensitive (CHO-AB) and adriamycin-resistant (CHO-C5) Chinese hamster ovary cells as well as by adriamycin-sensitive and -resistant human breast cancer cells (MCF7-WT and MCF7-ADR) have been studied with spin-trapping and ESR spectroscopy. During anoxic exposure to adriamycin (ADR) both pairs of cell lines produced the broad ESR singlet characteristic of ADR semiquinone (AQ.). By use of tris(oxalato)chromate (CrOx) as an extracellular line-broadening agent, the distribution of AQ. between the intra- and extracellular compartments was studied. For cell densities of (1-3) X 10(7) cells/mL, CrOx eliminated most, though not all, of the ESR signal, indicating that the AQ. radicals freely diffuse and partition between the intra- and extracellular compartments proportionally to their respective volumes. Similar behavior was exhibited by all four cell lines studied. Upon introduction of oxygen to anoxic cells in the presence of the spin trap 5,5-dimethylpyrroline N-oxide (DMPO), the AQ. signal was replaced by that of the DMPO-OH spin adduct. Metal chelators such as desferrioxamine had no effect on DMPO-OH or AQ. formation. Superoxide dismutase, not catalase, totally eliminated the ESR signal, indicating that DMPO-OH produced by ADR-treated cells originates from superoxide rather than from .OH produced from H2O2. In the presence of CrOx, the DMPO-OH signal was not distinguishable from the background noise, thus excluding any contribution to the signal by intracellular spin adducts.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Free radicals induced by adriamycin-sensitive and adriamycin-resistant cells: a spin-trapping study. 255 5

We have established a variant of the human breast cancer cell line MCF7, designated MCF7/H2O2, which is 5-fold resistant to H2O2 by clonogenic assay. The specific activity of the H2O2 disposal enzyme catalase was elevated 3-fold in MCF7/H2O2; activities of other antioxidant enzymes, including glutathione peroxidase and superoxide dismutase, were not increased. The steady-state level of catalase mRNA was only slightly elevated (approx. 1.6-fold) in MCF7/H2O2 cells; however, degradation of catalase mRNA was markedly retarded in MCF-7/H2O2 compared to MCF-7 (82% of catalase mRNA remained 24 h after inhibition of RNA synthesis by actinomycin D in MCF-7/H2O2 vs. 32% in MCF7). The degradation rates of superoxide dismutase mRNA and 28 S ribosomal RNA were not reduced in MCF-7/H2O2; however, the rate of degradation of another mRNA species, beta-actin, was also significantly decreased. These data suggest that resistance to H2O2 in MCF7/H2O2 cells is mediated by elevated catalase activity which can be explained by stabilization of certain mRNA species, including catalase mRNA.
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PMID:Resistance to hydrogen peroxide associated with altered catalase mRNA stability in MCF7 breast cancer cells. 279 32

In the present study we demonstrated that human erythrocytes possess a NO synthase (NOS) that can be activated by oxidative stress and Ca2+ accumulation to produce nitric oxide (NO), and that this activation could be involved in the pathogenesis of toxic anaemia in breast cancer patients. By causing oxidative stress in human erythrocytes with hydrogen peroxide (H2O2) (100 microM), or by increasing the intracellular calcium concentration using various doses (up to 100 microM) of the calcium ionophore A23187, a gradual increase in both NO and peroxynitrite (ONOO-) release that was inhibited by N-monomethyl-L-arginine (L-NMMA) (1mM) was observed. Time-dependent experiments using hemolysates showed a linear rise of NO production which was elevated by 60% in the presence of superoxide dismutase (SOD) (100 U). NOS isolated from hemolysates was constitutively expressed and was dependent on NADPH, Ca2+/calmodulin, tetrahydrobiopterin and flavins. In reconstitution experiments, when purified NOS, isolated from erythrocytes, was added to purified soluble guanylate cyclase (sGC), isolated from endothelial cells, in the presence of the appropriate cofactors and substrates, a linear increase in cGMP production at various concentrations (up to 50 microM) of H2O2 was observed. Furthermore, it was shown that erythrocytes from breast cancer patients were subjected to higher oxidative stress by ONOO- (100 microM), with a consequential increase of membrane rigidity, than erythrocytes from healthy individuals. Such mechanic changes may result in shortening of the lifespan of erythrocytes, a feature of toxic anemia in cancer patients.
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PMID:Nitric oxide and peroxynitrite production by human erythrocytes: a causative factor of toxic anemia in breast cancer patients. 754 67

We demonstrate that alpha-ketoacids reduce and, in some instances, abrogate menadione-induced DNA damage and cytotoxicity in the human breast cancer cell line, MCF7. We confirm that alpha-ketoacids quench the copious amounts of H2O2 generated by menadione while these alpha-ketoacids undergo nonenzymatic oxidative decarboxylation; our data thus support enhanced H2O2 production as an important pathway for menadione-induced DNA damage and cytotoxicity. We also demonstrate that alpha-ketoacids scavenge H2O2 generated by mitochondria and microsomes when these organelles are exposed to menadione; additionally, alpha-ketoacids protect oxidant-vulnerable enzymes against functional impairment induced by H2O2. Finally, we provide the first in vivo demonstration that acute elevations in concentrations of alpha-ketoacids in rat tissues and urine scavenge H2O2. We conclude that enhanced H2O2 production is a major pathway for menadione-induced DNA damage and cytotoxicity and that the diverse alpha-ketoacids present within the cell must be considered, along with glutathione peroxidase and catalase, as part of the intracellular antioxidant defense mechanisms that regulate the ambient levels of H2O2.
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PMID:alpha-Ketoacids scavenge H2O2 in vitro and in vivo and reduce menadione-induced DNA injury and cytotoxicity. 784 Jan 52

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