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Query: UMLS:C0596263 (carcinogenesis)
 64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nonimmunological defenses are very diverse in type. Some are directed against already transformed cells and belong to mechanisms of containment. Others exert a surveillance by preventing or inhibiting initial events of carcinogenesis. Chalones and oncolytic factors in sera and exudates are agents of containment. Under appropriate circumstances, the autoxidation of thiols and the formation of mixed disulfides lead to destruction of tumor cells in vitro and in vivo. Both processes involve the generation of superoxide radicals and of hydrogen peroxide which, in turn, activate the peroxide:peroxidase:halide system. Thiol:disulfide ratios and interchange codetermine the antioxidative activity of cellular membranes, thus bearing on carcinogenesis. Many aliphatic and aromatic antioxidants are endowed with anticarcinogenic properties. The fact that they are inhibitors of free radical processes corroborates the increasingly evident role of free radicals in carcinogenesis. Endogenous antioxidants and exogenous ones in foods are agents of surveillance. Antioxidant activity, linked with the ergastoplasm, points to a homeostatic mechanism that prevents self-accelerating chain reactions from leading to membrane damage or to carcinogenesis. Carcinogens can also be inactiviated by microsomal enzymes belonging to an overall mechanism of detoxification. Activity levels of these systems depend on diet and state of nutrition. They may be naturally very low, but they can be increased with various inducers.
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PMID:Nonimmunological host defenses: a review. 17 22

In the control animals of thyroid peroxidase is localized within the membrane of rough endoplasmic reticulum, perinuclear cisternae, microvilli, lamellar structures of the GOLGI apparatus and dispersed through the cytoplasm small vesicles. 3 weeks treatment of the animals with MTU leads to disappearance of the peroxidase activity from the follicular cells. However, a prolongation of MTU administration until the 6th month and latter causes a reappearance of the peroxidase activity within the same structures of the proliferating cells as in the control animals. In the epithelial cells of follicular and papillary carcinomas the reaction product is observed predominantly within the membrane of the rough endoplasmic reticulum, perinuclear space and outher membrane of the microvilli. The changes in the inhibitory effect of MTU on the peroxidase activity during thyroid carcinogenesis are discussed.
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PMID:Cytochemical localization of peroxidase activity in normal, proliferating and neoplastic thyroid tissues of rats. An ultrastructural study. 40 41

Lecithin and kephalin content in the microsomes and mitochondria of the rat liver, and also the activity of enzymatic and nonenzymatic systems of the phospholipid peroxidation showed a sharp change following 3,4-benzpyrene injection. Carcinogenesis is accompanied by significant changes in the lipid peroxides content and in the activity of the enzyme utilizing lipoperoxides (glutathion peroxidase, glutathion reductase). Accumulation of lipid peroxides in the rat liver in carcinogenesis was connected with disturbed balance of the generating systems and detoxication of lipid peroxides in the tumour is attributed to the high activity of the protective enzymatic systems and serves as a reflection of the adaptation mechanisms directed to the maintenance of a high pool of proliferating cells in the tumour.
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PMID:[Lipid peroxide metabolism in chemical carcinogenesis]. 42 80

Immunohistochemical evaluation of Cu, Zn- and Mn-superoxide dismutase (SOD) activity in various viral liver diseases was performed by the peroxidase-conjugated antibody indirect method. Anti-human Cu, Zn-SOD (rabbit) and anti-human Mn-SOD (guinea-pig) derived and purified from SOD of human erythrocytes and placentas were used to determine SOD distribution in liver tissues. SOD in the liver tissues was detected in 68 inpatients of our unit. They consisted of 23 cases with chronic hepatitis caused by hepatitis B virus (13) and hepatitis C virus (10), 24 with liver cirrhosis caused by hepatitis B virus (5) and hepatitis C virus (19) (15: compensatory, 9: decompensatory) and 21 with hepatocellular carcinoma caused by hepatitis B virus (2) and hepatitis C virus (18) complicated of liver cirrhosis. In viral liver diseases, SODs in the liver tissues were distributed to hepatocytes mainly in the pattern of cytoplasmic diffusion. The incidence of immunohistochemical Cu, Zn-SOD and Mn-SOD were 47.8% and 56.5% in chronic hepatitis, 93.3% and 86.7% in compensated liver cirrhosis, 11.1% and 22.2% in decompensated liver cirrhosis, respectively. The aggression of viral liver disease was accompanied with the decrease of SOD concentration in the liver tissues. Hepatocellular carcinoma cells were negative for Mn-SOD in all cases, and weakly positive for Cu, Zn-SOD in 2 out of 21 cases. Comparatively strongly positive SOD findings were obtained from normal regions neighboring carcinomas. A close relationship between the depletion of SOD in liver tissues and carcinogenesis in viral liver diseases was observed.
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PMID:Relationship between superoxide dismutase (SOD) and viral liver diseases. 132 May 79

Several studies have indicated a correlation between the presence of inflammation and the development of cancer. The aim of our study was to determine if pulmonary neutrophils could transform the proximate respiratory carcinogen (+-)-trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene (B[a]P-7,8-diol), to an ultimate carcinogenic metabolite via myeloperoxidase (MPO). To test this hypothesis, virus-free male DBA/2 mice were exposed by inhalation to the Gram-negative bacteria Proteus mirabilis for 1 h. For various time points post-exposure, bronchoalveolar lavage (BAL) was performed to determine total and differential cell counts, cellular MPO activity and production of superoxide. Twelve hours after the exposure, cellular activity of MPO as well as percentage and total number of polymorphonuclear leukocytes peaked and declined thereafter. At this same time point, cells from BAL exhibited increased release of superoxide, as measured by reduction of cytochrome c, after addition of soluble or particulate stimuli, 12-O-tetradecanoylphorbol-13-acetate (TPA) or opsonized zymosan respectively. These cells also elicited biotransformation of B[a]P-7,8-diol as evidenced by enhanced B[a]P-7,8-diol-derived chemiluminescence, tetraol formation and covalently bound adduct formation to exogenous DNA upon addition of TPA or opsonized zymosan. Moreover, the cell-free BAL fluid of infected mice contained substantial MPO activity in comparison to that of uninfected animals. Also, MPO enhanced the binding of B[a]P-7,8-diol to lung DNA in vitro. Unlike previous work emphasizing the potential roles of oxygen free radicals in tumor promotion, our results indicate a role of neutrophilic MPO in the initiation of carcinogenesis.
Carcinogenesis 1992 Jul
PMID:Myeloperoxidase-enhanced formation of (+-)-trans-7,8-dihydroxy-7,8-dihydrobenzo[a]pyrene-DNA adducts in lung tissue in vitro: a role of pulmonary inflammation in the bioactivation of a procarcinogen. 132 50

In previous experiments, pretreatment of CD-1 mouse skin with prostratin (12-deoxyphorbol 13-acetate) inhibited hyperplasia, induction of ornithine decarboxylase and edema in response to acute treatment with phorbol 12-myristate 13-acetate (PMA). We report here that prostratin inhibits biological responses induced by multiple (chronic) PMA treatment. A typical chronic treatment schedule consisted of five applications of 3.2 nmol (2 micrograms) PMA at 48 h intervals. Most effective inhibition could be achieved when the first PMA treatment was preceded 48 h before by a lower dose of prostratin (256 nmol = 100 micrograms) and each PMA treatment was preceded 15 min before by a higher dose (2.56 mumol = 1 mg) of prostratin. Under this schedule hyperplasia was completely blocked, as was keratin K6 expression (a marker of hyperproliferative epidermis), whereas myeloperoxidase activity (a marker of neutrophil granulocyte infiltration) was reduced to 36%. 12-Deoxyphorbol 13-phenylacetate (dPP), a non-promoting 12-deoxyphorbol derivative that binds to protein kinase C with two orders of magnitude higher potency than does prostratin, showed the same pattern of inhibition as did prostratin for a single PMA treatment but with a corresponding two orders of magnitude higher potency. In the case of chronic PMA treatment, however, dPP failed to inhibit hyperplasia fully, though it reduced keratin K6 expression and inflammation. Dissociation of K6 expression from hyperplasia was unexpected, since expression of these two responses was thought to be closely coupled. We conclude that 12-deoxyphorbol 13-monoesters are functional antagonists for a class of protein kinase C-mediated responses closely correlated to tumor promotion.
Carcinogenesis 1992 Nov
PMID:Non-promoting 12-deoxyphorbol 13-esters as potent inhibitors of phorbol 12-myristate 13-acetate-induced acute and chronic biological responses in CD-1 mouse skin. 138 2

Peroxidase in the presence of hydrogen peroxide catalyzes in vitro the activation of carcinogenic N,N-dimethyl-4-aminoazobenzene (DAB) to DNA-, tRNA- and homopolydeoxyribonucleotide-bound products. tRNA is the most susceptible to modification by the activated DAB. Binding of DAB products to macromolecules is inhibited by methyl viologen, nitrosobenzene, ascorbate, glutathione, NADH and MgCl2. The mechanism of these inhibitions was studied. The nuclease P1 version of the 32P-postlabeling assay was employed for detection and quantitation of some major DNA or tRNA adducts formed with DAB activated by a peroxidase system. tRNA modified by activated DAB shows a significantly increased acceptance for L-methionine.
Carcinogenesis 1992 Sep
PMID:Formation and 32P-postlabeling of DNA and tRNA adducts derived from peroxidative activation of carcinogenic azo dye N,N-dimethyl-4-aminoazobenzene. 139 52

We have developed and optimized an enzyme-linked immunosorbent assay (ELISA) for absolute quantitation of human beta-glucuronidase. This is a double antibody sandwich system employing two murine monoclonal antibodies specific for human beta-glucuronidase developed in our laboratories. The method involves (a) coating of the high binding polystyrene microtitration plate with the first antibody (7B6 IgG), (b) blocking of remaining active sites with 3% bovine serum albumin in phosphate-buffered saline, (c) application of samples, (d) addition of the biotinylated second antibody (6D2 IgG), (e) addition of streptavidin-horseradish peroxidase, and (f) development of color with o-phenylenediamine dihydrochloride-H2O2 and reading in a microplate reader at a wavelength of 490 nm. The method is highly sensitive with an optimal range of 10 to 100 ng/ml of the enzyme and is reproducible with intraday and interday precisions of 3.2 and 4.1%, respectively. The enzyme contents of 20 urine and 20 bile samples quantitated by this ELISA method were, respectively, 148 +/- 101 and 6380 +/- 3780 ng/ml (means +/- SD) which correlated well with their enzyme activities. Such a method for absolute quantitation of human beta-glucuronidase is essential for studying its pathophysiologic roles in cholelithiasis and carcinogenesis and can also be used clinically as an indicator for tissue damage or malignancy.
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PMID:Development and optimization of an enzyme-linked immunosorbent assay employing two murine monoclonal antibodies for absolute quantitation of human beta-glucuronidase. 141 87

In this work the resistance of peroxisome-proliferated hepatocytes to hydrogen peroxide (H2O2) has been studied. The question has been raised as to whether this resistance is a response to cytotoxicity. In an initial series of experiments, hepatocytes were isolated from rats that had been treated with nafenopin (NAF-hepatocytes). Isolated cells were exposed to a H2O2-generating system or to H2O2 in pulses. The ability to attach to collagen was used as a toxicological endpoint. Loss of attachment was found to be correlated to glutathione (GSH) depletion, and NAF-hepatocytes were more resistant to GSH depletion and to loss of attachment induced by H2O2 than were control hepatocytes. NAF-hepatocytes were not resistant to hydroquinone or to adriamycin. It was also indicated that this resistance was related to an altered metabolism of H2O2, less dependent on GSH. In a second series of experiments, hepatocytes from altered hepatic foci-bearing rats, treated with nafenopin or di(2-ethylhexyl)phthalate (DEHP), were used. This model was used in an attempt to monitor the development of resistance in different subpopulations of hepatocytes. It was found that the majority of hepatocytes developed resistance towards H2O2, and that, for example, foci marker-positive hepatocytes were as resistant as marker-negative cells. In control experiments with this model, it was found that marker-positive cells were more resistant towards diethyl maleate (DEM) or phorone than were marker-negative cells. In addition to demonstrating the validity of the model, these control experiments indicate an increased steady-state level of H2O2 in cells from peroxisome proliferator-treated rats. Other control experiments suggested that a low GSH-peroxidase activity protected from, rather than aggravated, the effect of peroxisome proliferation on marker-negative and GSH-depleted cells. It is concluded that H2O2 metabolism may affect the function of collagen receptors, but that a shift in H2O2 metabolism, so that it becomes less dependent on GSH, conferred resistance to this effect. The apparent non-focal induction of resistance to peroxisome proliferators, as opposed to the focal induction of resistance induced by most liver carcinogens, may explain the lack of development of gamma-glutamyltranspeptidase-positive foci in peroxisome proliferator-treated rats.
Carcinogenesis 1992 Oct
PMID:Peroxisome proliferation and resistance to hydrogen peroxide in rat hepatocytes: is development of resistance an adaptation to cytotoxicity? 142 34

The formation of thioether conjugates is an important pathway for inactivation of certain carcinogens. This study assessed the mechanism by which the bladder carcinogen 2-amino-4-(5-nitro-2-furyl)-thiazole (ANFT) forms a glutathione conjugate (ANFT-SG). Peroxidatic metabolism of ANFT, in the presence of glutathione, results in ANFT-SG formation. Both prostaglandin H synthase and horseradish peroxidase can catalyze this reaction. Metabolism of the reducing co-substrates ANFT, phenol, and aminopyrine elicit increases in oxidized glutathione (GSSG). ANFT-SG formation is potentiated by phenol and aminopyrine. tert-Nitrosobutane (tNB), a thiyl radical trap, prevented increases in both GSSG and ANFT-SG. Increasing concentrations of ANFT elicited corresponding increases in both GSSG and ANFT-SG. Peroxidatic metabolism of ANFT in the presence of glutathione, but not in the absence of glutathione, resulted in oxygen uptake. The formation of GSSG and oxygen uptake are consistent with the presence of thiyl radicals during ANFT metabolism. 5,5-Dimethyl-1-pyrroline N-oxide, a thiyl radical trap, was not as effective as tNB in inhibiting the formation of ANFT-SG and GSSG. Ascorbic acid, a reducing cosubstrate and antioxidant, was very effective in preventing ANFT-SG and GSSG formation, while the strong nucleophile methionine was ineffective. To clarify effects of different test agents, their effects on aminopyrine cation radical formation were assessed. Results are consistent with ANFT reacting with thiyl radicals to form ANFT-SG. ANFT appears to be a thiyl radical trap. Peroxidatic metabolism of ANFT probably results in the formation of a cation radical rather than a carbon-centered radical.
Carcinogenesis 1992 Nov
PMID:Mechanism of formation of the thioether conjugate of the bladder carcinogen 2-amino-4-(5-nitro-2-furyl)-thiazole (ANFT). 142 80


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