Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0596263 (carcinogenesis)
 64,820 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The action of hyperthermia treatments on tumor promotion separated into a two-stage protocol has been investigated. 7,12-Dimethylbenz[a]anthracene (DMBA) initiated dorsal skin of female SENCAR mice was promoted with either H2O2 or 12-O-tetradecanoylphorbol-13-acetate (TPA) (4 applications, 2 times/week) as the first stage of promotion, followed by promotion with mezerein (28 applications, 2 times/week) as the second stage. Hyperthermia (44 degrees C, 30 min) treatment of the skin at the time of stage II promotion only (just before each mezerein application) suppressed 100% of papillomas when H2O2 was used as a first-stage promoter and 96% when TPA was used as the first stage, as compared to unheated control animals. The same hyperthermia treatment given only at stage I of promotion had similar results. Hyperthermia treatments just before stage I TPA promotion (4 treatments only) followed by mezerein as the second stage reduced papilloma formation by 92%. When H2O2 was used as the first stage promoter and again mezerein as the second, papilloma frequency was reduced by 74%, as compared to unheated controls. This antipromotion activity of hyperthermia could not be linked to an inhibition of skin protease activity. Although papilloma frequency was markedly suppressed by hyperthermia during stage I promotion only, carcinoma formation was not. A similar number of carcinomas appeared in the groups of mice receiving hyperthermia with either H2O2 or TPA as first-stage promoters, as in comparable groups receiving no hyperthermia. In contrast, when hyperthermia treatments were given during stage II promotion with mezerein (using either H2O2 or TPA as stage I promoters), carcinomas (as well as papillomas) were markedly reduced. The results suggest that DMBA initiation creates two types of promotion-dependent cells, a majority with relatively low progression probability and a minority with relatively high progression probability. The former require both stage I and II promotion while the latter require only stage II promotion to form tumors. Hyperthermia treatments given during stage II promotion protected against promotion and progression of both types of initiated cells, but similar treatments only during stage I did not protect against promotion and progression of the latter. Although promotion was required for expression, relative progression probability appeared linked to initiation and not promotion events. These findings suggest that hyperthermia treatment of persons exposed to tumor-promoting agents may reduce the risk of induced tumorigenesis.
Carcinogenesis 1987 Dec
PMID:Tumorigenesis and carcinogenesis in mouse skin treated with hyperthermia during stage I or stage II of tumor promotion. 311 45

Inflammation has long been associated with carcinogenesis, especially in the promotion phase. The mechanism of action of the potent inflammatory agent and skin promoter 12-tetradecanoyl phorbol-13-acetate (TPA) is unknown. It is thought that TPA selectively enhances the growth of initiated cells, and during this process, initiated cells progress to the preneoplastic state and eventually to the malignant phenotype. Many studies support the multistep nature of carcinogenesis, and a significant amount of evidence indicates that more than one genetic event is necessary for neoplastic transformation. Selective growth stimulation of initiated cells by TPA does not explain how further genetic events may occur by chronic exposure to this nongenotoxic agent. We and others have proposed that TPA may work, in part, by inciting inflammation and stimulating inflammatory cells to release powerful oxidants which then induce DNA damage in epidermal cells. Macrophages cocultured with target cells and TPA induce oxidized thymine bases in the target cells. This process is inhibited by both catalase and inhibitors of lipoxygenases, suggesting the involvement of both H2O2 and oxidized lipid products. Furthermore, macrophage populations that release both H2O2 and metabolites of arachidonic acid (AA) are more efficient at inducing oxidative DNA damage in surrounding cells than populations which only release H2O2 or metabolites of AA. In vivo studies demonstrated that SENCAR mice, which are sensitive to promotion by TPA, have a more intense inflammatory reaction in skin than C57LB/6 mice, which are resistant to promotion by TPA. In addition, macrophages from SENCAR mice release more H2O2 and metabolites of AA, and induce more oxidative DNA damage in cocultured cells than macrophages from C57LB/6 mice.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Inflammation, oxidative DNA damage, and carcinogenesis. 312 86

It has been proposed that increased rates of hepatic hydrogen peroxide (H2O2) production may initiate or promote the liver tumors that appear following chronic exposure of rodents to chemicals that cause peroxisome proliferation. However, the effect of H2O2 on the structural integrity of DNA in parenchymal hepatocytes, the target cells of peroxisome proliferator-induced carcinogenesis, is largely uncharacterized. Furthermore, oxidant-induced cellular damage has been invoked as causal of a number of hepatotoxic effects associated with exposure to chemicals other than peroxisome proliferators. For these reasons, alkaline elution analysis was used to study the action of H2O2, added exogenously, on DNA of intact, isolated rat hepatocytes. Addition of a bolus of H2O2 (0.01-1.0 mM) to monolayer cultures of hepatocytes caused concentration-dependent increases in single-strand DNA breaks (SSDB), which were maximal within 30 min of exposure. Cytotoxicity, as measured by lactate dehydrogenase (LDH) release, was minimal during a 1-h exposure to H2O2 concentrations less than 1 mM, but the efflux of oxidized glutathione was increased. Formation of SSDB was nearly linear with respect to H2O2 concentration in the range 0.1-1.0 mM. No double-strand DNA breaks or DNA-protein crosslinks were identified at H2O2 concentrations of 1 mM or less. Repair of SSDB in H2O2-free medium occurred in a rapid, linear manner only for the first 15 min, resulting in disappearance of 65% of the SSDB. A second, slower phase of SSDB rejoining occurred between 20 and 60 min of incubation in H2O2-free media; at 60 min rejoining was maximal (80% repair). These results define a specific type of DNA damage associated with H2O2 exposure of hepatocytes and suggest that primary cultures of rat hepatocytes are a suitable model for characterizing the potential genotoxic effects of oxidants, particularly excess H2O2 that may occur in the livers of animals exposed chronically to peroxisome proliferators.
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PMID:DNA strand breaks induced by hydrogen peroxide in isolated rat hepatocytes. 335 84

Oxygen radicals are thought to play an important role in the promotion phase of carcinogenesis and the action of phorbol esters. Inflammatory cells are an abundant source of reactive oxygen intermediates (ROI) in the body and release large quantities of ROI when exposed to phorbol esters. Both protein kinase C (PKC), the receptor for phorbol esters, and the NADPH oxidase which generates ROI are Ca2+- and Mg2+-dependent. We investigated the requirements for Ca2+ and Mg2+ of macrophages from strains of mice sensitive and resistant to the promotion of tumors by phorbol esters. Macrophages from SENCAR mice, which are sensitive to phorbol ester promotion, required much lower levels of Ca2+ or Mg2+ to mount a full respiratory burst, as measured by the release of H2O2 in response to phorbol ester stimulation, than macrophages from C57BL/6 mice, which are resistant to promotion by phorbol esters. Conversely, when the particulate stimulus zymosan was used, there was little difference between macrophages from the two strains in requirements for Ca2+ and Mg2+ to release H2O2. Lowering the concentration of either cation in the absence of the other was more inhibitory than in the presence of the other cation. The studies demonstrate that differences in sensitivity to divalent cations by macrophages from these two strains is selective for phorbol ester stimulation and that lower requirements for Ca2+ and Mg2+ for ROI release correlates with sensitivity to the promotion of tumors by phorbol esters.
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PMID:Divalent cation requirements for mounting a respiratory burst in response to phorbol diesters by macrophages from SENCAR and C57BL/6 mice. 338 81

Peroxisome proliferator hepatocarcinogens lack genotoxic activity in numerous in vitro assays using non-target cells which do not respond with peroxisome proliferation. Therefore, the effect of in vivo treatment with WY-14,643 on DNA repair was quantitated in rat hepatocytes, the target cell for carcinogenesis. Palmitoyl CoA oxidase and carnitine acetyltransferase activities in isolated hepatocytes were elevated by WY-14,643 (50 mg/kg/day by gavage for up to 5 consecutive days) and by WY-14,643 (0.1%) or di(2-ethyl-hexyl)phthalate (DEHP) (1.2%) feeding (for up to 28 days), indicating peroxisome proliferation had occurred. DNA repair as unscheduled DNA synthesis (UDS) was measured autoradiographically as net nuclear grains following thymidine incorporation in primary hepatocyte cultures. Treatment of rats with WY-14,643 (gavage or feeding) or DEHP (feeding) did not induce UDS. Addition of 2-acetylaminofluorene to replicate cultures demonstrated that WY-14,643 or DEHP treatment did not prevent repair response. Additional cultures were treated with H2O2 (0.8 mM H2O2 3x at 1-h intervals) to evaluate the ability of UDS to detect any repair which may be induced by peroxisomal metabolism. H2O2 did not induce UDS at this concentration, nor did it prevent 2-acetylaminofluorene-induced repair. UDS was, however, observed in a separate experiment using a higher concentration of H2O2. In summary, a highly carcinogenic peroxisome proliferator did not induce UDS in the target cell for carcinogenesis in spite of peroxisome proliferation following in vivo treatment.
Carcinogenesis 1988 Jul
PMID:Failure of the peroxisome proliferator WY-14,643 to induce unscheduled DNA synthesis in rat hepatocytes following in vivo treatment. 338 37

Topical treatment of female SENCAR mice with 12-O-tetradecanoylphorbol-13-acetate (TPA) reduced both dermal and epidermal catalase-specific activities 38% and 51% within 6 h and 18 h of promoter application, respectively. Dermal catalase activity recovered to control levels within 72 h of treatment whereas epidermal catalase activity remained suppressed. Activity measurements were also made in four subpopulations of keratinocytes prepared by Percoll gradient centrifugation that differed in their stages of differentiation. Catalase-specific activity increased with keratinocyte maturity and ranged from 45-54 U/mg protein for basal cell preparations to 252 U/mg protein for granular-squamous cell preparations. Pretreatment of the epidermis for 16-18 h with TPA (2 micrograms) uniformly reduced catalase-specific activity 46-52% in all keratinocyte subpopulations prepared by Percoll gradient centrifugation. Similarly, plots of catalase units per cell versus extracted protein per cell suggested 55-60% decreases in catalase activity in basal and spinous cell keratinocytes of TPA treated epidermis. Furthermore, catalase-specific activity in homogenates of whole epidermis (144-182 units/mg protein) was most similar to the activity of the granular/squamous keratinocyte subpopulation. Collectively, these studies suggest that: (i) TPA reduces the capacity for H2O2 detoxification by catalase throughout the epidermis; and (ii) activity measurements on unfractionated epidermal preparations may not be representative of the basal cell keratinocyte population.
Carcinogenesis 1988 Jul
PMID:Distribution of catalase and its modulation by 12-O-tetradecanoylphorbol-13-acetate in murine dermis and subpopulations of keratinocytes differing in their stages of differentiation. 338 43

Enzyme activities relating to H2O2 production (peroxisomal acyl-CoA oxidase) and degradation (catalase and glutathione peroxidase) were measured in the livers of male mice of the inbred strains C57BL/6J (C57) and C3H/HeJ (C3H) and their F1 hybrid, B6C3F1. Groups of the three genotypes were maintained on either a basal diet or one containing 0.1% of the peroxisome-proliferating agent, nafenopin, for six weeks. In both control and nafenopin-exposed groups, the C57 strain displayed higher acyl-CoA oxidase activity levels than the C3H mice, whereas the activity levels of catalase and glutathione peroxidase were not different for the two inbred strains. The groups of similarly fed B6C3F1 hybrids had intermediate values for acyl-CoA oxidase. Several other parameters relating to peroxisome proliferation did not differ among the three genotypes. Acyl-CoA oxidase levels in cultured hepatocytes from C57 mice were greater than those in hepatocytes obtained from the C3H strain during two days in culture and this difference was maintained for 4 days by nafenopin exposure. Acyl-CoA oxidase is central to the hypothetical H2O2 mechanism of peroxisome proliferator-induced hepatocarcinogenesis and, therefore, the genetic difference documented here may lead to a useful approach in testing this hypothesis.
Carcinogenesis 1988 Aug
PMID:Genetic differences in enzymes associated with peroxisome proliferation and hydrogen peroxide metabolism in inbred mouse strains. 340 42

It has been shown previously that deoxyguanosine residues in DNA are hydroxylated at the C-8 position both in vitro and in vivo to produce 8-hydroxydeoxyguanosine (8-OH-dG) by various agents that produce oxygen radicals such as reducing reagents-O2, metal ions-O2, polyphenol-H2O2-Fe3+, asbestos-H2O2 or ionizing radiation. These agents are mostly either mutagenic or carcinogenic; therefore, the formation of 8-OH-dG can also be considered a likely cause of mutation or carcinogenesis by oxygen radicals. It is of interest to know whether the 8-OH-dG residue in DNA is misread during DNA replication. To answer this question, we have examined the effect of the 8-OH-dG residue in DNA on the fidelity of DNA replication using a DNA synthesis system in vitro with Escherichia coli DNA polymerase I (Klenow fragment). The synthetic oligodeoxynucleotides, with or without an 8-OH-dG residue in a specified position, were chemically synthesized and used as templates for DNA synthesis under the conditions of the dideoxy chain termination sequencing method. Surprisingly, in addition to misreading of the 8-OH-dG residue itself, pyrimidines next to the 8-OH-dG residue (G has not yet been tested) were also misread.
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PMID:Misreading of DNA templates containing 8-hydroxydeoxyguanosine at the modified base and at adjacent residues. 357 69

Stimulated phagocytic cells generate active oxygen species which are known to contribute to inflammatory diseases, necrosis of surrounding tissues, mutagenicity and carcinogenicity. Until now, it was not certain whether protease inhibitors are capable of decreasing the production of those oxygen species, and if they are, what type of protease inhibitor is the most active. In this work we monitored formation of H2O2 by 12-O-tetradecanoylphorbol-13-acetate (TPA)-activated polymorphonuclear leukocytes (PMNs) because H2O2 is the immediate precursor of the actual damaging species. These determinations were carried out in the absence or presence of protease inhibitors and/or superoxide dismutase (SOD). The protease inhibitors tested were: potato inhibitors 1 (PtI-1) and 2 (PtI-2), a chymotrypsin-inhibitory fragment of PtI-2 (PCI-2), chicken ovoinhibitor (COI), turkey ovomucoid ovoinhibitor (TOOI), Bowman-Birk inhibitor (BBI), lima bean inhibitor (LBI) and soybean (Kunitz) trypsin inhibitor (SBTI). The order of activity, as measured by inhibition of H2O2 formation by TPA-activated PMNs during incubation at 37 degrees C for 30 min, was (in descending order): PtI-1 greater than or equal to PCI-2 greater than PtI-2 greater than COI greater than BBI greater than or equal to TOOI greater than LBI greater than SBTI. Thus, the most effective were the chymotrypsin-specific inhibitors PtI-1 and PCI-2, followed by the bifunctional inhibitors recognizing both chymotrypsin and trypsin, and the least active was SBTI, a predominantly trypsin inhibitor. At the higher concentrations of protease inhibitors tested, the inhibitory activity was similar in both the absence and presence of SOD. These results show that protease inhibitors specific for chymotrypsin but not those that are trypsin-specific are capable of inhibiting formation of active oxygen species during the oxidative burst of stimulated human PMNs.
Carcinogenesis 1987 Sep
PMID:Chymotrypsin-specific protease inhibitors decrease H2O2 formation by activated human polymorphonuclear leukocytes. 362 59

The hypothesis that hepatocarcinogenesis resulting from treatment of rats and mice with peroxisome proliferators is linked to increased cellular levels of hydrogen peroxide from peroxisomal beta-oxidation was investigated. Male F344 rats and female B6C3F1 mice were treated for 14 days with di(2-ethylhexyl)phthalate (DEHP) or di(2-ethylhexyl)adipate (DEHA), industrial plasticizers, or nafenopin, a hypolipidemic drug. Activities of enzymes responsible for the production [peroxisomal palmitoyl CoA oxidase (PCO)] and degradation [catalase (Cat) and glutathione peroxidase (GSHPx)] of H2O2 were assayed in liver homogenates prepared from treated animals. The activities of the peroxisomal enzymes PCO and Cat were enhanced 5- to 25-fold and 1.5- to 3-fold respectively by treatment with the peroxisome proliferators. The activity of GSHPx, a cytoplasmic enzyme, was decreased 40-60% in liver homogenates prepared from treated animals compared to control animals. A kinetic treatment of the rates of formation of hydrogen peroxide by PCO, and of degradation of hydrogen peroxide by catalase was used to estimate steady-state hydrogen peroxide concentrations ([H2O2]) during peroxisomal oxidation of palmitoyl CoA. Increases in peroxisomal steady-state [H2O2] for the F344 rat liver homogenates correlated well with the carcinogenic potential of these chemicals, determined in previous carcinogenicity studies. Increases in the steady-state [H2O2] were also calculated for liver homogenates prepared from mice treated with these compounds. Decreases in liver lipid peroxidation were observed after treatment with each chemical in both species. The results of these studies are consistent with an involvement of increased peroxisomal hydrogen peroxide in the hepatocarcinogenesis of these compounds.
Carcinogenesis 1986 Nov
PMID:In vitro steady-state levels of hydrogen peroxide after exposure of male F344 rats and female B6C3F1 mice to hepatic peroxisome proliferators. 376 36


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