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Query: UMLS:C0596263 (
carcinogenesis
)
64,820
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The tumor promoter 12-O-tetradecanoylphorbol-13-acetate (TPA) influences neither the State 3 nor the State 4 respiration in rat liver mitochondria. The respiratory control and ADP/O ratio were also unaffected by TPA. The oligomycin-sensitive ATPase activity in submitochondrial particles remained unaltered upon TPA addition, whereas the NADH oxidase activity was slightly inhibited at a very high concentration of TPA (15% decrease at 17 microM TPA). The activity of the superoxide dismutase located to the mitochondria was insensitive to the tumor promoter, and no change in the rate of
H2O2
production was found on TPA treatment in vitro. Thus, the mitochondrion is not a likely candidate for the site of action of the tumor promoter.
Carcinogenesis
1983
PMID:Oxygen uptake, ATPase activity, and superoxide dismutase activity in isolated rat liver mitochondria are not influenced by the tumor promoter 12-O-tetradecanoylphorbol-13-acetate. 622 26
Prostaglandin H synthase (PHS) and horseradish peroxidase catalyze the oxidation of benzidine to the same free radical species. No radical was observed if either benzidine,
H2O2
or enzyme was omitted. The similarity of the fine structure of this radical to a computer-simulated model suggests the presence of a free cation radical of benzidine. Neither superoxide nor hydroxyl radicals appear to be involved in the co-oxidation of benzidine or 2-amino-4-(5-nitro-2-furyl)-thiazole (ANFT) by PHS. Production of the benzidine radical by PHS was inhibited by ANFT, acetaminophen, cyanide and ascorbate. ANFT was metabolized by PHS but not by horseradish peroxidase. ANFT had no effect on either radical production or 14C-metabolism of benzidine by horseradish peroxidase. These results indicate that different peroxidases may exhibit specificity with respect to the carcinogens they activate. The free radical cation of benzidine may be the electrophilic intermediate responsible for PHS-catalyzed binding of benzidine to protein and nucleic acids.
Carcinogenesis
1983
PMID:Prostaglandin H synthase metabolism of the urinary bladder carcinogens benzidine and ANFT. 629 1
Autoxidation of active metabolites of naphthylamine and aminoazo dyes in neutral buffer generated hydrogen peroxide (
H2O2
) and superoxide anion (O-.2), as detected by the titanium sulfate method and nitro blue tetrazolium method, respectively. 2-Amino-1-naphthol, 1-amino-2-naphthol, 1-amino-4-naphthol, N-hydroxy-2-aminonaphthalene, N-hydroxy-1-aminonaphthalene, N-hydroxy-4-aminoazobenzene and N-hydroxy-4-methylaminoazobenzene generated
H2O2
and O-.2, whereas 1-nitrosonaphthalene, 2-nitrosonaphthalene, 1-naphtylamine, 2-naphthylamine and non-carcinogenic aminonaphthols and naphthols generated no active oxygens. Catalase and superoxide dismutase were used to identify the formation of these active oxygens. For all compounds tested except nitrosonaphthalenes, good parallelism was found between the active oxygen formation and convertibility to free radicals. These results suggest a possible role of free radicals and subsequently formed active oxygens in aromatic amine
carcinogenesis
.
Carcinogenesis
1983
PMID:Generation of hydrogen peroxide and superoxide anion from active metabolites of naphthylamines and aminoazo dyes: its possible role in carcinogenesis. 630 28
The oxidation of carcinogenic hydroxamic acids, N-hydroxy-N-2-fluorenylacetamide (N-OH-2-FAA) and N-hydroxy-N-3-fluorenylacetamide (N-OH-3-FAA) catalyzed by horseradish peroxidase (HRP) or cytochrome c in the presence of
H2O2
was investigated. HRP/
H2O2
was a more efficient system in oxidation of both hydroxamic acids and the standard substrate, guaiacol, then cytochrome c/
H2O2
. Peroxidative activity of cytochrome c was shown after incubation with Triton X-100 and
H2O2
for 20 min at room temperature in 0.05 M phosphate buffer (pH 7.5) or in 0.1 M sodium acetate (pH 6.0) without Triton X-100. Both hydroxamic acids were oxidized to nitroxyl free radicals as shown by electron spin resonance (ESR) spectroscopy. These radicals dismutated to equimolar amounts of 2- or 3-nitrosofluorene and acetate esters of the corresponding hydroxamic acids as shown by thin layer chromatography and spectrophotometric analysis of the products. In addition, large amounts of the N-fluorenylamides were generated in the reactions with cytochrome c/
H2O2
system. Of the products, only 2- or 3-nitrosofluorene per se or when generated from the oxidation of the hydroxamic acids, interacted with lecithin (1 mg/ml) to yield ESR signals of the immobilized nitroxyl free radicals. In contrast to HRP/
H2O2
system, in which the initial velocity of the radical formation was too fast to measure and the maximal concentrations of the nitroxyl free radicals of both hydroxamic acids were similar, in the cytochrome c/
H2O2
system the nitroxyl free radical of N-OH-2-FAA formed at a 6-fold faster rate and accumulated at a 2-fold higher concentration than the radical of N-OH-3-FAA. In both enzyme systems, the persistence of the signal and the length of time before it had decreased to one half its maximum were several-fold longer for the nitroxyl free radical of N-OH-3-FAA than for that of N-OH-2-FAA. These data showed that these nitroxyl free radicals differed in their kinetic properties. One electron oxidation of N-OH-3-FAA by HRP/
H2O2
system and of both isomeric hydroxamic acids by cytochrome c/
H2O2
system are reported for the first time in this work and may be considered an activation reaction in
carcinogenesis
by these compounds.
...
PMID:Cytochrome c/H2O2-mediated one electron oxidation of carcinogenic N-fluorenylacetohydroxamic acids to nitroxyl free radicals. 631 47
The prostaglandin synthase and horseradish peroxidase catalyzed binding of p-phenetidine to DNA was investigated. The addition of arachidonic acid to an incubation containing ram seminal vesicle microsomes, [14C]p-phenetidine and DNA resulted in a rapid incorporation of radioactivity into DNA. This was inhibited by greater than 75% by indomethacin (0.1 mM) or butylated hydroxyanisole (0.5 mM).
Hydrogen peroxide
was as efficient as arachidonic acid in mediating the activation of p-phenetidine thus implicating the involvement of the hydroperoxidase activity of prostaglandin synthase in this reaction. Horseradish peroxidase and hydrogen peroxide also catalyzed the activation of p-phenetidine to DNA-binding metabolites. Reduced glutathione (GSH) stimulated the binding of p-phenetidine to DNA by greater than 3-fold in both the prostaglandin synthase and the horseradish peroxidase system, whereas cysteine and N-acetylcysteine reduced the DNA-binding in the prostaglandin synthase system by up to 62% under the conditions used. Furthermore, water-soluble metabolites formed in the presence of GSH also bound to DNA. Seventy-two hour dialysis of DNA samples from incubations with GSH present reduced the amount of bound material by 75%. In contrast, the radioactivity which associated with DNA in the absence of GSH was not decreased by dialysis.
Carcinogenesis
1984 Feb
PMID:Prostaglandin synthase and horseradish peroxidase catalyzed DNA-binding of p-phenetidine. 642 1
There is much evidence from in vivo and in vitro
carcinogenesis
studies that active oxygen species play a role in tumor promotion. We tested directly whether superoxide produced extracellularly by xanthine-xanthine oxidase (X-XO) has the capacity to promote initiated mouse embryo C3H/10T1/2 fibroblasts. Cell cultures initiated with either 137Cs gamma-rays or benzo[a]pyrene diol epoxide I were found to transform 3-30 times more effectively when subsequently treated daily for 3 weeks with nontoxic doses of X-XO. Scavengers of active oxygen radicals such as superoxide dismutase or superoxide dismutase in combination with catalase reduced the frequency of appearance of transformed foci by 3-25 times when compared to cultures receiving X-XO alone. These results show that active oxygen species such as superoxide and
H2O2
can act in a promotional manner that mimics the effects of the mouse skin promoter phorbol 12-myristate 13-acetate in this system. X-XO also acted as a weak complete carcinogen.
...
PMID:Active oxygen acts as a promoter of transformation in mouse embryo C3H/10T1/2/C18 fibroblasts. 642 26
We have studied the effects of superoxide dismutase (SOD), catalase, Cu(II) (3,5-diisopropylsalicylate)2 (CuDIPS) and other copper compounds on radiation transformation in vitro using C3H 10T1/2 cells. When present only during irradiation, high concentrations of SOD in the medium enhanced transformation, while catalase, inactivated SOD (autoclaved), CuDIPS, cupric chloride and cuprous chloride inhibited the initiation phase of radiation transformation. SOD, catalase and CuDIPS did not affect the expression phase of radiation transformation. Suppression of the TPA enhancement of transformation by catalase was a highly significant effect, while the suppression by SOD was not of statistical significance. Our results suggest that hydrogen peroxide (
H2O2
) may be important in the cellular damage leading to malignant transformation.
Carcinogenesis
1984 Oct
PMID:Role of free radicals in the initiation and promotion of radiation transformation in vitro. 648 46
Activation of polycyclic aromatic hydrocarbons (PAH) by horseradish peroxidase (HRP) with
H2O2
has been studied as a model system for one-electron oxidation. This peroxidase has been used to catalyze binding of 6-[14C]methylbenzo[a]pyrene (BP-6-CH3) to DNA, which was purified, hydrolyzed to deoxyribonucleosides and analyzed by high pressure liquid chromatography (HPLC). The predominant hydrocarbon-DNA adduct observed was identified as BP-6-CH3 bound at the 6-methyl group to the 2-amino group of dG, confirming that activation by HRP occurs by one-electron oxidation. When DNA from mouse skin treated in vivo with [14C]BP-6-CH3 was purified, hydrolyzed and analyzed by HPLC, a profile was observed which was qualitatively similar to that from the peroxidase system. In particular, the identified adduct with the hydrocarbon bound at the 6-methyl group to the 2-amino group of dG was obtained. These results demonstrate that one-electron oxidation is the mechanism of activation by HRP for aromatic hydrocarbons and indicate that the same mechanism may occur in mouse skin, a target tissue for hydrocarbon
carcinogenesis
.
...
PMID:Structure elucidation of a 6-methylbenzo[a]pyrene-DNA adduct formed by horseradish peroxidase in vitro and mouse skin in vivo. 664 Jul 83
The relationship between the direct (i.e., within the target cell itself) induction by tumor promoters of DNA double or single strand scissions and late-stage promotion of a selected tumor cell phenotype in JB6 mouse epidermal cells was investigated. These cells have been shown to respond to late-stage tumor promoters with an irreversible induction of anchorage independent growth. Mezerein, a late-stage tumor promoter in mouse skin, stimulated promotion of anchorage independent growth of JB6 cells without detectable concomitant induction of DNA double or single strand breaks. A single treatment of JB6 cells with benzoyl peroxide, a complete tumor promoter, or
H2O2
, a weak complete tumor promoter but an efficient Stage I tumor promoter, did not induce anchorage independent growth but did induce DNA single strand scissions. The lack of induction of detectable DNA strand scissions by mezerein, an active promoter of anchorage independent growth, and the existence of promoters which induce DNA strand scissions but not promotion of anchorage independent growth after a single treatment, suggest that direct induction of DNA strand scissions is unrelated to the late-stage promotion of tumor cell phenotype in JB6 cells.
Carcinogenesis
1983 Dec
PMID:Evidence suggesting a dissociation of DNA strand scissions and late-stage promotion of tumor cell phenotype. 665 66
The C-8 position of deoxyguanosine (dGuo) was hydroxylated by ascorbic acid in the presence of oxygen (O2) in 0.1 M phosphate buffer (pH 6.8) at 37 degrees C. Addition of hydrogen peroxide (
H2O2
) remarkably enhanced this hydroxylation. The Udenfriend system [ascorbic acid, FeII, ethylenediaminetetraacetic acid (EDTA) and O2] was also effective for hydroxylation of dGuo in high yield. Guanine residues in DNA were also hydroxylated by ascorbic acid. Other reducing agents, such as hydroxylamine, hydrazine, dihydroxymaleic acid, sodium bisulfite and acetol, were also effective for the hydroxylation reaction, as were metal-EDTA complexes (FeII-, SnII-, TiIII-, CuI-EDTA). An OH radical seemed to be involved in this hydroxylation reaction in most of the above hydroxylating systems, but another reaction mechanism may also be involved, particularly when dGuo is hydroxylated by ascorbic acid alone or ascorbic acid plus
H2O2
. The possible biological significance of the hydroxylation of guanine residues in DNA in relation to mutagenesis and
carcinogenesis
is discussed.
...
PMID:Hydroxylation of deoxyguanosine at the C-8 position by ascorbic acid and other reducing agents. 670 Oct 97
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