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)

We investigated the possibility that variations of the metabolism of xenobiotic compounds might be involved in the process of bladder carcinogenesis, by studying activation reactions (phase I) and detoxification reactions (phase II) of xenobiotic compounds in a group of patients with transitional cell carcinoma of the bladder and in a group of controls hospitalised with other diseases. As an indirect estimate of activating reactions (phase I) we measured cortisol hydroxylation, expressed as the ratio between urinary 6-beta-OH-cortisol and 17-OH-corticosteroids. Cortisol hydroxylation was not increased in the group of patients when compared with controls. The variations of phase II conjugating enzymes were followed indirectly by administering paracetamol and measuring the urinary excretion of its main metabolites over a period of 12 h. The variations in the metabolic conjugation of paracetamol were expressed as a percentage of each metabolite, or of unmodified paracetamol excreted in the urine, or as the ratio between a given metabolite and unmodified paracetamol. The data were analyzed with a logistic regression model, analysing the effects of possible confounding variables such as age, smoking, alcohol, blood nitrogen, blood creatinine, glutamic-pyruvic (SGPT), glutamic-oxalacetic transaminases (SGOT) and percent recovery of paracetamol in the urine. Statistical analysis showed that the excretion of mercapturate derivatives of paracetamol was significantly increased in the group of patients. The levels of glucuronic, sulphate and cysteine metabolites were not varied significantly. Since mercapturate derivatives are formed as a consequence of the formation of short-lived metabolites of paracetamol which react with protein, nucleic acids or glutathione, the increased excretion of mercapturic acid derivatives in cancer patients might be an indication of a higher capability of forming reactive molecular species from xenobiotic compounds. We suggest that this factor might play a role in the induction of bladder cancer.
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PMID:Variations of cortisol hydroxylation and paracetamol metabolism in patients with bladder carcinoma. 320 22

Chinese hamster V79 lung fibroblasts express low levels (specific activity 2-4 fmol/mg protein) of O6-alkylguanine (O6-AG) alkyltransferase (ATase). In cells surviving selection with low doses (10 micrograms/ml) of the chloroethylating agent, mitozolomide (Mz), ATase activity was increased 5- to 8-fold. Repeated selection of such cells produced a maximal specific activity of 36-40 fmol/mg protein, whilst selection at 20 or 40 micrograms/ml result in specific activities of approximately 50 and 70 fmol/mg respectively. Only slight decreases in ATase activity were seen by 51 days after an initial selection with 10 micrograms/ml Mz. A similar effect was observed using chlorozotocin. Selected cells had a higher D37 for Mz (2.5-6.0 micrograms/ml) in comparison with control cell (D37, 0.8 micrograms/ml) but the D37s for nitrogen mustard and vincristine were closely similar in selected and control cells. Possible explanations for the increase in ATase activity are discussed.
Carcinogenesis 1988 Jan
PMID:Increased O6-alkylguanine alkyltransferase activity in Chinese hamster V79 cells following selection with chloroethylating agents. 333 46

An 800-850 degrees F solvent-refined coal-II liquid was fractionated into chemical classes to obtain the aliphatic hydrocarbons, polycyclic aromatic hydrocarbons (PAH), nitrogen-containing polycyclic aromatic compounds (NPAC), and hydroxy-substituted PAH (hydroxy-PAH). The isolated NPAC fraction was refractionated by chemical class both before and after undergoing a nitrosation reaction. The nitrosated and non-nitrosated refractionated NPAC fractions were further subfractionated into secondary amine (pyrroles), primary amine-enriched (amino-PAH), and tertiary amine (azaarene) classes. The PAH and hydroxy-PAH composition of the NPAC fraction increased upon nitrosation, whereas the amino-PAH fraction composition decreased upon nitrosation. Nitrosation of standards indicated the amino-PAH compounds reacted to form parent PAH, chloro-substituted PAH, and methoxy-substituted PAH when analyzed by high-resolution gas chromatography (GC) and GC/mass spectrometry (MS). Some easily oxidized PAH compounds reacted to form ketones and quinones. All other standard reference compounds, chosen to be representative of the major chemical classes of compounds present in coal liquefaction materials, were unchanged by the nitrosation reaction. The amino-PAH of the nitrosated NPAC fraction reacted to form parent and some chloro-substituted PAH when analyzed by low-voltage direct-probe MS in addition to the methods given above. Epidermal carcinogenesis studies with the PAH, NPAC, nitrosated NPAC, and hydroxy-PAH fractions isolated from the 800-850 degrees F coal liquid indicated the PAH and NPAC were the most important determiners of skin carcinogenesis, with the PAH giving a higher response than the NPAC. The tumorigenicity of the NPAC was drastically reduced by nitrosation, probably due to the destruction of the amino-PAH upon nitrosation.
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PMID:Effects of nitrosation on the chemical composition and epidermal carcinogenicity of the nitrogen-rich fraction of a high-boiling coal liquid. 337 37

The metabolism of the carcinogenic nitrosamine, N'-nitrosonornicotine (NNN), to reactive intermediates which bind covalently was assessed using male Sprague-Dawley rat liver microsomes. The NADPH-dependent covalent binding of [14C]NNN was linear with time up to 90 min and protein concentration up to 3.0 mg/ml. The apparent Km and Vmax of the binding were determined from the initial velocities and found to be 0.91 mM and 4.7 pmol/min/mg protein, respectively. Although NNN is not a hepatocarcinogen, this amount of NADPH-dependent covalent binding is 7-fold greater than that reported for dimethylnitrosamine, a potent hepatocarcinogen. Extensive covalent binding of [14C]NNN to liver and muscle microsomal protein was also present in the absence of an NADPH-generating system and in the presence of 50% methanol, indicating a non-enzymatically mediated reaction. Addition of the nucleophiles glutathione, cysteine and N-acetylcysteine significantly decreased (p less than 0.01) the non-NADPH-dependent binding, but did not affect NADPH-dependent binding. In vitro addition of the cytochrome P-450 inhibitors metyrapone, piperonyl butoxide and SKF-525A significantly decreased (p less than 0.05) NADPH-dependent binding of [14C]NNN by 27-40%. NADH did not replace NADPH in supporting covalent binding. Replacement of an air atmosphere with nitrogen or CO:O2 (8:2) significantly decreased (p less than 0.05) NADPH-dependent binding of [14C]NNN by 40 and 27%, respectively. Aroclor 1254 pre-treatment of the rats did not enhance the NADPH-dependent binding of [14C]NNN. These data indicate that cytochrome P-450 is at least in part responsible for the metabolic activation of the carcinogen NNN but also suggest additional mechanisms of activation.
Carcinogenesis 1986 Jan
PMID:Characterization of covalent binding of N'-nitrosonornicotine in rat liver microsomes. 351 Jul 49

The interaction of four cellular nucleophiles with the putative ultimate carcinogens N-sulfonoxy-2-[ring-3H]acetylaminofluorene (N-sulfonoxy-2-AAF) and N-acetoxy-2-[ring-3H] acetylaminofluorene (N-acetoxy-2-AAF), and with N-hydroxy-2-[ring-3H]acetylaminofluorene (N-hydroxy-2-AAF) activated to the ultimate carcinogens by enzymatic sulfonation or transacetylation was determined. The adducts were isolated and adduct formation was quantified by isotope dilution. The order of nucleophilicity of the acceptors was guanosine greater than tRNA congruent to polyguanylic acid (poly G) greater than N-acetyl-L-methionine when N-sulfonoxy-2-AAF, N-acetoxy-2-AAF or N-hydroxy-2-AAF activated by transacetylation were the electrophiles. In the case of N-hydroxy-2-AAF activated by enzymatic sulfonation, the order of nucleophilicity was N-acetyl-L-methionine greater than guanosine congruent to tRNA greater than poly G. The increase in the reactivity of N-acetyl-L-methionine is hypothesized to be due to cytosolic enzyme(s) which facilitate transfer of the methionine residue from the nitrogen to carbon atoms 3 and 1 of the fluorene moiety. Of the two synthetic esters, N-sulfonoxy-2- AAF exhibited greater electrophilicity than N-acetoxy-2-AAF. The rate of adduct formation of N-sulfonoxy-2-AAF and of N-acetoxy-2-AAF with each nucleophile was a function of nucleophile concentration, indicative of a bimolecular reaction mechanism. The interaction is thought to involve attack of the nucleophile on the uncharged ultimate carcinogen, although interaction with an ion pair cannot be eliminated. The mutagenicity of N-sulfonoxy-2-AAF, N-acetoxy-2-AAF and of enzymatically activated N-hydroxy-2-AAF was evaluated by the Ames test. N-Sulfonoxy-2-AAF was virtually inactive, while N-acetoxy-2-AAF exhibited weak mutagenicity. N-Hydroxy-2-AAF activated by enzymatic sulfonation exhibited greater mutagenicity than synthetic N-sulfonoxy-2-AAF. The mutagenicity and reactivity of ultimate carcinogens derived from N-hydroxy-2-AAF by enzymatic activation do not necessarily coincide with the mutagenicity and reactivity of the synthetic ultimate carcinogens.
Carcinogenesis 1986 Mar
PMID:Interaction of the synthetic ultimate carcinogens, N-sulfonoxy- and N-acetoxy-2-acetylaminofluorene, and of enzymatically activated N-hydroxy-2-acetylaminofluorene with nucleophiles. 351 17

Nitrogen-chlorine (N-Cl) derivatives are a class of long-lived oxidants produced by stimulated phagocytes which may be important mediators of the inflammatory response. Because other phagocyte-generated oxidants cause genetic damage in cultured mammalian cells, we studied the ability of the synthetic N-Cl compound, chloramine T (Cl-T), to produce sister-chromatid exchanges (SCEs) in cultured Chinese hamster ovary (CHO) cells. CHO cells were incubated for 30 h with Cl-T (10(-8) M-10(-5) M) and genetic damage was analyzed utilizing the SCE assay. A significant (p less than 0.0005) dose-dependent increase in SCEs was observed. This effect was diminished when cells were treated concomitantly with methionine (10(-5) M), a thioether which reduces N-Cl back to the parent amine. Extracellularly-generated oxidants must traverse long distances before interacting with nuclear target molecules. Therefore, long-lived N-Cl derivatives may represent an important class of oxidants which mediate the process of carcinogenesis associated with chronic inflammatory states in vivo.
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PMID:Chloramine-induced sister-chromatid exchanges. 356 32

The crystal and molecular structure of the cytochrome P-450 inhibitor, SKF-525A [2-(diethylamino)ethyl 2,2-diphenylpentenoate; proadifen hydrochloride] is described. Proadifen hydrochloride crystallized from an ethyl acetate and acetic acid mixture in the space group P2(1)/c with one molecule in the asymmetric unit. Cell constants are a = 18.716(4), b = 8.906(1), c = 14.201(3), beta = 109.41(1) degrees. The structure was solved using direct methods and was refined to an R value of 0.047; weighted R of 0.061 using 3757 reflections. From the crystal and molecular structure, it is seen that SKF-525A has two principal modes of complementary interactions with the enzyme available: polar and non-polar. Polar interactions that principally involve the chloride anion, the quaternary nitrogen atom and the carbonyl oxygen atom. In particular, there are two strong hydrogen bonds, one between Cl ... H-N, 3.090(1) A, the other between O2 ... H-C111 (one of the ethyl hydrogen atoms) at 3.411(2) A. The other is through non-polar interactions involving the phenyl and alkyl groups. Comparisons between proadifen hydrochloride and other inhibitors whose atomic coordinates are available reveal common features which correlate with their function. These include groups to provide necessary intermolecular contacts and bulk, such as a phenyl group and a hydrogen bond acceptor, as well as a tetrahedral atom, which allows for substrate flexibility.
Carcinogenesis 1987 Jul
PMID:Defining the active site of cytochrome P-450: the crystal and molecular structure of an inhibitor, SKF-525A. 359 22

As part of a project to assess the effect of heterocyclic nitrogen in modifying the metabolism and mutagenicity of polycyclic aromatic hydrocarbons, we investigated the metabolism of dibenz[a,h]acridine (DB[a,h]AC) by liver microsomes prepared from male Sprague-Dawley rats. During a 6-min incubation 21, 14, 0.7 or 0.2 nmol DB[a,h]AC per mg protein were metabolized by microsomes from rats pre-treated with DB[a,h]AC, 3-methylcholanthrene (3-MC), phenobarbital (PB) or corn oil, respectively. In each case the predominant metabolites were the dihydrodiols with bay-region double bonds, namely, DB[a,h]AC-3,4-dihydrodiol and DB[a,h]AC-10,11-dihydrodiol, each of which accounted for 21-23% of the total metabolism determined during a 7-min incubation with microsomes from 3-MC-treated rats. Other metabolites produced by these microsomes included DB[a,h]AC-1,2-dihydrodiol (approximately 5% of total metabolites); two K-region oxides [DB[a,h]AC-12,13- and 5,6-oxides (estimated to represent 5% and 2% of total metabolites, respectively)]; several unidentified polar metabolites (10-15%) and several unidentified metabolites which co-eluted with 3-hydroxy-DB[a,h]AC (20%). DB[a,h]AC-8,9-dihydrodiol was not detected (less than 2%). The metabolite profiles produced by microsomes prepared from rats pretreated with DB[a,h]AC, PB or corn oil were very similar to the profile produced by 3-MC-induced microsomes. We conclude that: the potentially mutagenic benzoring dihydrodiols with bay-region double bonds are the predominant metabolite of DB[a,h]AC; the heterocyclic nitrogen atom has little effect in modifying the relative extents of formation of these two benzo-ring dihydrodiols with bay-region double bonds; metabolism at the K-region is only a minor pathway for DB[a,h]AC, as is also true for the carbon analogue dibenz[a,h]anthracene; and induction by a 3-MC-type inducer (e.g. DB[a,h]AC) is required for substantial metabolism to occur.
Carcinogenesis 1987 Aug
PMID:Metabolism of dibenz[a,h]acridine by rat liver microsomes. 360 88

A hypothesis is suggested, which emphasizes the role in carcinogenesis of the attack on low molecular nucleophilic substances (LMN) by electrophilic agents - chemical carcinogens, phisical factors, and antitumor alkylating agents. The significance of the degree of nucleophilicity (electronic charge, order of bonds, index of valence) as a locus minoris resistentiae of the LMN in the electrophilic attack on the latter is emphasized as well as the probable role of the hydrogenated pteridines in influencing carcinogenesis by means of ascorbate, tocopherol, SH-containing compounds etc. In support of this hypothesis the preference of electrophilic agents (derivatives of nitrogen mustard and nitrosoureas) for the places with highest degree of nucleophilicity as targets, in experiments in vitro with nucleic bases and pteridines is emphasized.
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PMID:Nucleophilic targets in carcinogenesis, mutagenesis and chemotherapy of cancer. 364 70

N-methyl-dibenzo[c,g]carbazole (MeDBC) lacks the potent hepatocarcinogenic activity in mice characteristic for 7H-dibenzo[c,g]carbazole (DBC), while both compounds are local carcinogens, leading to papilloma and carcinoma formation in skin after topical application. Because DNA binding is considered an essential step in the initiation of chemical carcinogenesis, the DNA adduction by MeDBC was compared with that by DBC in mouse liver and skin via a 32P-postlabeling technique. Both compounds elicited chromatographically similar adducts in liver; however, the extent of total DNA binding of DBC was 343- and 265-fold greater than that of MeDBC 24 h after topical and i.p. administration, respectively, of a 37 mumol/kg dose. In skin, the adduct pattern elicited by either compound after topical application was different from that seen in liver, and three of four adducts derived from MeDBC were chromatographically distinct from those produced by DBC. Quantitative analysis revealed that total adduction in skin by DBC was 2.3-fold higher than by MeDBC. When the adduct levels were compared between liver and skin, topically applied MeDBC bound preferentially to skin versus liver DNA by a factor of 10, while the opposite was true for DBC. These data are in agreement with the carcinogenicity reported for DBC and MeDBC and support the hypothesis that the extent of covalent DNA modification by these compounds is associated with their biological activity. We conclude that an unsubstituted nitrogen is essential for the genotoxic activity of DBC in liver but not skin. The results also demonstrate the potential of the 32P-postlabeling assay in predicting the organotropism of closely related carcinogens.
Carcinogenesis 1987 Oct
PMID:N-methylation reduces the DNA-binding activity of 7H-dibenzo[c,g]carbazole approximately 300-fold in mouse liver but only approximately 2-fold in skin: possible correlation with carcinogenic activity. 365 79


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