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

Mutation of the p53 tumor suppressor gene is a common event in many human cancers and has been specifically associated with invasive squamous cell carcinoma of the human skin and respiratory tract. Alterations in the p53 gene have also been identified in certain rodent tumors, including formaldehyde-induced nasal squamous cell carcinomas. Overexpression of transforming growth factor-alpha (TGF-alpha) is associated with carcinomas of the head and neck and respiratory tract in human patients and formaldehyde-induced rat nasal squamous cell carcinomas. Sections of rat noses containing tumors and other formaldehyde-induced lesions from rats exposed to 15 ppm formaldehyde vapor were examined using immunohistochemical techniques to detect and identify potential relationships between the presence and distribution of p53, proliferating cell nuclear antigen (PCNA), and TGF-alpha proteins. The five tumors that had p53 mutations were for mutant p53 protein by immunohistochemistry and three of six tumors with no detected p53 mutations were also immunoreactive for p53 protein. The presence, pattern, and distribution of p53 staining in tissue sections depended on the morphology of the lesion. PCNA immunoreactivity was strikingly similar in pattern and distribution to p53 immunoreactivity. The pattern and distribution of immunoreactivity for TGF-alpha did not directly correlate with the other markers. Mutation of the p53 tumor suppressor gene may be an important step in the progression of formaldehyde-induced nasal carcinogenesis in the rat. This study demonstrated that immunohistochemistry is a useful tool for the identification of sites within tumors that might have p53 mutations.
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PMID:Immunohistochemical localization of p53, PCNA, and TGF-alpha proteins in formaldehyde-induced rat nasal squamous cell carcinomas. 774 82

The individual genotoxic response of cultured human lymphocytes to diepoxybutane (DEB), an epoxide metabolite of 1,3-butadiene, shows a bimodal distribution. Blood donors can be classified as either DEB-sensitive or DEB-resistant on the basis of the frequency of sister chromatid exchanges (SCEs) induced by DEB in whole-blood lymphocyte cultures. The genetic basis of this phenomenon has thusfar been unknown. To investigate if differences in the ability of individuals to detoxify DEB could explain the bimodal response, sister chromatid exchanges (SCEs) induced by a 48-h treatment with DEB (2 and 5 microM) were analyzed in whole-blood lymphocyte cultures of 20 human donors with known genotypes of two polymorphic glutathione S-transferases (GSTs), GSTT1 and GSTM1. Both polymorphisms include a homozygous null genotype lacking the respective GST gene and isozyme. The mean frequency of SCEs/cell was 1.6 times higher among GSTT1 null donors (n = 8) than GSTT1 positive donors (n = 12) at both 2 microM DEB (mean 67.3 versus 40.9) and 5 microM DEB (mean 123.2 versus 77.5), with no overlapping in DEB-induced individual SCE frequencies between the two genotypes. Thus, all DEB-sensitive individuals were of the GSTT1 null genotype, while all DEB-resistant persons had a detectable GSTT1 gene. A significant (P < 0.05) negative correlation (r = -0.65 at 5 microM, r = -0.56 at 2 microM) was obtained in the GSTT1 positive donors between DEB-induced individual SCE frequency and RBC GSTT1 activity, measured by formaldehyde formation from dichloromethane; the GSTT1 null individuals showed no GSTT1 activity. At 5 microM DEB, the lymphocyte cultures of the GSTT1 null donors also had a significantly decreased replication index, indicating an impact of GSTT1 genotype on the cytotoxicity of DEB. No influence on DEB-induced SCEs or cytotoxic effects was observed for GSTM1 genotype. It is concluded that sensitivity to in vitro SCE induction by DEB is explained by the lack of GSTT1.
Carcinogenesis 1995 Jun
PMID:Role of GSTT1 and GSTM1 genotypes in determining individual sensitivity to sister chromatid exchange induction by diepoxybutane in cultured human lymphocytes. 778 40

In the present study 34 agents, related to carcinogenesis in different ways, were investigated with respect to their recombinogenic activity in mammalian cells. The induction of intrachromosomal recombination was studied using the spontaneous mutant clone SP5 derived from V79 Chinese hamster cells, which exhibits a duplication of exon 2 and its flanking regions in the hprt gene, which was found to be inserted between the two EcoR1 sites of intron 1. Earlier studies on the removal of this insertion fragment in the SP5 clone indicated that such loss involved intrachromosomal recombination and was detectable by using a reversion mutation assay. The categories of agents investigated here included monofunctional alkylating agents, polyaromatic hydrocarbons giving rise to bulky adducts, chlorinated compounds giving small cyclic adducts, intercalating agents, DNA cross-linkers, UV and ionizing radiation, inhibitors of DNA synthesis and topoisomerases, DNA bases and base analogues, radical formers and tumour promotors. Statistically significant enhancements in the frequency of reversion in SP5 cells were observed after treatment with aflatoxin B1, 9-aminoacridine, benzo[a]-pyrene-7,8-dihydrodiol, benzo[a]pyrene-7,8-diol-9,10-epoxide, camptothecin, dimethylbenzanthracene, dimethyl-nitrosamine, ethidium bromide, ethylmethanesulfonate, N-ethyl-N'-nitrosourea, fluorodeoxyuridine, ICR 191, N-methyl-N'-nitrosoguanidine, mitomycin C and UV irradiation. Only slight inducing effects were indicated in the case of methylmethanesulfonate, N-methyl-N'-nitrosourea and gamma irradiation, although not statistically significant. Negative results were found after treatment with 3-amino-benzamide, 5-azacytidine, bleomycin, 5-bromodeoxyuridine, 1,2-dichloroethane, ethylene oxide, etoposide, formaldehyde, hydrogen peroxide, methotrexate, propylene oxide, quercitin, sodium azide, 12-O-tetradecanoylphorbol-13-acetate, thymidine and a complex mixture consisting of a cigarette smoke condensate. Our results on chemically or physically induced recombinogenic effects in the endogenous SP5 hprt gene are in agreement with data obtained in non-endogenous gene systems based on transgenic cell lines containing integrates of tandem mutated tk or hygromycin resistance genes, but not completely consistent with findings on integrates based on the neo genes. This suggests that many factors influence the recombination process, including a difference in the mechanisms underlying inter- and intrachromosomal recombination. Consequently, the endogenous SP5/V79 system is suggested to be more representative than integrated systems for investigating induction of recombination, as well as for mechanistic studies of recombination at the molecular level, e.g. intrachromosomal recombination.
Carcinogenesis 1994 Oct
PMID:Studies on intrachromosomal recombination in SP5/V79 Chinese hamster cells upon exposure to different agents related to carcinogenesis. 795 71

Formaldehyde is a nasal carcinogen in the rat but the cancer risk this chemical poses for humans remains to be determined. Formaldehyde induces nonlinear, concentration-dependent increases in nasal epithelial cell proliferation and DNA-protein cross-link formation following short-term exposure. Presented in this review are results from a mechanistically based formaldehyde inhalation study in which an important endpoint was the measurement of cell proliferation indices in target sites for nasal tumor induction. Male Fischer 344 rats were exposed to 0, 0.7, 2, 6, 10, or 15 ppm formaldehyde for up to 2 years (6 hr/day, 5 day/week). Statistically significant increases in cell proliferation were confined to the 10 and 15 ppm groups, which remained elevated throughout the study. The concentration-dependent increases in cell proliferation correlated strongly with the tumor response curve, supporting the proposal that sustained increases in cell proliferation are an important component of formaldehyde carcinogenesis. The nonlinearity observed in formaldehyde-induced rodent nasal cancer is consistent with a high-concentration effect of regenerative cell proliferation of the target organ coupled with the genotoxic effects of formaldehyde. Cell kinetic data from these studies provide important information that may be utilized in the assessment of risk for humans exposed to formaldehyde.
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PMID:Cell proliferation and formaldehyde-induced respiratory carcinogenesis. 802 3

Cell lines derived from formaldehyde-induced nasal tumors in Fischer 344 rats were established. All of the lines were found to be epithelial and aneuploid and to express keratin, transforming growth factor-alpha, and epidermal growth factor receptor transcripts. Two of four lines were tumorigenic upon injection into nude mice, and these lines also contained point mutations in the p53 suppressor gene. The data indicate that these lines possess characteristics that make them a valuable tool for the study of chemically induced respiratory tract carcinogenesis.
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PMID:Characterization of cell lines derived from formaldehyde-induced nasal tumors in rats. 814 52

Aldehydes with specific protein-DNA crosslinking ability disrupted simian virus 40 (SV40) DNA replication to cause replication fork failure by the 40S intermediate pathway, in which replicating viral genomes become inactivated and torsionally stressed. In contrast, aldehydes without detectable protein-DNA crosslinking ability had no effect on SV40 DNA replication during the 10 min exposure times employed. This indicates that protein-DNA crosslinks block either DNA polymerase or the entire replication complex. Replication failure by the 40S pathway is known to initiate recombinational events in the damaged SV40 replicons. Similar events in cellular replicons may play a role in the clastogenic effects of formaldehyde. In addition, formaldehyde and acrolein caused accumulation of catenated (topologically linked) SV40 daughter chromosomes--a signature of topoisomerase II inhibition.
Carcinogenesis 1994 May
PMID:Aldehyde-induced protein-DNA crosslinks disrupt specific stages of SV40 DNA replication. 820 64

Methylene chloride (MC) induced DNA damage in freshly isolated hepatocytes from mice and rats, which was detectable as single-strand (ss) breaks by alkaline elution. The lowest in vitro concentration of MC needed to induce DNA damage in mouse hepatocytes (0.4 mM) was much lower than for rat hepatocytes (30 mM), and is close to the calculated steady-state concentration of MC in the mouse liver (1.6 mM) at a carcinogenic dose (4000 p.p.m. by inhalation). DNA ss breaks were also detectable in hepatocyte DNA from mice which had inhaled 4000 p.p.m. MC for 6 h, but not in hepatocyte DNA from rats similarly exposed. In studies with hepatocytes cultured overnight in the presence of buthionine sulfoximine to deplete glutathione (GSH), subsequent exposure to MC resulted in less DNA damage in the GSH-depleted cells. This shows that conjugation of MC with GSH is important in its activation of DNA-damaging species in the liver. The GSH pathway of MC metabolism produces two potential DNA-damaging species, formaldehyde and S-chloromethylglutathione (GSCH2Cl). Formaldehyde is known to cause DNA ss breaks in cells. However, the lowest concentration of formaldehyde required to induce a significant amount of DNA ss breaks in mouse hepatocytes (0.25 mM) is unlikely to be formed following in vitro or in vivo metabolism of MC at concentrations that induce similar amounts of DNA damage. That formaldehyde does not play a role in this DNA damage has been confirmed in experiments with CHO cells exposed to MC and an exogenous activation system from mouse liver (S9 fraction). Formaldehyde was responsible for the DNA- protein cross-linking effect of MC, but did not cause the DNA damage leading to ss breaks. These DNA ss breaks are likely to be caused by GSCH2Cl. The results suggest a genotoxic mechanism for MC carcinogenicity in the mouse liver, and support the proposal that the observed species differences in liver carcinogenicity result from differences in the amount of MC metabolism via the GSH pathway in the target organ.
Carcinogenesis 1994 May
PMID:Relationship between hepatic DNA damage and methylene chloride-induced hepatocarcinogenicity in B6C3F1 mice. 820 Jan 6

We investigated the effect of 2-phenylethyl and 6-phenylhexyl isothiocyanate (PEITC and PHITC) on the metabolism of the rat esophageal carcinogen, N-nitrosomethylamylamine (NMAA). PEITC was administered orally to MRC-Wistar rats as single doses of 0.1 or 1.0 mmol/kg, or by other regimens. When esophagi and liver slices from the treated rats were incubated with 23 microM NMAA, the formation of 2- to 5-hydroxy-NMAA was inhibited by 45-90% for esophagus and by 14-19% for liver slices. In contrast, when esophagi and liver slices from untreated MRC-Wistar rats were incubated in vitro with NMAA and 10 microM PEITC, the PEITC inhibited hydroxy-NMAA formation similarly (by 79-89%) in the two tissues. Also, PEITC inhibited the formation from NMAA of the hydroxy-NMAAs, formaldehyde and pentaldehyde by esophageal and liver microsomes to similar extents. In studies on DNA methylation by NMAA, 7- and O6-methylguanine (O6-MeG) were determined by HPLC with fluorimetric detection. Guanine methylation in esophageal and liver DNA was generally close to linear for doses of 5-50 mg NMAA/kg. With 50 mg NMAA/kg, guanine methylation in esophageal and liver DNA peaked after 5 h, and 8-11% of the peak O6-MeG persisted after 72 h. A single dose of 0.1 or 1.0 mmol PEITC/kg reduced the O6-MeG levels by 44-51% in the esophagus but by only 7-22% in the liver. Administration of the PEITC homolog, PHITC, inhibited NMAA metabolism by liver slices from the treated rats and the methylation of guanine in liver DNA, but had little effect in the esophagus, i.e. PHITC tended to have the opposite tissue specificity to PEITC. The finding that administration of PEITC specifically inhibited NMAA metabolism in the rat esophagus supports the view that PEITC may be a useful chemopreventive agent against esophageal carcinogenesis in humans.
Carcinogenesis 1993 Apr
PMID:Inhibition by phenylethyl and phenylhexyl isothiocyanate of metabolism of and DNA methylation by N-nitrosomethylamylamine in rats. 847 42

N-Nitrosodimethylamine (NDMA), but not N-nitroso-N-methylurea (MNU) was more mutagenic in the Salmonella hisG428 strain, TA104, than in the hisG46 strain, TA100 in the presence of rat or hamster liver S-9 mix. As both NMDA and MNU can give rise to methyldiazonium ion (MDI) it appears that NDMA can be metabolized to an additional mutagen with a higher activity in TA104. The effects of UV and error-prone repair on NDMA and MNU-induced mutagenesis in TA104 were also different. alpha-Acetoxy-NDMA, which gives rise to the NDMA metabolite, alpha-hydroxy-NDMA, was more mutagenic in TA104 than TA100, under certain conditions. Several metabolites of NDMA (formaldehyde, 1,1-dimethylhydrazine and nitrite) were not significantly mutagenic at the concentrations that could have been generated from NDMA. It was previously reported that the microsomal-mediated mutagenesis induced by NDMA is greatly increased by cytosol in TA104, but not in TA100. The current study found that when cytosol was separated into a high and a low mol. wt fraction, neither greatly enhanced microsomal-mediated mutagenesis by NDMA in TA104. Addition of NAD to the high, but not the low mol. wt fraction resulted in greatly enhanced activation of NDMA to a mutagen in TA104. The enhancement by cytosol of NDMA-induced mutagenesis in hisG428 was only observed when both microsomes and cytosol were simultaneously present. These observations indicate that (i) the precursor to the ultimate mutagen is relatively short-lived; and (ii) the metabolism of alpha-hydroxy-NDMA to a secondary mutagenic metabolite, possibly N-nitroso-N-methylformamide, by alcohol dehydrogenase may be responsible for the ultimate mutagen with relatively high activity in TA104.
Carcinogenesis 1993 May
PMID:Effects of cytosol on mutagenesis induced by N-nitrosodimethylamine, N-nitrosomethylurea and alpha-acetoxy-N-nitrosodimethylamine in different strains of Salmonella: evidence for different ultimate mutagens from N-nitrosodimethylamine. 850 62

The metabolism of N-nitrosodipropylamine (NDPA), N-nitrosodibutylamine (NDBA) and N-nitroso-n-butyl-n-propylamine (NBPA) was investigated in vitro using liver microsomes and purified isoforms of cytochrome P450 in a reconstituted system. Liver microsomes were prepared from rats pretreated with phenobarbital (PB), pyridine (PYR), beta-naphthoflavone (BNF), butylated hydroxytoluene (BHT), butylated hydroxyanisole (BHA), clofibrate (CLO) or from untreated rats. The purified cytochrome P450s used in the reconstituted system were rat 1A1 and 2B1 and rabbit 2E1. The rates of metabolism and the product profiles for NDPA, NDBA and NBPA changed significantly depending on the pretreatment of the rats or the identity of the purified cytochrome P450 isoforms. Induction by PB dramatically increased cleavage of NDPA, NDBA and NBPA at C-N bonds, leading to substantial increases in formation of the respective aldehydes and the overall metabolic rates. Microsomes from PYR-pretreated rats exhibited increased activities for formation of formaldehyde and propionaldehyde from NDPA and NBPA. Microsomes from BHT-pretreated rats showed a slight increase in activity for N-dealkylation of NDBA and BNPA. Treatment with BHA decreased the overall metabolism of NDBA, but slightly increased N-dealkylation of NBPA. Microsomal metabolism of NDPA, NDBA and NBPA was decreased by pretreatment with BNF and CLO. Results from studies using the reconstituted system with purified cytochrome P450 isoforms demonstrated that cytochrome P450 2B1 specifically catalyzed alpha-hydroxylation of these three long chain nitrosamines with high activity. Cytochrome P450 2E1 catalyzed formation of formaldehyde and propionaldehyde from NDPA and NBPA, but did not catalyze formation of acetaldehyde or butyraldehyde. Cytochrome P450 1A1 exhibited no activity for metabolism of NDPA, NDBA and NBPA. The contributions of cytochrome P450 2B1 and 2E1 to N-dealkylation reactions were determined using inhibitory monoclonal antibodies (mAb). With microsomes from PB-pretreated rats, inhibition by mAb-2B1 indicated a 62% contribution by cytochrome P450 2B1 to debutylation of NDBA and 65% to depropylation of NDPA. In microsomes from PYR-pretreated rats inhibition by mAbs also showed a role for cytochrome P450 2E1 in depropylation of NDPA. These studies provide a better understanding of the role of various forms of cytochrome P450 in metabolic activation of these long chain N-nitrosodialkylamines to potentially toxic, mutagenic and carcinogenic intermediates.
Carcinogenesis 1996 Apr
PMID:Identification of the cytochrome P450 isozymes involved in the metabolism of N-nitrosodipropyl-,N-nitrosodibutyl- and N-nitroso-n-butyl-n-propylamine. 862 99


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