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Query: UMLS:C1326912 (tumorigenesis)
 57,481 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The combined effects of low doses of various carcinogens and carcinogenesis modifiers on tumor development were investigated by using a wide-spectrum organ carcinogenesis model in F344 rats. These agents were administered as three groups: (1) a group of known hepatocarcinogens; (2) a group of nitroso compounds having various target organ specificities; and (3) a group of antioxidants having various inhibiting or enhancing activities depending on the target organ. Doses were used which were generally below the known effective level for the individual chemical. These groups of chemicals were administered with or without prior administration of N-diethylnitrosamine (100 mg/kg body wt., i.p.), N-methylnitrosourea (4 x 20 mg/kg body wt., i.p.) and dihydroxy-di-N-propylnitrosamine (0.1% in drinking water for 2 weeks). The hepatocarcinogen group in combination with various nitroso compounds increased the incidences of liver hyperplastic nodules and hepatocellular carcinomas. In contrast, incidences were clearly reduced when the hepatocarcinogens and/or the nitroso compounds were administered in combination with the antioxidants. For the urinary bladder, the combination with nitroso compounds and antioxidants enhanced cancer development, and the addition of hepatocarcinogens further increased tumorigenesis. For the glandular stomach, additive effects on the numbers of pepsinogen isozyme 1-altered pyloric glands, a putative preneoplastic lesion, were produced by the combination treatment of antioxidants and the nitroso compounds. No synergistic effects on tumor development were seen in other organs. The results of the present study demonstrated that combinations of various compounds at low doses can additively or synergistically exert either enhancing or inhibitory effects on the development of preneoplastic and neoplastic lesions in different organs in a single model having a wide spectrum of organ effects.
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PMID:Organ-specific modification of tumor development by low-dose combinations of agents in a rat wide-spectrum carcinogenesis model. 190 45

The work of ourselves and others has demonstrated that dehydroepiandrosterone (DHEA) dispalys a broad spectrum of cancer preventive action in laboratory rodents, with little toxicity. In the two-stage skin tumorigenesis model in mice, topical application of the synthetic DHEA analog 16 alpha-fluoro-5-androsten-17-one, a more potent preventive agent than DHEA without the sex-hormonal side-effects of the parent steroid, markedly inhibited promotion of 7,12-dimethylbenz[a]anthracene (DMBA)-initiated tumor development by 12-O-tetradecanoylphorbol-13-acetate (TPA). DHEA is a powerful inhibitor of glucose-6-phosphate dehydrogenase (G6PDH), suggesting that its inhibiting effect in carcinogenesis may be due to a lack of NADPH and ribose-5-phosphate production for deoxyribonucleotide synthesis and subsequent DNA replication. Further evidence of a reduced NADPH and ribose-5-phosphate pool on the lowering of intracellular deoxyribonucleotide levels has been demonstrated in this paper by completely reversing the 16 alpha-fluoro-5-androsten-17-one-induced inhibition of tumor promotion by the addition of the four deoxyribonucleosides-deoxyadenosine, deoxycytidine, deoxyguanosine and thymidine--to the drinking water during the promotion period of tumorigenesis.
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PMID:Inhibition of 12-O-tetradecanoylphorbol-13-acetate-promoted skin tumor formation in mice by 16 alpha-fluoro-5-androsten-17-one and its reversal by deoxyribonucleosides. 193 9

The development of hepatocellular tumors was investigated with histological, histochemical, and morphometrical methods in male Sprague-Dawley rats continuously administered N-nitrosodiethylamine (DEN) or N-nitrosomorpholine (NNM) in the drinking water at low doses (0.5 mg DEN/100 ml; 1 mg NNM/100 ml). Groups of control, DEN-, and NNM-treated rats were investigated at 5-week intervals. Similar results were obtained in DEN- and NNM-treated rats. Two types of areas composed of basophilic or glycogenotic hepatocytes were observed preceding the appearance of hepatocellular adenomas and carcinomas. Besides their cytologic differences, the basophilic and glycogenotic areas induced displayed distinct histochemical features. Both types of areas were detected simultaneously and increased in parallel with time to a similar incidence, but basophilic areas reached larger sizes than the glycogenotic ones. Furthermore, each type of area, which clustered around and along efferent veins, was differently linked to tumorigenesis. Basophilic areas frequently developed into basophilic adenomas and trabecular carcinomas through a characteristic sequence. Early basophilic areas consisted of hepatocytes with lamellar cytoplasmic hyperbasophilia and exhibited the normal laminar liver structure. With time, an increasing number of basophilic areas also contained hepatocytes with powdered diffuse hyperbasophilia, which frequently were arranged in thick trabeculae, showed abundant mitotic figures, and invaded efferent veins. Neither such signs of malignancy nor conversion into basophilic areas or tumors could be established for areas of clear and acidophilic glycogenotic hepatocytes. However, a few small glycogenotic adenomas probably developed from glycogenotic areas. Our data thus underline the central role of basophilic areas for hepatocarcinogenesis. Moreover, taking into account the data from other experiments, it seems likely that although glycogenotic areas may be associated with the application of some carcinogens at high doses, they are not obligatory precursors of hepatocellular tumors.
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PMID:Rat hepatocarcinogenesis induced by N-nitrosodiethylamine and N-nitrosomorpholine continuously administered at low doses. From basophilic areas of hepatocytes to hepatocellular tumors. 195 31

The effects of 5% and 50% partial cystectomies on bladder tumorigenesis initiated with N-butyl-N-(4-hydroxybutyl)nitrosamine(BBN) were investigated in Wistar rats by examining the histological findings and cell proliferative activity. The incorporation of bromodeoxyuridine (BrdUrd) into the DNA synthesis phase was determined by an in-vitro labeling technique. After eight weeks of treatment with drinking water containing 0.05% BBN, 5% or 50% partial cystectomy was performed at the end of week 16, and the resected bladder was sutured with dexon or silk. There was no difference in the incidence of papillary or nodular (PN) hyperplasia between the control and partial cystectomy groups. However, the incidence of cancer in the group given partial cystectomy was much higher than that in the control. All the cancers in the control group were grade-1 superficial tumors, whereas grade-2 or invasive tumor was observed in six of 40 animals in the partial cystectomy group. The 31.0% labeling index of cancer in the partial cystectomy group was greater than the 24.1% in the control group. There was also a significant difference in the number of BrdUrd-labeled cells in PN hyperplasia between the control and partial cystectomy groups. These findings indicate that partial cystectomy enhances BBN-initiated bladder carcinogenesis and the increase in DNA synthesis found in PN hyperplasia and cancer may be associated with the induction of bladder tumors.
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PMID:Enhancing effect of partial cystectomy on rat urinary bladder carcinogenesis. 198 84

Potential second-stage modifying effects of 8 antioxidants on lung tumorigenesis initiated by N-bis(2-hydroxypropyl)nitrosamine (DHPN) were examined in male F344 rats. After an initial 2-week treatment with DHPN (0.1% in drinking water), rats were administered one of the antioxidants supplemented in the diet for 30 weeks. Although the incidences of lung adenomas were not affected, those of carcinomas were lowered by 2% butylated hydroxyanisole (BHA, 2 rats/20 rats), 1% butylated hydroxytoluene (BHT, 1/20), 0.8% ethoxyquin (EQ, 3/20) and 1% a-tocopherol (a-TP, 2/20) treatments as compared to the control level (9/20), while 5% sodium L-ascorbate (SA), 0.8% catechol (CC), 0.8% resorcinol (RN), and 0.8% hydroquinone (HQ) did not exert any significant effect on incidence. Quantitative analysis of adenomas and carcinomas (numbers and areas of lesions per unit area of lung section) revealed obvious inhibitory effects of SA, CC, and RN as well as BHA, BHT, EQ, and a-TP. Among the antioxidants, BHT exerted the strongest inhibitory activity. In contrast, DHPN-induced thyroid tumorigenesis was significantly enhanced by BHT (14/20) and EQ (20/20) treatments (control = 5/20). Thus the antioxidants showed opposite effects on lung and thyroid carcinogenesis in the rat.
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PMID:Inhibitory effects of antioxidants on N-bis(2-hydroxypropyl)nitrosamine-induced lung carcinogenesis in rats. 212 88

Male and female B6C3F1 mice were administered dichloroacetate (DCA) and trichloroacetate (TCA) in their drinking water at concentrations of 1 or 2 g/l for up to 52 weeks. Both compounds induced hepatoproliferative lesions (HPL) in male mice, including hepatocellular nodules, adenomas and hepatocellular carcinomas within 12 months. The induction of HPL by TCA was linear with dose. In contrast, the response to DCA increased sharply with the increase in concentration from 1 to 2 g/l. Suspension of DCA treatment at 37 weeks resulted in the same number of HPL at 52 weeks that would have been predicted on the basis of the total dose administered. However, none of the lesions in this treatment group progressed to hepatocellular carcinomas. Conversely, the yield of HPL at 52 weeks when TCA treatment was suspended at 37 weeks was significantly below that which would have been predicted by the total dose administered. In this case, 3 of 5 remaining lesions were hepatocellular carcinomas. Throughout active treatment DCA-treated mice displayed greatly enlarged livers characterized by a marked cytomegaly and massive accumulations of glycogen in hepatocytes throughout the liver. Areas of focal necrosis were seen throughout the liver. TCA produced small increases in cell size and much a more modest accumulation of glycogen. Focal necrotic damage did not occur in TCA-treated animals. TCA produced marked accumulations of lipofuscin in the liver. Lipofuscin accumulation was less marked with DCA. These data confirm earlier observations that DCA and TCA are capable of inducing hepatic tumors in B6C3F1 mice and argue that the mechanisms involved in tumor induction differ substantially between these two similar compounds. Tumorigenesis by DCA may depend largely on stimulation of cell division secondary to hepatotoxic damage. On the other hand, TCA appears to increase lipid peroxidation, suggesting that production of radicals may be responsible for its effects.
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PMID:Liver tumor induction in B6C3F1 mice by dichloroacetate and trichloroacetate. 221 30

Bladder tumors were induced in male F344/NCr rats by administration of N-butyl-N-(4-hydroxybutyl)nitrosamine (BBN) at 500 p.p.m. in their drinking water for 12 weeks. Twenty-one bladder tumors that developed between 25 and 50 weeks after BBN administration was begun were evaluated for immunoreactivity with polyclonal or monoclonal antibodies raised against ras p21, for amplification of ras genes by Southern blotting, and for activating point mutations in ras genes by selective oligonucleotide hybridization of products from polymerase chain reaction (PCR). Increased expression of ras p21 was detected by avidin-biotin immunohistochemistry in 18/21 (85%) of the neoplastic bladder lesions. By Southern analysis, there was no significant amplification of H-ras, K-ras or N-ras in any of the tumors except one that showed a 5-fold amplification of K-ras. Point mutations in ras genes were detected by selective oligonucleotide hybridization of the products of PCR. Of the 21 bladder tumors, three tumors were shown to have mutations in codon 12 (GGA----GAA), six tumors in codon 61 (two CAA----CTA, four CAA----CGA), and one in both codon 12 (GGA----GAA) and codon 61 (CAA----CGA), all in H-ras. Thus 10 of 21 tumors has ras gene mutations in a portion of the tumor cells. The variable pattern of point mutation in H-ras suggests that these mutations may not all be a direct consequence of interaction of BBN metabolites with H-ras. Enhanced expression of ras p21 was always focal and was not necessarily associated with transforming ras mutations. It is therefore suggested that tumorigenesis in BBN-initiated bladder cells might involve H-ras activation as part of a multistep pathway; however, H-ras involvement is not obligatory for tumor development.
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PMID:H-ras activation and ras p21 expression in bladder tumors induced in F344/NCr rats by N-butyl-N-(4-hydroxybutyl)nitrosamine. 226 74

Butyrate has induced differentiation in neoplastic cells grown in vitro, among them being colon cancer cell lines. In vivo, only one major study used sodium butyrate in the drinking water and showed an elevation in 1,2-dimethylhydrazine induced colon cancer in rats. Seeking to show that it was the sodium and not the butyrate which was responsible for the enhancement, we fed tributyrin at a 5% level to mice for 48 weeks. Mice experienced normal growth and development at this dose. Analysis of short chain fatty acids in the feces after 6 months in tributyrin feeding showed a 10-fold increase in butyric acid. However no difference in AOM induced focal areas of dysplasia or colonic tumor incidence was observed between tributyrin fed and control mice. At least two conclusions have been reached by this study, (1) that the dietary use of a sodium salt can contribute to the enhancement of chemically induced colon neoplasia and (2) butyrate may be discounted as providing any major therapeutic benefit against colonic tumorigenesis.
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PMID:Dietary butyrate (tributyrin) does not enhance AOM-induced colon tumorigenesis. 235 22

Liver carcinogenesis was induced in rats by aflatoxin B1 (AFB1) enhanced by a choline-deficient diet. In Experiment 1, the ornithine decarboxylase inhibitor, alpha-difluoromethylornithine (DFMO), was administered by gavage to one group only during AFB1 administration; another group received DFMO during AFB1 administration and for 2 months after carcinogen administration. These two groups were compared to two control groups, one given AFB1 and fed the choline-deficient diet and another fed the deficient diet only. In a second experiment, DFMO was administered at a concentration of 2% in the water for 3 weeks and then at 1% for the remainder of the study. Rats from each group in Experiment 1 were killed at 2, 8, and 10 months after AFB1 administration and the development of tumors was followed by histology; autoradiography of [3H]thymidine incorporation into DNA; enzyme histochemistry; and alpha-fetoprotein determination. The group given DFMO during AFB1 administration was not significantly different from the AFB1-treated control group at 2 and 8 months after AFB1 administration. However, at 10 months following AFB1 and DFMO administration, the [3H]thymidine-labeling index and glucose-6-phosphatase staining were significantly increased. This group had three animals bearing hepatocellular carcinomas as compared to none in the controls. The group given DFMO for 2 months after AFB1 administration had a significantly depressed growth rate 2 months later, but this difference was not apparent after 8 months. After 10 months, there was a significantly increased [3H] thymidine-labeling index and increased volume fraction of gamma-glutamyltranspeptidase in the AFB1-DFMO-treated group as compared to the controls. DFMO appeared to inhibit growth under some conditions, but if administration was discontinued after AFB1 exposure, it appeared to enhance tumorigenesis. In Experiment 2, where a larger dose of AFB1 was used and DFMO was administered in the water from start to finish of the experiment, DFMO inhibited tumor induction and depressed the appearance of markers examined during carcinogenesis. These data indicate that the regimen used for DFMO administration can markedly affect tumor induction.
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PMID:Effects of the irreversible ornithine decarboxylase inhibitor, alpha-difluoromethylornithine, aflatoxin B1, and choline deficiency on hepatocarcinogenesis. 241 77

Epidemiological studies in different areas in China have revealed several outstanding risk factors of PLC, i.e., HBV infection, pollution of drinking water, contamination of food by AFB1 and/or nitrosamines, and family predisposition. Accordingly, a program of HBV vaccination, improved supply of drinking water, better preservation and storage of food, and possibly chemoprevention for high-risk populations should be effective preventive measures. Studies have shown that frequent AFP screening in high-risk populations is highly recommended to detect early cases of PLC. According to research in Qidong, careful follow-up of the dynamic changes of AFP in individuals with persistent low levels of positive AFP is important for distinguishing other conditions from true PLC. Newer means for the localization of small-size PLC (under 5 cm), such as type B ultrasonography, nuclide scanning, computerized tomography, and hepatoangiography, represent remarkable progress in improving markedly the success of surgery and hence the survival rate of PLC patients. The advances in knowledge of PLC have been encouraging. Although much work remains to be done on the etiological agents and the mechanism of oncogenesis, it is time that larger scale control measures be put into effect in high-incidence areas to discover if one of the most common cancers in the world can be controlled.
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PMID:Epidemiology and early diagnosis of primary liver cancer in China. 243 Apr 32


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