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

In addition to differences in needs for dietary quality and quantity, humans, as individuals and as subsets of the population, are exposed to variations in climate, stress, environmental contaminants and other confounding factors which likely impinge on susceptibility to cancer. Despite the complexity of lifestyles and dietary habits, it is impressive to review available data on the relation of nutrients to cancer. There is sufficient parallelism between controlled animal studies and human behavior that we are compelled to believe that a variety of essential nutrients can modify carcinogenesis in humans and in lower animals. The micronutrients which appear to meet criteria for classifying them as protective agents in animal models include vitamin A and some of the synthetic retinoids; beta carotene; folic acid; vitamin C; choline/methionine; zinc, and selenium. Some of the others have suggestive effects but in the view of this author, the data are often equivocal, inadequate, or conflicting. These observations clearly support the proposal that animal studies have made enormous contributions in the past 15-20 years to our understanding of carcinogenesis and that this will continue into the future. From the data now available we can state with confidence that animal studies have shown that nutrients can modify the carcinogenesis process at specific sites and through a variety of mechanisms. These include effects on the formation of carcinogens from precursors; effects on metabolism of the carcinogen; effects on one or more stages of initiation, promotion, and progression; host defense mechanisms; cellular differentiation and on growth and metastasis of the tumor. The tools of the molecular biology, just now emerging in the field of nutrition, should have an immense impact on determining more accurately where nutrients exert their effects, how this is accomplished, and to suggest appropriate prevention and intervention techniques. Using molecular biology, combined with traditional and newer methods of toxicology and pathology, we should be able within a few years to better understand carcinogenesis and with such knowledge in hand to make sound recommendations about dietary habits to the public.
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PMID:Roles of micronutrients in cancer prevention: recent evidence from the laboratory. 219 21

Horseradish peroxidase in the presence of hydrogen peroxide has the ability to mediate the activation of carcinogenic 1-phenylazo-2-hydroxynaphthalene (Sudan I) to DNA- and transfer RNA (tRNA)-bound products in vitro. tRNA is more accessible for modification by the activated carcinogen studied. tRNA modified by activated Sudan I becomes colored and has an absorption maximum of approximately 480 nm. Binding of metabolite(s) to tRNA is inhibited by ascorbate, glutathione, Mg2+ ions and nitrosobenzene. The mechanism of these protections was shown to be different for the different agents. tRNA modified by activated Sudan I exhibits a significantly increased acceptance for L-methionine. Enzymatic hydrolysis of modified tRNA with subsequent separation of nucleosides by HPLC suggests that the covalent modification of tRNA originating from the formation of more than one adduct with the nucleosides in tRNA is the predominant interaction of the activated Sudan I with tRNA.
Carcinogenesis 1990 Oct
PMID:Peroxidase-mediated reaction of the carcinogenic non-aminoazo dye 1-phenylazo-2-hydroxynaphthalene with transfer ribonucleic acid. 220 92

In monitoring exposure of ethylene oxide or its precursor, ethene, by the measurement of hydroxyethylation of N-terminal valines in hemoglobin, sometimes high, deviating adduct levels were developed during storage of the samples. The time dependence indicated that consumption of a protective factor was involved. The studies show that the effect is specific to certain structures such as hydroxyethyl. Possible mechanisms of the effect were studied in simulation experiments. The artefact formation was enhanced by lyophilization of samples, possibly due to formation of free radicals. H2O2 was weakly effective in producing the artefact. In the presence of Cu2+, H2O2 and methionine hydroxyethyl adducts were formed, possibly in association with ethene production. Until an effective protective factor has been identified it is suggested that, prior to preparation for analysis, samples should be stored as precipitated globins at less than or equal to -20 degrees C. Under these conditions the adduct level is stable for years.
Carcinogenesis 1990 Jan
PMID:Formation of reactive species that lead to hemoglobin adducts during storage of blood samples. 229 27

The ability of methyl-deficient, amino-acid-defined diets to produce enzyme-altered foci was quantitatively determined in the livers of rats treated both with and without an initiating dose of diethylnitrosamine (DEN). Male weanling F-344 rats were fed a complete, amino-acid-defined diet for 1 week. They were then injected i.p. with a single dose of DEN (20 mg/kg body weight) and fed the complete diet for an additional week. Forty animals in each dose group were then maintained for 5-38 weeks on the complete diet (diet 1) or one of the three methyl-deficient diets customarily used in this laboratory: diet 2, devoid of methionine and choline; diet 3, devoid of methionine only; and diet 4, devoid of choline only. In diets 2 and 3, methionine was replaced by equimolar amounts of its metabolic precursor, DL-homocystine. Ten animals per group were killed 8, 12, 17, 24 and 41 weeks after DEN initiation. For 2 weeks prior to being killed, each group was maintained on the complete diet to minimize the histological abnormalities due to acute toxicity of the diets. Serial sections of the livers were obtained, stained sequentially for gamma-glutamyltranspeptidase, ATPase and glucose-6-phosphatase, and the quantitation of the focal lesions scored by these markers was carried out by quantitative stereology. The results indicated that, regardless of the enzyme marker(s) examined, there was a general correspondence between the volume and number of altered hepatic foci (AHF) formed and the previously described tumor-promoting activities of each diet. Thus, while all DEN-treated groups contained significant numbers of AHF 24 weeks after initiation, only the diet-2-fed animals displayed such foci at 8 weeks. Similarly, among the uninitiated rats, only those fed diet 2 exhibited the presence of AHF throughout the experimental period. Interestingly, the livers of uninitiated, choline-deficient rats showed a small number of AHF at 24 and 42 weeks; these foci were not observed at all in the corresponding DEN-untreated animals fed diet 3, deficient in methionine only. The results provide evidence that the carcinogenic effects of the methionine- and choline-deficient diet result more from its strongly promoting effect than from any initiating activity by the diet.
Carcinogenesis 1990 Feb
PMID:The effect of choline and methionine deficiencies on the number and volume percentage of altered hepatic foci in the presence or absence of diethylnitrosamine initiation in rat liver. 230 54

Female mice of the AKR/J (AK) strain were fed a control diet (Purina Rodent Laboratory Chow) or a lipotrope-supplemented diet (Purina Rodent Chow plus 2% D,L-methionine and 1% choline chloride) beginning at 1 day after weaning. Food consumption and weight gain were found to be the same in both groups of animals. Mice of this inbred strain spontaneously develop thymic lymphoma, with close to 100% mortality expected by 12-13 months of age. Two separate experiments were carried out with 50 mice per group in one, and 40 mice per group in the other. The slopes of the survival curves for the animals in the control group and supplemented group of mice diverged after the animals reached 6.5 months of age. In both experiments, 20% of the mice receiving supplemented diet were still alive at 1 year, while 3% in one experiment and 8% in the other experiment survived in the control groups. Each experiment was terminated when the animals reached 13 months of age. At that time the survival rate of the controls was 2 and 4%, and survival in the groups of mice receiving supplemented diet was 14 and 18%. Necropsy revealed that the animals in both groups had advanced malignant lymphoma. Our results demonstrate that intake of a chow diet that is supplemented with moderate quantities of methionine and choline results in enhanced survival of spontaneously leukemic AK mice, in comparison with animals of this strain fed the same diet without supplements of choline and methionine.
Carcinogenesis 1990 Mar
PMID:Prolonged survival of female AKR mice fed diets supplemented with methionine and choline. 231 Nov 78

The ability of the dietary methyl donors methionine and choline to inhibit the carcinogenic and tumor-promoting effects of phenobarbital (PB) in the livers of male weanling C3H mice was examined. The mice were fed a commercial rodent diet with or without 0.05% PB. Thirty animals from each set received the diet with either: (1) no dietary supplementation, (2) an additional 1.0% choline chloride, (3) 1.5% DL-methionine or (4) both 1.5% DL-methionine and 1.0% choline chloride. Additional groups of 30 animals with the same eight dietary and PB-treatment regimens described above were given a single initiating dose of 150 mg diethylnitrosamine (DENA)/kg body wt dissolved in saline, or the saline solution only, 1 week prior to the start of PB feeding. The 16 treatment groups were fed their respective diets for 12 months. Statistical trend analysis showed that increasing levels of supplemental methyl donors gave highly significant protection in PB-treated mice (P less than 0.01). The incidence of liver carcinomas in the four dietary groups not receiving PB or DENA varied from 0 to 7%. The PB-treated animals not receiving an initiating dose of DENA developed hepatocellular carcinomas (HCCs) at incidences of 79% in group 1 animals, 74% in group 2 animals, 60% in group 3 animals, and 31% in group 2 animals respectively. Thus, incidence of HCCs in group 4 was significantly lower than in groups 1, 2 or 3 (P less than 0.01). However, the total incidence of liver tumors (adenomas plus carcinomas) was about the same in all DENA or PB-treated groups. Thus, dietary supplementation with methyl donors increased the proportion of animals bearing liver adenomas as their most advanced hepatic lesion in PB-treated mice. In DENA-treated mice fed PB, dietary supplementation with methionine and choline protected against the formation of liver carcinomas (P less than 0.02); however, methionine and choline had no significant effect on liver tumor formation in mice fed the PB-free diets. Methionine and choline supplementation gave significant protection against HCC metastases in the lungs of the tumor-bearing mice in groups initiated with DENA followed by PB promotion. These results support the hypothesis that PB exerts it tumorigenic activity in mice at least in part through a physiological insufficiency of labile methyl groups.
Carcinogenesis 1990 Aug
PMID:The inhibition by methionine and choline of liver carcinoma formation in male C3H mice dosed with diethylnitrosamine and fed phenobarbital. 238 15

Procarbazine hydrochloride (PCZ), a chemotherapeutic agent used extensively to treat Hodgkins disease and other tumors, induces leukemia, lymphoma, mammary gland and other solid tumors in rodents and non-human primates and is strongly implicated as a leukemogen in humans. Lipotrope (choline and methionine) deficiency is a powerful potentiator of chemical carcinogenesis in liver and, under some conditions, in other tissues in rodents. Methotrexate (MTX), another commonly used chemotherapeutic agent, interferes with one-carbon metabolism and limits availability of lipotropes. Studies of PCZ carcinogenesis in lipotrope-deficient or MTX-treated male rats are reported, showing that both deficiency and MTX increased PCZ carcinogenicity in the mammary gland. In addition, PCZ was found to induce abnormalities of hepatic choline metabolism. Weanling male Sprague-Dawley rats were fed control (C) or lipotrope-deficient (D) diet. After 3 weeks, C and D rats were given PCZ, MTX, the two drugs together or 0.9% saline by i.p. injection. Doses were 0.2 or 0.5 mg MTX/kg or 25 mg PCZ/kg, given 2 or 3 days per week for 5 or 14 weeks. After 5 weeks of drug treatment livers were assayed for choline, phosphatidylcholine, phosphocholine (PCho), glycerophosphocholine and betaine. PCZ perturbed choline metabolism, increasing hepatic choline and PCho in deficient or MTX-treated rats and, to a smaller extent, in rats fed control diet. MTX markedly enhanced the effect of PCZ on choline metabolism. PCZ-induced mammary tumor incidence was increased 50-70% by lipotrope deficiency or by MTX. In PCZ-treated rats, cumulative probability of bearing a mammary tumor was significantly increased by lipotrope deficiency (P = 0.05), and was increased similarly but not significantly by MTX (P = 0.1). Cumulative tumor numbers per group in PCZ-treated rats were significantly greater in both deficient and MTX-treated rats compared to rats fed control diet (P less than 0.005). Incidences of leukemia, lymphoma and Zymbal's gland tumors induced by PCZ were not significantly altered by diet or MTX.
Carcinogenesis 1990 Sep
PMID:Procarbazine carcinogenicity in methotrexate-treated or lipotrope-deficient male rats. 240 Oct 40

Rat hepatic aryl sulfotransferase IV catalyzes the sulfonation of the hepatocarcinogen, N-hydroxy-2-acetylaminofluorene. The resulting reactive N-O-sulfate ester is believed to be the ultimate carcinogenic species responsible for the induction of hepatic neoplasia. Previous studies have shown that dietary administration of either 2-acetylaminofluorene or N-hydroxy-2-acetylaminofluorene to rats is accompanied by a rapid decline in hepatic aryl sulfotransferase activity in vivo. In the present study, preincubation of purified rat hepatic aryl sulfotransferase IV with N-hydroxy-2-acetylaminofluorene resulted in rapid, time-dependent enzyme inactivation. This in vitro inactivation was not reversed by dialysis or gel filtration. Inclusion of excess nucleophile, methionine, resulted in considerable but not complete protection from inactivation. The inactivation was PAPS dependent and blocked by the sulfotransferase inhibitor, pentachlorophenol. The above observations and the apparent pseudo first-order kinetics observed suggest that the inactivation was in part mechanism based. Mechanism-based inactivation of the aryl sulfotransferases has not been previously reported. Furthermore, the results of the present study indicate that the previously reported in vivo decline in rat hepatic aryl sulfotransferase activity may be attributable in part to enzyme inactivation by its own reactive product.
Carcinogenesis 1990 Sep
PMID:Self-catalyzed irreversible inactivation of rat hepatic aryl sulfotransferase IV by N-hydroxy-2-acetylaminofluorene. 240 Oct 45

DNA in mammalian cells is enzymatically methylated at the 5-position of cytosine via S-adenosylmethionine and DNA methyltransferase. Several chemical carcinogens have been shown to inhibit this reaction, altering DNA methylation. We have been studying the mechanism by which carcinogens alter the methylation of DNA in order to better understand the cellular regulation of DNA methylase activity and to understand the role, if any, of DNA methylation in the carcinogenic process. We have utilized an in vitro assay for DNA methylase isolated from purified rat-liver nuclei. Ethionine, a liver carcinogen, given to rats 17 hr after partial hepatectomy inhibited the incorporation of [methyl-3H]-methionine into 5-methylcytosine residues of DNA. DNA isolated from these ethionine-treated rats was able to accept methyl groups from S-adenosylmethionine 8 times more than control DNA. It was further demonstrated that S-adenosylethionine competitively inhibited the DNA methylase resulting in hypomethylated DNA. N-Methyl-N-nitro-N-nitrosoguanidine reacted with the DNA methylase at the sulfhydryl sites inactivating the enzyme. Methylnitrosourea did not react directly with the methylase enzyme, but when reacted with DNA, the DNA methylase activity was inhibited by the carcinogen alkylated DNA. Sodium selenite also inhibited the enzyme non-competitively with a Ki of 6.7 microM. 5-Azacytidine prevented the 2 to 3 fold increase in DNA methylase seen 2 days following partial hepatectomy. All of these data with various carcinogens, altering DNA methylation by different mechanisms, support the hypothesis that DNA methylation plays a role in the initiation of carcinogenesis.
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PMID:Studies on DNA methyltransferase and alteration of the enzyme activity by chemical carcinogens. 243 29

The J1 glycoproteins have been shown to mediate neuron-astrocyte adhesion and appear in the nervous system as four species of Mr 160,000 (J1-160), 180,000 (J1-180), 200,000 (J1-200), and 220,000 (J1-220), respectively. Tenascin is a disulfide-linked oligomeric, extracellular matrix glycoprotein of subunit Mr 170,000, 190,000, 200,000, and 220,000, which has been proposed to promote epithelial cell proliferation. In view of the structural similarities of the molecules we have used immunohistochemical and immunochemical techniques to compare them. Immunohistochemically, polyclonal J1 and tenascin antibodies yielded identical staining patterns in non-nervous-system tissues, and staining could be completely blocked by preincubating the sera with purified tenascin. In the central nervous system all structures expressing tenascin immunoreactivity were also recognized by J1 antibodies. However, not all J1-positive structures were also tenascin-positive, indicating that J1 antibodies recognized additional epitopes not present on tenascin. Western-blot experiments performed with affinity-purified polyclonal J1 antibodies showed that J1 glycoproteins can be subdivided into two separate pairs, J1-160/180 and J1-200/220, which share a small degree of homology. Western-blot experiments and sequential immunoprecipitations on biosynthetically [35S]methionine- or 125I-radiolabeled J1 glycoproteins carried out with polyclonal J1 and tenascin antibodies demonstrated that J1-200/220 is immunochemically indistinguishable from tenascin. These observations suggest that one set of extracellular glycoproteins is associated with processes as different as neural histogenesis and carcinogenesis of mammary glands.
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PMID:The high-molecular-weight J1 glycoproteins are immunochemically related to tenascin. 245 37


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