Ock Soon Sohn scite author profile

The ICF syndrome (i̲mmunodeficiency, c̲entromeric region instability, f̲acial anomalies) is a unique DNA methylation deficiency disease diagnosed by an extraordinary collection of chromosomal anomalies specifically in the vicinity of the centromeres of chromosomes 1 and 16 (Chr1 and Chr16) in mitogen-stimulated lymphocytes. These aberrations include decondensation of centromere-adjacent (qh) heterochromatin, multiradial chromosomes with up to 12 arms, and whole-arm deletions. We demonstrate that lymphoblastoid cell lines from two ICF patients exhibit these Chr1 and Chr16 anomalies in 61% of the cells and continuously generate 1qh or 16qh breaks. No other consistent chromosomal abnormality was seen except for various telomeric associations, which had not been previously noted in ICF cells. Surprisingly, multiradials composed of arms of both Chr1 and Chr16 were favored over homologous associations and cells containing multiradials with 3 or >4 arms almost always displayed losses or gains of Chr1 or Chr16 arms from the metaphase. Our results suggest that decondensation of 1qh and 16qh often leads to unresolved Holliday junctions, chromosome breakage, arm missegregation, and the formation of multiradials that may yield more stable chromosomal abnormalities, such as translocations. These cell lines maintained the abnormal hypomethylation in 1qh and 16qh seen in ICF tissues. The ICF-specific hypomethylation occurs in only a small percentage of the genome, e.g., ICF brain DNA had 7% less 5-methylcytosine than normal brain DNA. The ICF lymphoblastoid cell lines, therefore, retain not only the ICF-specific pattern of chromosome rearrangements, but also of targeted DNA hypomethylation. This hypomethylation of heterochromatic DNA sequences is seen in many cancers and may predispose to chromosome rearrangements in cancer as well as in ICF.

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Hypomethylation and hypermethylation of DNA in Wilms tumors

Ehrlich

et al. 2002

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We quantitatively analysed hypermethylation at CpG islands in the 5' ends of 12 genes and one non-CpG island 5' region (MTHFR) in 31 Wilms tumors. We also determined their global genomic 5-methylcytosine content. Compared with various normal postnatal tissues, *40 -90% of these pediatric kidney cancers were hypermethylated in four of the genes, MCJ, RASSF1A, TNFRSF12 and CALCA as determined by a quantitative bisulfite-based assay (MethyLight). Interestingly, the non-CpG island 5' region of MTHFR was less methylated in most tumors relative to the normal tissues. By chromatographic analysis of DNA digested to deoxynucleosides, about 60% of the Wilms tumors were found to be deficient in their overall levels of DNA methylation. We also analysed expression of the three known functional DNA methyltransferase genes. No relationship was observed between global genomic 5-methylcytosine levels and relative amounts of RNA for DNA methyltransferases DNMT1, DNMT3A, and DNMT3B. Importantly, no association was seen between CpG island hypermethylation and global DNA hypomethylation in these cancers. Therefore, the overall genomic hypomethylation frequently observed in cancers is probably not just a response or a prelude to hypermethylation elsewhere in the genome. This suggests that the DNA hypomethylation contributes independently to oncogenesis or tumor progression.

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Effects of green and black tea on hepatic xenobiotic metabolizing systems in the male F344 rat

Sohn¹,

Surace²,

Fiala³

et al. 1994

Xenobiotica

132

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1. The induction of phase I and II enzymes in the liver of the male F344 rat drinking 2% (w/v) solutions of green or black tea for 6 weeks was investigated. Also studied were glutathione (GSH) and cyst(e)ine in blood, liver and kidney, as well as serum cholesterol, HDL cholesterol, triglycerides, and total and free testosterone. 2. The total carbon monoxide-discernible liver P450, b5 and NADPH-cytochrome c(P450) reductase activities were similar in all groups. 3. There were significant increases in liver of rat drinking green or black tea of P4501A1, 1A2 and 2B1 activities, but no change in P4502E1 and 3A4 activities. Of the phase II enzymes, UDP-glucuronyltransferase was increased, but glutathione S-transferase was not. 4. Serum GSH was higher in the group administered black tea, but GSH and cyst(e)ine in other groups was at control levels. Serum cholesterol was lower in rat given black compared with green tea. Triglycerides had a declining trend after green and black tea exposure compared with water controls. Free and total testosterone were not affected. 5. Thus, beverages widely used by man altered host biochemistry as regards specific phase I and II enzymes in liver of rat and specific serum parameters.

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Metabolism of azoxymethane, methylazoxymethanol and N-nitrosodimethylamine by cytochrome P450IIE1

et al. 1991

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The metabolism of azoxymethane (AOM), methylazoxymethanol (MAM) and N-nitrosodimethylamine (NDMA) by liver microsomes from acetone-induced rats as well as by a reconstituted system containing purified cytochrome P450IIE1 was examined. The products consisted of MAM from AOM; methanol and formic acid from MAM; and methylamine, formaldehyde, methanol, methylphosphate and formic acid from NDMA. Compared to liver microsomes from untreated rats, the metabolic activity of acetone-induced microsomes was approximately 4 times higher for all three carcinogens. Using the reconstituted system, the enzyme activities (nmol substrate metabolized/nmol P450/min) for AOM, MAM and NDMA were 2.88 +/- 1.14, 2.87 +/- 0.59 and 9.47 +/- 2.24 respectively. Incubations carried out in the presence of a monoclonal antibody to cytochrome P450IIE1 resulted in a 85-90% inhibition of all three reactions in this system. These results provide conclusive evidence that AOM, MAM and NDMA are metabolized by the same form of rat liver cytochrome P450. In addition, the stoichiometry of NDMA products formed in these reactions indicates that denitrosation, a presumed detoxication process, and alpha-hydroxylation, an activation reaction, are also catalyzed by the same cytochrome P450 isozyme.

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Chemoprevention of lung tumorigenesis induced by a mixture of benzo( a )pyrene and 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone by the organoselenium compound 1,4-phenylenebis(methylene)selenocyanate

et al. 2000

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Activation of the Liver Carcinogen 2-Nitropropane by Aryl Sulfotransferase

Sodum¹,

Sohn²,

Nie³

et al. 1994

Chem. Res. Toxicol.

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8-Aminoguanine had previously been identified as one of the nucleic acid base modifications produced in livers of rats by treatment with the hepatocarcinogen 2-nitropropane (2-NP), and a hypothetical mechanism of activation of 2-NP to hydroxylamine-O-sulfonate or acetate that would lead to NH2+, an aminating species, was proposed [Sodum et al. (1993) Chem. Res. Toxicol. 6, 269-276]. We now present in vivo and in vitro experimental evidence for the activation of 2-NP to an aminating species by rat liver aryl sulfotransferase. Pretreatment of rats with the aryl sulfotransferase inhibitors pentachlorophenol or 2,6-dichloro-4-nitrophenol significantly decreased the levels of liver nucleic acid modifications produced by 2-NP treatment. Furthermore, partially purified rat liver aryl sulfotransferase was shown to activate 2-NP and 2-NP nitronate in vitro at neutral pH and 37 degrees C, to a reactive species that aminated guanosine at the C8 position. This activation was dependent on the presence of the enzyme, its specific cofactor adenosine 3'-phosphate 5'-phosphosulfate, and mercaptoethanol. As in the case of the in vitro studies, pentachlorophenol and 2,6-dichloro-4-nitrophenol inhibited the in vitro formation of 8-aminoguanosine and 8-oxoguanosine. The corresponding primary nitroalkane, 1-nitropropane, which is not mutagenic and does not appear to be carcinogenic, was not a substrate for aryl sulfotransferase in the in vitro amination of guanosine.

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Induction of preneoplastic lung lesions in guinea pigs by cigarette smoke inhalation and their exacerbation by high dietary levels of vitamins C and E

Fiala

Sohn

Wang

et al. 2005

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The development of effective chemopreventive agents against cigarette smoke-induced lung cancer could be greatly facilitated by the availability of suitable laboratory animal models. Here we report that male Hartley guinea pigs treated with cigarette smoke by inhalation twice a day for 28 days developed preneoplastic lung lesions, including bronchial hyperplasia, dysplasia and squamous metaplasia, analogous to those found in human smokers. The lesions were accompanied by increased expression of proliferating cell nuclear antigen and activation of the serine/threonine kinase Akt in the bronchial epithelium. In contrast, no lung lesions were found in guinea pigs ('sham smoked') that were submitted to identical procedures but without cigarettes. Compared with a diet low in vitamin C (50 p.p.m.) and vitamin E (15 p.p.m.), a diet high in vitamin C (4000 p.p.m.) and vitamin E (40 p.p.m.) significantly increased the incidence of these lesions. The inclusion of 1,4-phenylenebis(methylene)selenocyanate (p-XSC), a synthetic chemopreventive organoselenium compound, in the high vitamin C-high vitamin E diet at a level of 15 p.p.m. as selenium appeared to decrease the lesion incidence. Administration of (-)-epigallocatechin gallate, a powerful green tea polyphenolic antioxidant, at 560 p.p.m. in the drinking water had no effect. As in human smokers, levels of ascorbate in blood plasma, lung, liver and the adrenal glands were significantly decreased by cigarette smoke inhalation. These results identify a relevant in vivo laboratory model of cigarette smoke-induced lung cancer, suggest that p-XSC may have activity as a chemopreventive agent against cigarette smoke-induced lung lesions and provide additional evidence that very high dietary levels of certain antioxidants can have co-carcinogenic activity in cigarette smoke-induced lung cancer.

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Comparative effects of phenylenebis(methylene)selenocyanate isomers on xenobiotic metabolizing enzymes in organs of female CD rats

Sohn¹,

Fiala²,

Upadhyaya³

et al. 1999

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The cancer chemopreventive agent 1,4-phenylenebis(methylene)selenocyanate (p-XSC) inhibits various chemically induced tumors in laboratory animals. We examined the effects of p-XSC and its o- and m-isomers on xenobiotic metabolizing enzymes in vivo. Six-week-old female CD rats were given diets containing o-, m- or p-XSC (5 or 15 p.p.m. as Se), or equimolar amounts (30 or 90 micromol/kg) of 1,4-phenylenebis(methylene)thiocyanate (p-XTC, the sulfur analog of p-XSC) for 1 week. At termination, substrate-specific assays for enzymes of xenobiotic metabolism in various organs were performed. Overall, o-XSC was a more potent enzyme inducer than m- or p-XSC. In hepatic microsomes, o-XSC significantly induced CYP2E1 as detected by increased N-nitrosodimethylamine N-demethylase activity and also by western blot. The activities of CYP1A1 (ethoxyresorufin-O-dealkylase) and CYP1A2 (methoxyresorufin-O-dealkylase) were not affected, but a significant decrease in the activity of CYP2B1 (pentoxyresorufin-O-dealkylase) was observed at the 15 p.p.m. Se level of o-XSC. With the m- and p-XSC isomers or with p-XTC, no significant effect on phase I enzymes was noted. Hepatic UDP-glucuronosyltransferase activities were increased 1.5- to 2-fold by all three XSC isomers at the higher dose level (15 p.p.m. Se), but not by p-XTC; o-XSC again was the most effective. All three XSC isomers were found to increase the alpha, mu and pi isozymes of glutathione S-transferases in the liver, kidney, lung, colon and mammary gland to varying degrees. The XSC isomers also significantly increased glutathione peroxidase in the colon and mammary gland. Although o-XSC was the most powerful in stimulating the enzyme activities, especially in the liver, atomic absorption spectrometry showed that the selenium levels were highest in organs of rats given p-XSC. Thus, the level of tissue distribution of the XSC isomers and/or their metabolite(s) does not correlate with their effects on enzyme activities. The present study demonstrates that individual XSC isomers are capable of modulating specific phase I and/or phase II enzymes involved in the activation and/or detoxification of chemical carcinogens, and provides some mechanistic basis for the cancer chemopreventive efficacy of these organoselenium compounds at the stage of tumor initiation.

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Ock Soon Sohn

DNA hypomethylation and unusual chromosome instability in cell lines fromICF syndrome patients

Hypomethylation and hypermethylation of DNA in Wilms tumors

Effects of green and black tea on hepatic xenobiotic metabolizing systems in the male F344 rat

Metabolism of azoxymethane, methylazoxymethanol and N-nitrosodimethylamine by cytochrome P450IIE1

Chemoprevention of lung tumorigenesis induced by a mixture of benzo( a )pyrene and 4-(methylnitrosamino)-1-(3-pyridyl)-1-butanone by the organoselenium compound 1,4-phenylenebis(methylene)selenocyanate

Activation of the Liver Carcinogen 2-Nitropropane by Aryl Sulfotransferase

Induction of preneoplastic lung lesions in guinea pigs by cigarette smoke inhalation and their exacerbation by high dietary levels of vitamins C and E

Comparative effects of phenylenebis(methylene)selenocyanate isomers on xenobiotic metabolizing enzymes in organs of female CD rats

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