Richard W. Decker scite author profile

Richard W. Decker

5Publications

63Citation Statements Received

64Citation Statements Given

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University of Minnesota, Hamilton College, United States Department of Veterans Affairs

Publications

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Reductions of Nitro and 9-Oxo Groups of Environmental Nitrofluorenes by the Rat Mammary Gland in Vitro

Ritter

Decker

Malejka-Giganti

2000

Chem. Res. Toxicol.

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Nitrofluorenes and C-9-oxidized nitrofluorenes are widespread environmental genotoxins which may be relevant for breast cancer on the basis of their carcinogenicities, particularly of 2, 7-dinitrofluorene (2,7-diNF), for the rat mammary gland. Since their metabolism to active carcinogens may involve nitroreduction, this study examined the reduction of 2-nitrofluorene (2-NF) and 2,7-diNF and their 9-oxo- and 9-hydroxy (OH) derivatives by the rat mammary gland. Cytosolic fractions catalyze NADH- and NADPH-dependent reductions of the 2-nitro and 9-oxo to the respective 2-amino and 9-OH compounds at rates 4- and >/=10-fold greater than those with microsomes. Rates of amine formation catalyzed by cytosol from 2, 7-diNF are greater than the rate from 2-NF and increase for C-9-oxidized derivatives: 9-oxo-2-NF > 9-OH-2-NF > 2-NF and 9-OH-2, 7-diNF >> 9-oxo-2,7-diNF > 2,7-diNF. Nitroreduction is inhibited by O(2) or allopurinol (20 microM), dicoumarol (100 microM), and rutin (50 microM). 9-Oxoreduction is inhibited by rutin, dicoumarol, and indomethacin (100 microM), but not by O(2) or allopurinol. Pyrazole or menadione does not inhibit nitro or 9-oxoreduction. Xanthine, hypoxanthine, 2-hydroxypyrimidine, and N'-methylnicotinamide support cytosol-catalyzed nitro, but not 9-oxo, reduction. The data suggest that the nitroreduction is catalyzed largely by a xanthine oxidase and partially by a diaphorase and 9-oxoreduction by a carbonyl reductase. The extents of the nitro and carbonyl reductions of the nitrofluorenes may determine their reactivities with DNA, and thus genotoxicities for the mammary gland.

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Computing the genus of the 2-amalgamations of graphs

1985

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Suppression of mammary gland carcinogenesis by post-initiation treatment of rats with tamoxifen or indole-3-carbinol or their combination

Malejka-Giganti¹,

Parkin

Bennett

et al. 2007

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This study examined whether suppression of mammary gland carcinogenesis elicited by low doses of tamoxifen (TAM) can be enhanced by concomitant treatment of rats with indole-3-carbinol (I3C), a component of cruciferous vegetables and a dietary supplement used for its putative antiestrogenicity. Two weeks after one oral dose of 7,12-dimethylbenz[a]anthracene (DMBA) at 65 mg/kg body weight, female Sprague-Dawley rats started treatment with TAM (10 microg/rat) by subcutaneous injection, I3C (250 mg/kg body weight) by oral gavage, TAM+I3C or their respective vehicles three times per week, for up to 20 weeks. Significant increases in the median latency of malignant mammary tumors and decreases in the mean tumor mass per rat were due to TAM. Significant decreases in the mean tumor number per rat in TAM, I3C and TAM+I3C-treated rats indicated a cooperative effect of the two compounds. In both DMBA-initiated and uninitiated rats, significant increases in the ratios of liver to body weight in I3C and TAM+I3C-treated groups coincided with I3C-dependent increases of hepatic cytochrome P450 levels and activities (1A1, 1A2 and 2B1/2). The ratios of uterus to body weight decreased with the number of treatments and the decreases effected by TAM were greater than those by I3C. The levels of circulating estrone were increased in response to I3C treatment and were greater in DMBA-initiated rats than in uninitiated rats, which may contribute to the preventive effect of I3C. Chemoprevention may be accomplished through up-regulation of apoptotic enzyme (caspase) activities in the mammary gland or mammary tumors. Treatment with TAM, I3C or TAM+I3C had no effect on caspase-3&7, caspase-6, caspase-8 and caspase-9 activities in the mammary tumors or mammary gland of tumor-bearing rats or that of uninitiated rats. In the mammary gland of DMBA-initiated tumor-free rats, however, I3C treatment increased the levels of caspase-3&7 and caspase-9 activities, suggesting an I3C-mediated protective effect. Even though I3C alone is a much less effective suppressing agent of mammary carcinogenesis than TAM, I3C in combination with TAM does not weaken but may foster the benefits of chemoprevention with TAM.

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The genus of the 2‐amalgamations of graphs

Decker

Glover

Huneke

1981

Journal of Graph Theory

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A graph G is called the 2‐amalgamation of subgraphs G1 and G2 if G = G1 ∪ G2 and G1 ∩ G2 = {x, y}, 2 distinct points. in this case we write G = G1∪{x, y} G2. in this paper we show that the orientable genus, γ(G), satisfies the inequalities γ(G1) + γ(G2) − 1 ≤ γ(G1 ∪{x, y} G2) ≤ γ(G1) + γ(G2) + 1 and that this is the best possible result, i. e., the resulting three values for γ(G1 ∪{x, y} G2) which are possible can actually be realized by appropriate choices for G1 and G2.

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Microsomal metabolism of the carcinogen, N-2-fluorenylacetamide, by the mammary gland and liver of female rats. I. Ring- and N-hydroxylations of N-2-fluorenylacetamide

et al. 1985

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We determined ring- and N-hydroxylations of a systemic mammary gland carcinogen, N-2-fluorenylacetamide (2-FAA), by microsomal fractions of liver and mammary gland of female rats and the effects of in vivo and/or in vitro modifiers of these oxidations. Pretreatment of lactating rats with 3-methylcholanthrene (3-MC) or beta-naphthoflavone (beta-NF) and non-lactating (50-day old virgin) rats with beta-NF showed similar effects in that the formation of 3-, 5-, 7-, 9- and N-hydroxy-2-FAA by hepatic microsomes was increased manyfold and the formation of 1-hydroxy-2-FAA was induced. In mammary gland microsomes, the formation of 3-, 5- and 7-hydroxy-2-FAA was likewise increased, but of 9-hydroxy-2-FAA was unaffected. Only mammary microsomes of lactating rats had capacity for N-hydroxylation which was increased approximately 3 times by pretreatment of rats with 3-MC or beta-NF. All of the induced increases of metabolites of 2-FAA in hepatic and mammary microsomes were inhibited by 0.1 mM alpha-naphthoflavone (alpha-NF) in vitro. Pretreatment of non-lactating rats with phenobarbital increased only the formation of 7-hydroxy-2-FAA in hepatic microsomes which was further stimulated by alpha-NF in vitro. The latter also stimulated the formation of 7- and 9- hydroxy-2-FAA by hepatic microsomes of the uninduced rats, but had no effects in mammary microsomes, in which 9-hydroxy-2-FAA was a major metabolite. Hence, the data showed qualitative and quantitative differences between lactating and non-lactating rats in metabolism of 2-FAA by mammary microsomes which may result from differences in the levels (e.g., of cytochrome P-450) and activities of microsomal enzymes determined herein. In hepatic microsomes of these rats, differences in quantities of metabolites of 2-FAA (3-, 7-, 9- and N-hydroxy-2-FAA) were found in corn oil-treated rats only. The solvent (methanol or acetone) used for addition of 2-FAA to the incubation mixtures altered quantitatively the metabolite profiles in hepatic and mammary microsomes of 3-MC or beta-NF treated rats. The formations of 1- and 3- or 5- and 7-hydroxy-2-FAA were greater in the presence of acetone or methanol, respectively. The results of this study suggest that the formation of phenolic and N-hydroxy metabolites of 2-FAA in both hepatic and mammary microsomes of lactating rats is catalyzed by similar form(s) of cytochrome P-450 induced by pretreatment with 3-MC or beta-NF.(ABSTRACT TRUNCATED AT 400 WORDS)

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Richard W. Decker

Reductions of Nitro and 9-Oxo Groups of Environmental Nitrofluorenes by the Rat Mammary Gland in Vitro

Computing the genus of the 2-amalgamations of graphs

Suppression of mammary gland carcinogenesis by post-initiation treatment of rats with tamoxifen or indole-3-carbinol or their combination

The genus of the 2‐amalgamations of graphs

Microsomal metabolism of the carcinogen, N-2-fluorenylacetamide, by the mammary gland and liver of female rats. I. Ring- and N-hydroxylations of N-2-fluorenylacetamide

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