Jacquelene M. Fysh scite author profile

2,3,7,8-Tetrachlorodibenzo-p-dioxin (TCDD) is metabolized by the mouse liver cytochrome P-450-mediated monooxygenase system to reactive intermediates which bind ‘cova-lently’ to cellular macromolecules. Although very difficult to quantitate, the presumably covalent binding to microsomal protein occurs between 120 and 2,640 times more readily than binding to deproteinized DNA in the in vitro reaction. Because of the extremely high rate of binding to protein rather than to DNA, it is visualized that TCDD metabolites may be so reactive that they bind in or near the P-450-active site where the TCDD is monooxygenated. This extreme reactivity may preclude the formation of detectable quantities of phenols, dihydrodiols, or conjugated products. The rate of TCDD metabolism is estimated to be between 9,000 and 36,000 times lower than the rate of P-450-mediated benzo[a]pyrene metabolism. To our knowledge, this is the first demonstration that TCDD is metabolized in any organism. There remains the possibility, however unlikely, that this covalently-bound radioactivity represents metabolites of contaminants -present in the radiolabeled TCDD sample in very minute amounts – rather than metabolites of tritiated TCDD itself. The possible relationship between P450-mediated metabolism of this environmental contaminant and its extreme toxicity or teratogenicity is discussed.

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Ascorbic acid inhibits covalent binding of enzymatically generated 2-acetyl-aminofluorene-N-sulfate to DNA under conditions in which it increases mutagenesis in salmonella TA-1538

Andrews

Fysh

Hinson

et al. 1979

Life Sciences

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Jacquelene M. Fysh

Evidence that arylhydroxamic acid N,O-acyltransferase and the genetically polymorphic N-acetyltransferase are properties of the same enzyme in rabbit liver.

Aryl hydrocarbon (benzo[a]pyrene) hydroxylase development in rat mammary tissue

2,3,7,8-Tetrachlorodibenzo-<i>p</i>-Dioxin: Covalent Binding of Reactive Metabolic Intermediates Principally to Protein <i>in vitro</i>

Ascorbic acid inhibits covalent binding of enzymatically generated 2-acetyl-aminofluorene-N-sulfate to DNA under conditions in which it increases mutagenesis in salmonella TA-1538

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