Anne Constable scite author profile

The dietary mutagens 2-amino-3,8-dimethylimidazo[4,5-f]quinoxaline (MeIQx) and 2-amino-1-methyl-6-phenylimidazo[4,5-b]pyridine (PhIP) are activated to genotoxins by rat and human liver cytochrome P450 (P450) 1A1- and 1A2-mediated N-oxidation. Immunoquantitation of 51 human liver samples revealed a wide range in P450 1A2 expression (10-250 pmol/mg of microsomal protein, median 71 pmol/mg), with 39% of the livers containing >100 pmol/mg of protein. There was no evidence for expression of P450 1A1 (<1 pmol/mg of protein). P450 1A2 levels were correlated to MeIQx and PhIP N-oxidation rates (r = 0.83, 0.73, respectively). In male Fischer-344 and Sprague-Dawley rats, hepatic P450 1A2 ranged from 5 to 35 pmol/mg of protein, while P450 1A1 was <1 pmol/mg. Animal pretreatment with 3-methylcholanthrene, beta-naphthoflavone, or polychlorinated biphenyls (PCB) resulted inasmuch as 340-fold and >1000-fold induction of P450 1A2 and 1A1, respectively, and a 220-fold increase in N-oxidation activity. Approximately 20% of the human samples were as active in N-oxidation and conversion of MeIQx to bacterial mutagens as microsomes of PCB-pretreated rats [3-4 nmol of NHOH-MeIQx formed min-1 (mg of protein)-1]. In contrast, microsomes from PCB-treated rats displayed higher rates of PhIP N-oxidation and activation to mutagens than the most active human liver microsomes [8-24 vs 2-4 nmol of HNOH-PhIP formed min-1 (mg of protein)-1]. Recombinant human P450 1A2 showed catalytic efficiencies of MeIQx and PhIP N-oxidation that were 10-19-fold higher than purified rat P450 1A2. Cytochrome P450 1A2 expression in rodent and human liver tissue varies greatly and there are considerable differences between the enzymes in the two species in the activation of some heterocyclic aromatic amines, which must be considered when assessing human health risk.

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Identification of a novel iron-responsive element in murine and human erythroid delta-aminolevulinic acid synthase mRNA.

Dandekar¹,

Stripecke²,

Gray³

et al. 1991

The EMBO Journal

340

181

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Iron‐responsive elements (IREs) are regulatory RNA elements which are characterized by a phylogenetically defined sequence‐structure motif. Their biological function is to provide a specific binding site for the IRE‐binding protein (IRE‐BP). Iron starvation of cells induces high affinity binding of the cytoplasmic IRE‐BP to an IRE which has at least two different known biological consequences, repression of ferritin mRNA translation and stabilization of the transferrin receptor transcript. We report the identification of a novel, evolutionarily conserved IRE motif in the 5′ UTR of murine and human erythroid‐specific delta‐aminolevulinic acid synthase (eALAS) mRNA which encodes the first, and possibly rate limiting, enzyme of the heme biosynthetic pathway. We demonstrate the function of the eALAS IRE as a specific binding site for the IRE‐BP by gel retardation analyses and by in vitro translation experiments. In addition, we show that the 5′ UTR of eALAS mRNA is sufficient to mediate iron‐dependent translational regulation in vivo. These findings strongly suggest involvement of the IRE‐IRE‐BP system in the control of heme biosynthesis during erythroid differentiation.

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Anne Constable

Unintended effects and their detection in genetically modified crops

Cafestol and kahweol, two coffee specific diterpenes with anticarcinogenic activity

Activation of Heterocyclic Aromatic Amines by Rat and Human Liver Microsomes and by Purified Rat and Human Cytochrome P450 1A2

Identification of a novel iron-responsive element in murine and human erythroid delta-aminolevulinic acid synthase mRNA.

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