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The effect of cancerogenic azo dye Sudan I on expression of biotransformation enzymes
Hejduková, Žaneta ; Svášková, Dagmar (advisor) ; Dračínská, Helena (referee)
Sudan I is a widely used azo dye which has the ability to cause carcinomas in organs and tissues of experimental animals. During reactions catalyzed by microsomal monooxygenase enzyme systems or cytoplasmic biotransformation enzymes, Sudan I is oxidized to reactive metabolites that covalently bind to nucleic acids and cause their damage. Sudan I can also be metabolized by reduction, e. g. by a DT-diaphorase enzyme (NQO1). Reduction of Sudan I is considered to be a detoxification reaction. In this work, the in vivo action of Sudan I is examined in terms of its ability to induce an expression of the biotransformation enzyme DT-diaphorase in tissues of rats treated with the azo dye. The aim of this work was to quantify the degree of NQO1 induction at mRNA level. After the isolation of total RNA from organs of rats treated with Sudan I, the RNA was converted to cDNA by reverse transcription using random hexamers as primers. Using specific probes, the abundance of mRNA for the enzyme NQO1 in the organs of treated rats was quantified by "real-time" PCR, relatively to the control gene with a constant expression (β-actin). Through comparing thus determined amounts of mRNA in individual organs of treated and untreated rats, it has been found that Sudan I had caused a significant increase in the expression...
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Plant alkaloids and their effects on enzymes metabolizing xenobiotics
Višněvská, Kateřina ; Stiborová, Marie (advisor) ; Černá, Věra (referee)
Sanguinarine and chelerythrine are quaternary benzo[c]phenanthridine alkaloids. The first step in sanguinarine metabolism is its reduction to dihydrosanguinarin. Antimicrobial and anti-inflammatory activities of these alkaloids are used in dentistry and as feed additives. Sanguinarine and chelerythrine induce apoptosis of cells. Fluorescence of these alkaloids and intercalation into DNA could be utilized to use the alkaloids as supravital DNA probe. Negative effect of sanguinarine and chelerythrine is their genotoxicity. Cytochrome P450 and peroxidase oxidize ellipticine to detoxication and activation metabolites. Ellipticine is a potent antineoplastic agent exhibiting the multimodal mechanism of its action. Ellipticine intercalates into DNA and inhibits topoisomerase II. Covalent DNA aducts are mediated by CYP or peroxidase oxidation of ellipticine. The anti-tumor activity of ellipticine and its derivatives is caused by a combination mechanism of cell cycle arrest and induction of the apoptotic pathway. Pharmacological efficiencies and geneotoxic side effects of ellipticine is dependent on levels and activities of cytochrome P450 or peroxidase in target tissues. Aristolactams are the major metabolites of biotransformation of aristolochic acid. Nitroreduction is the crucial step in formation of an...
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The effect of cancerogenic azo dye Sudan I on expression of biotransformation enzymes
Hejduková, Žaneta ; Dračínská, Helena (referee) ; Svášková, Dagmar (advisor)
Sudan I is a widely used azo dye which has the ability to cause carcinomas in organs and tissues of experimental animals. During reactions catalyzed by microsomal monooxygenase enzyme systems or cytoplasmic biotransformation enzymes, Sudan I is oxidized to reactive metabolites that covalently bind to nucleic acids and cause their damage. Sudan I can also be metabolized by reduction, e. g. by a DT-diaphorase enzyme (NQO1). Reduction of Sudan I is considered to be a detoxification reaction. In this work, the in vivo action of Sudan I is examined in terms of its ability to induce an expression of the biotransformation enzyme DT-diaphorase in tissues of rats treated with the azo dye. The aim of this work was to quantify the degree of NQO1 induction at mRNA level. After the isolation of total RNA from organs of rats treated with Sudan I, the RNA was converted to cDNA by reverse transcription using random hexamers as primers. Using specific probes, the abundance of mRNA for the enzyme NQO1 in the organs of treated rats was quantified by "real-time" PCR, relatively to the control gene with a constant expression (β-actin). Through comparing thus determined amounts of mRNA in individual organs of treated and untreated rats, it has been found that Sudan I had caused a significant increase in the expression...
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