Metabolic activation of carcinogens and toxic chemicals.

D V Parke, C Ioannides, D F Lewis
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引用次数: 24

Abstract

1. The spatial parameters and electronic structures of 100 exogenous and endogenous chemicals have been determined by computer graphics, from which their oxidative metabolism by the cytochrome P-448 (activation) or the other families of cytochromes P-450 (generally detoxication) have been predicted. 2. The spatial parameters of these chemicals primarily determine the family of cytochrome P-450 by which the chemicals are metabolized and the electronic structures primarily determine their ease of oxidative metabolism. 3. The role of oxidative metabolism of xenobiotics by the cytochromes P-448, and their binding to the cytosolic Ah receptor, are considered in relationship to the mechanisms of chemical toxicity, mutagenicity, carcinogenicity, and co-carcinogenicity. 4. The mechanisms of chemical toxicity and carcinogenesis are considered in respect of activation through cytochrome P-448-mediated, conformationally-hindered oxygenation to reactive intermediates which, unlike most cytochrome P-450-oxygenated metabolites, are not acceptable substrates for conjugation and detoxication and therefore react with essential intracellular macromolecules. 5. The computer graphic method of determining the molecular conformations and electronic structures of molecules is a rapid, scientifically-based procedure for evaluation of the potential toxicity, mutagenicity and carcinogenicity of chemicals.

致癌物质和有毒化学物质的代谢激活。
1. 利用计算机图形学测定了100种外源性和内源性化学物质的空间参数和电子结构,并由此预测了细胞色素P-448(活化)或其他细胞色素P-450家族(解毒)对其氧化代谢的影响。2. 这些化学物质的空间参数主要决定了这些化学物质被代谢的细胞色素P-450家族,电子结构主要决定了它们的氧化代谢的易感性。3.细胞色素P-448氧化代谢的作用,以及它们与胞质Ah受体的结合,被认为与化学毒性、诱变性、致癌性和共致癌性的机制有关。4. 化学毒性和致癌性的机制被认为是通过细胞色素p -448介导的激活,构象阻碍氧化到活性中间体,与大多数细胞色素p -450氧化代谢物不同,这些中间体不是可接受的结合和解毒的底物,因此与必需的细胞内大分子发生反应。5. 测定分子构象和分子电子结构的计算机图形方法是一种快速、科学的评价化学物质潜在毒性、致突变性和致癌性的方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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