生物转化和生物活化在毒性中的作用。

EXS Pub Date : 2009-01-01 DOI:10.1007/978-3-7643-8336-7_3

Wolfgang Dekant

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引用次数: 49

摘要

生物转化是将亲脂化学物质转化为水溶性和易排泄的代谢物所必需的。正式地，生物转化反应分为阶段I和阶段II反应。第一相反应是官能团的引入，而第二相反应是官能团与内源性极性产物的结合。由于有毒代谢物的代谢形成，生物转化在许多化学品的毒性中也起着至关重要的作用。这些物质可分为稳定但有毒的产物、活性亲电试剂、自由基和活性氧代谢物。生物转化反应形成的毒性产物与细胞大分子的相互作用启动了导致细胞损伤、细胞死亡和毒性的序列。

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The role of biotransformation and bioactivation in toxicity.

Biotransformation is essential to convert lipophilic chemicals to water-soluble and readily excretable metabolites. Formally, biotransformation reactions are classified into phase I and phase II reactions. Phase I reactions represent the introduction of functional groups, whereas phase II reactions are conjugations of such functional groups with endogenous, polar products. Biotransformation also plays an essential role in the toxicity of many chemicals due to the metabolic formation of toxic metabolites. These may be classified as stable but toxic products, reactive electrophiles, radicals, and reactive oxygen metabolites. The interaction of toxic products formed by biotransformation reactions with cellular macromolecules initiates the sequences resulting in cellular damage, cell death and toxicity.

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EXS

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