Rationale for including metabolites in chemical toxicity bioassay

Dickson L. S. Liu, R. Maguire, B. Dutka, G. Pacepavicius
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引用次数: 6

Abstract

Toxicity and biodegradability are major factors affecting the fate and behavior of an organic contaminant in the environment. In this report, 2,4-dinitrotoluene (DNT), an important industrial chemical, was used as a model toxicant to demonstrate that toxicity and biodegradability are intimately related in determining a chemical's effect and impact on the total ecosystem. DNT was found to be aerobically stable, but could undergo anaerobic biotransformation with the formation of three metabolites. One of the metabolites, namely 2-nitroso-4-nitrotoluene, was extremely toxic to the six test bacterial isolates, while the other two aminonitro metabolites and the parent compound DNT were much less toxic or nontoxic to the bacterial cultures. It is suggested that the incorporation of some known metabolites into short-term bioassay procedures could increase the reliability of these tests in the impact assessment of toxic chemicals on the environment. In addition, the difference between toxicity data generated from short-term bioassay procedures and those from long-term toxicological studies was also delineated from a biochemical viewpoint.
化学毒性生物测定中包括代谢物的基本原理
毒性和生物降解性是影响有机污染物在环境中的命运和行为的主要因素。在本报告中,2,4-二硝基甲苯(DNT)作为一种重要的工业化学品,被用作模型毒物,以证明毒性和生物降解性在确定化学品对整个生态系统的影响和影响方面密切相关。研究发现,DNT在有氧环境下是稳定的,但可以通过三种代谢物的形成进行厌氧生物转化。其中一种代谢物,即2-亚硝基-4-硝基甲苯,对6株试验菌株具有极毒性,而另外两种氨基硝基代谢物和母体化合物DNT对细菌培养物的毒性很小或无毒。有人建议,将一些已知的代谢物纳入短期生物测定程序,可提高这些试验在评估有毒化学品对环境的影响方面的可靠性。此外,还从生物化学的角度描述了短期生物测定程序产生的毒性数据与长期毒理学研究产生的毒性数据之间的差异。
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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