School of Applied Sciences, RMIT University, Melbourne, VIC 3001, Australia.
Food Chem Toxicol. 2013 Sep;59:438-45. doi: 10.1016/j.fct.2013.06.041. Epub 2013 Jun 30.
¹H Nuclear Magnetic Resonance spectroscopy has been used to profile urinary metabolites in male Fischer F344 rats in order to assess the metabolic changes induced by oral exposure to two benzimidazole fungicides (carbendazim and thiabendazole) and two bipyridyllium herbicides (chlormequat and mepiquat). Exposure levels were selected to be lower than those expected to cause overt signs of toxicity. We then compared the sensitivity of the metabolomics approach to more traditional methods of toxicity assessment such as the measurement of growth and organ weights. Separate, acute exposure experiments were conducted for each pesticide to identify potential metabolic markers of exposure across four doses (and a control). Growth, organ weights and feeding/drinking rates were not significantly affected by any compounds at any dose levels tested. In contrast, metabolic responses were detected within 8 and 24h for chlormequat and mepiquat, and after 24h for carbendazim and thiabendazole. These results demonstrate the potential for the use of metabolomics in food toxicity testing.
¹H 核磁共振波谱已被用于分析雄性费希尔 344 大鼠的尿液代谢产物,以评估口服暴露于两种苯并咪唑类杀菌剂(多菌灵和噻菌灵)和两种双吡啶类除草剂(矮壮素和甲哌𬭩)引起的代谢变化。暴露水平选择低于预期会引起明显毒性迹象的水平。然后,我们比较了代谢组学方法与传统毒性评估方法(如生长和器官重量测量)的敏感性。对每种农药进行单独的急性暴露实验,以确定在四个剂量(和一个对照)下暴露的潜在代谢标志物。在任何测试剂量水平下,任何化合物都没有显著影响生长、器官重量和摄食/饮水率。相比之下,在 8 小时和 24 小时时检测到矮壮素和甲哌𬭩的代谢反应,在 24 小时时检测到多菌灵和噻菌灵的代谢反应。这些结果表明代谢组学在食品毒性测试中的应用潜力。