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Abstract
The Ames test is used worldwide to initially screen the mutagenic potential of new chemicals. In the standard Ames test, S. typhimurium strains (TA100, TA98, TA1535, and TA1537) and Escherichia coli (WP2uvrA) are treated with substances with/without cytochrome P450s (CYPs)-induced rat S9 fractions for identifying mutagens and pro-mutagens. However, many substances show completely different toxicity patterns depending on whether the liver S9 fraction belongs to rats or humans. The natural product Polygoni Multiflori Radix (PMR) can also show bacterial reverse mutation, followed by the rat or human liver S9 fraction. While PMR elicits reverse mutations in the TA1537 strain in rat liver S9 but not in human liver S9, this mechanism has not been verified yet. To explain this, the differences in metabolic enzymes compositions commonly observed between rats and humans have been implicated. This study aimed to explore the key factors that cause differences in the genotoxicity of PMR between rat and human liver S9 metabolic enzymes. The results of next-generation sequencing (NGS) analysis showed that both rat and human metabolic enzymes caused similar mutations in TA1537. However, when the metabolic enzymes in each S9 fraction were analyzed using ion mobility tandem mass spectrometry (IM-MS), rat- and human-specific enzymes were identified among the cytochrome (CYP) family, especially aryl hydrocarbon receptor (AHR)-related CYPs. These findings suggest that CYP1A1 isoforms contribute to the mechanism of PMR in the Ames test. Therefore, an in vitro Ames test might be more reliable in predicting genotoxicity for both rodents and humans. This will also help overcome the limitations of laboratory animal-based toxicity evaluations, which provide unreliable results due to interspecies differences between humans and rodents.
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1 Korea Institute of Toxicology, Korea Institute of Toxicology, Genetic and Epigenetic Toxicology Research Group, Daejeon, Republic of Korea (GRID:grid.418982.e) (ISNI:0000 0004 5345 5340)
2 Korea Institute of Toxicology, Korea Institute of Toxicology, Genetic and Epigenetic Toxicology Research Group, Daejeon, Republic of Korea (GRID:grid.418982.e) (ISNI:0000 0004 5345 5340); Chungnam National University, College of Pharmacy, Daejeon, Republic of Korea (GRID:grid.254230.2) (ISNI:0000 0001 0722 6377)
3 Korea Institute of Toxicology, Regulatory Toxicology Research Division, Daejeon, Republic of Korea (GRID:grid.418982.e) (ISNI:0000 0004 5345 5340)
4 Korea Institute of Toxicology, Department of Advanced Toxicology Research, Daejeon, Republic of Korea (GRID:grid.418982.e) (ISNI:0000 0004 5345 5340)
5 Korea Institute of Oriental Medicine, Herbal Medicine Resources Research Center, Naju-Si, South Korea (GRID:grid.418980.c) (ISNI:0000 0000 8749 5149)
6 Korea Research Institute of Bioscience and Biotechnology, Immunotherapy Research Center, Daejeon, Republic of Korea (GRID:grid.249967.7) (ISNI:0000 0004 0636 3099)
7 Kafkas University, Department of Bioengineering, Faculty of Engineering and Architecture, Kars, Turkey (GRID:grid.16487.3c) (ISNI:0000 0000 9216 0511)
8 Chungnam National University, College of Pharmacy, Daejeon, Republic of Korea (GRID:grid.254230.2) (ISNI:0000 0001 0722 6377)
9 Korea Institute of Toxicology, Korea Institute of Toxicology, Genetic and Epigenetic Toxicology Research Group, Daejeon, Republic of Korea (GRID:grid.418982.e) (ISNI:0000 0004 5345 5340); Korea Institute of Toxicology, Toxicology Mechanism Research Division, Daejeon, Republic of Korea (GRID:grid.418982.e) (ISNI:0000 0004 5345 5340); Korea Institute of Toxicology, Genetic Toxicology Research Group, Toxicology Mechanism Research Division, Daejeon, Republic of Korea (GRID:grid.418982.e) (ISNI:0000 0004 5345 5340)