Journal of Toxicologic Pathology
Online ISSN : 1881-915X
Print ISSN : 0914-9198
ISSN-L : 0914-9198
Metabolism and effects of acetoaceto-o-toluidine in the urinary bladder of humanized-liver mice
Shugo SUZUKIMin GIYukie YANAGIBANao YONEDAShotaro UEHARAYuka YOKOTAIkue NOURAMasaki FUJIOKAArpamas VACHIRAARUNWONGAnna KAKEHASHIShigeki KODAHiroshi SUEMIZUHideki WANIBUCHI
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JOURNAL OPEN ACCESS Advance online publication

Article ID: 2024-0042

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Abstract

Occupational exposure to aromatic amines is a major risk factor for urinary bladder cancer. Our previous studies showed that acetoaceto-o-toluidine, which is produced using o-toluidine as a raw material, promotes urinary bladder carcinogenesis in rats. We also found high concentrations of o-toluidine, a human bladder carcinogen, in the urine of acetoaceto-o-toluidine-treated rats, indicating that urinary o-toluidine derived from acetoaceto-o-toluidine may play an important role in bladder carcinogenesis. However, this has not been investigated in humans. In the present study, we used non-humanized (F1-TKm30 mice) and humanized-liver mice established by human hepatocyte transplantation to compare differences in urinary acetoaceto-o-toluidine metabolites produced by human and mouse liver cells. We also examined the changes in acetoaceto-o-toluidine-induced mRNA expression in the liver and the proliferative effects on the bladder epithelium. Urinary o-toluidine was detected in both non-humanized and humanized mice. Acetoaceto-o-toluidine metabolites in the urine, cell proliferation activities, and DNA damage in the bladder urothelium were similar in non-humanized and humanized-liver mice. RNA expression analysis revealed that CYP1A2 expression increased in the livers of humanized-liver mice, and Cyp2c29 expression (equivalent to human CYP2C9/19) increased in the livers of non-humanized mice. These data suggest that acetoaceto-o-toluidine may be a human carcinogen, as evidenced by the detection of urinary o-toluidine in acetoaceto-o-toluidine-treated humanized-liver mice. This animal model is important for extrapolating toxicity data from animals to humans.

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© 2024 The Japanese Society of Toxicologic Pathology
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