Metabolism and effects of acetoaceto-o-toluidine in the urinary bladder of humanized-liver mice

IF 0.9 4区 医学 Q4 PATHOLOGY
Shugo SUZUKI, Min GI, Yukie YANAGIBA, Nao YONEDA, Shotaro UEHARA, Yuka YOKOTA, Ikue NOURA, Masaki FUJIOKA, Arpamas VACHIRAARUNWONG, Anna KAKEHASHI, Shigeki KODA, Hiroshi SUEMIZU, Hideki WANIBUCHI
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引用次数: 0

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.

乙酰乙酰托烷在人肝小鼠膀胱中的代谢及其影响
职业性接触芳香胺是膀胱癌的一个主要危险因素。我们之前的研究表明,以邻甲苯胺为原料生产的乙酰乙酰邻甲苯胺会促进大鼠膀胱癌的发生。我们还在乙酰乙酰邻甲苯胺处理过的大鼠尿液中发现了高浓度的邻甲苯胺(一种人类膀胱致癌物质),这表明由乙酰乙酰邻甲苯胺产生的尿液中的邻甲苯胺可能在膀胱癌发生过程中发挥了重要作用。然而,人类尚未对此进行研究。在本研究中,我们使用非人化小鼠(F1-TKm30 小鼠)和通过人肝细胞移植建立的人化肝脏小鼠,比较人和小鼠肝细胞产生的尿乙酰乙酰邻甲苯胺代谢物的差异。我们还研究了肝脏中乙酰乙酰邻甲苯胺诱导的 mRNA 表达的变化以及对膀胱上皮细胞的增殖作用。在非人化小鼠和人化小鼠的尿液中都检测到了邻甲基苯胺。非人源化小鼠和人源化肝脏小鼠尿液中的乙酰乙酰邻甲苯胺代谢物、细胞增殖活性和膀胱尿路上皮细胞的 DNA 损伤相似。RNA 表达分析表明,人源化肝脏小鼠肝脏中 CYP1A2 表达增加,而非人源化小鼠肝脏中 Cyp2c29(相当于人类 CYP2C9/19)表达增加。这些数据表明,经乙酰乙酰-邻甲基苯胺处理的人源化肝脏小鼠尿液中检测到邻甲基苯胺,这表明乙酰乙酰-邻甲基苯胺可能是一种人类致癌物质。这种动物模型对于将动物的毒性数据推断给人类非常重要。
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来源期刊
Journal of Toxicologic Pathology
Journal of Toxicologic Pathology PATHOLOGY-TOXICOLOGY
CiteScore
2.10
自引率
16.70%
发文量
22
审稿时长
>12 weeks
期刊介绍: JTP is a scientific journal that publishes original studies in the field of toxicological pathology and in a wide variety of other related fields. The main scope of the journal is listed below. Administrative Opinions of Policymakers and Regulatory Agencies Adverse Events Carcinogenesis Data of A Predominantly Negative Nature Drug-Induced Hematologic Toxicity Embryological Pathology High Throughput Pathology Historical Data of Experimental Animals Immunohistochemical Analysis Molecular Pathology Nomenclature of Lesions Non-mammal Toxicity Study Result or Lesion Induced by Chemicals of Which Names Hidden on Account of the Authors Technology and Methodology Related to Toxicological Pathology Tumor Pathology; Neoplasia and Hyperplasia Ultrastructural Analysis Use of Animal Models.
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