Detection of hepatocarcinogens by combination of liver micronucleus assay and histopathological examination in 2-week or 4-week repeated dose studies.

IF 2.7 4区医学 Q2 GENETICS & HEREDITY

Genes and Environment Pub Date : 2022-01-04 DOI:10.1186/s41021-021-00222-1

Shuichi Hamada, Miyuki Shigano, Yumi Wako, Kazufumi Kawasako, Kensuke Satomoto, Tatsuya Mitsumoto, Takayuki Fukuda, Wakako Ohyama, Takeshi Morita, Makoto Hayashi

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引用次数: 1

Abstract

Background: Currently, revisions to the ICH S1 guidance on rodent carcinogenicity testing are being proposed. Application of this approach would reduce the use of animals in accordance with the 3Rs principles (reduce/refine/replace). The method would also shift resources to focus on more scientific mechanism-based carcinogenicity assessments and promote safe and ethical development of new small molecule pharmaceuticals. In the revised draft, findings such as cellular hypertrophy, diffuse and/or focal cellular hyperplasia, persistent tissue injury and/or chronic inflammation, preneoplastic changes, and tumors are listed as histopathology findings of particular interest for identifying carcinogenic potential. In order to predict hepatocarcinogenicity of test chemicals based on the results from 2- or 4-week repeated dose studies, we retrospectively reanalyzed the results of a previous collaborative study on the liver micronucleus assay. We focused on liver micronucleus induction in combination with histopathological changes including hypertrophy, proliferation of oval cells or bile duct epithelial cells, tissue injuries, regenerative changes, and inflammatory changes as the early responses of hepatocarcinogenesis. For these early responses, A total of 20 carcinogens, including 14 genotoxic hepatocarcinogens (Group A) and 6 non-liver-targeted genotoxic carcinogens (Group B) were evaluated.

Results: In the Group A chemicals, 5 chemicals (NPYR, MDA, NDPA, 2,6-DNT, and NMOR) showed all of the 6 early responses in hepatocarcinogenesis. Five chemicals (DMN, 2,4-DNT, QUN, 2-AAF, and TAA) showed 4 responses, and 4 chemicals (DAB, 2-NP, MCT, and Sudan I) showed 3 responses. All chemicals exhibited at least 3 early responses. Contrarily, in the Group B chemicals (6 chemicals), 3 of the 6 early responses were observed in 1 chemical (MNNG). No more than two responses were observed in 3 chemicals (MMC, MMS, and KA), and no responses were observed in 2 chemicals (CP and KBrO3).

Conclusion: Evaluation of liver micronucleus induction in combination with histopathological examination is useful for detecting hepatocarcinogens. This assay takes much less time than routine long-term carcinogenicity studies.

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在2周或4周重复给药研究中，肝微核试验与组织病理学检查相结合检测肝癌致癌物。

背景:目前，正在提议修订ICH S1关于啮齿动物致癌性测试的指南。这种方法的应用将根据3r原则(减少/改进/替代)减少动物的使用。该方法还将把资源转移到更科学的基于机制的致癌性评估上，并促进新的小分子药物的安全和合乎伦理的开发。在修订后的草案中，诸如细胞肥大、弥漫性和/或局灶性细胞增生、持续性组织损伤和/或慢性炎症、瘤前病变和肿瘤等发现被列为确定致癌潜力的特别感兴趣的组织病理学发现。为了根据2周或4周重复剂量研究的结果预测试验化学品的肝癌致癌性，我们回顾性地重新分析了先前关于肝微核测定的合作研究的结果。我们重点研究了肝微核诱导与组织病理学变化的结合，包括肥大、卵形细胞或胆管上皮细胞的增殖、组织损伤、再生变化和炎症变化，这些都是肝癌发生的早期反应。针对这些早期反应，共评估了20种致癌物，包括14种遗传毒性肝致癌物(A组)和6种非肝脏靶向性遗传毒性致癌物(B组)。结果:在A组化学物质中，NPYR、MDA、NDPA、2,6- dnt、NMOR 5种化学物质在肝癌发生中表现出全部6种早期反应。DMN、2,4- dnt、QUN、2- aaf、TAA 5种化学物质有4种反应，DAB、2- np、MCT、Sudan I 4种化学物质有3种反应。所有化学物质都表现出至少3种早期反应。相反，在B组化学品(6种化学品)中，在1种化学品(MNNG)中观察到6种早期反应中的3种。3种化学物质(MMC、MMS、KA)均未出现2种以上的反应，2种化学物质(CP、KBrO3)均未出现反应。结论:肝微核诱导评价与组织病理学检查相结合，有助于发现肝癌致癌物。这种检测比常规的长期致癌性研究所需的时间要短得多。

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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来源期刊

Genes and Environment Biochemistry, Genetics and Molecular Biology-Genetics

CiteScore

4.00

自引率

0.00%

发文量

审稿时长

27 weeks

期刊介绍： Genes and Environment is an open access, peer-reviewed journal that aims to accelerate communications among global scientists working in the field of genes and environment. The journal publishes articles across a broad range of topics including environmental mutagenesis and carcinogenesis, environmental genomics and epigenetics, molecular epidemiology, genetic toxicology and regulatory sciences. Topics published in the journal include, but are not limited to, mutagenesis and anti-mutagenesis in bacteria; genotoxicity in mammalian somatic cells; genotoxicity in germ cells; replication and repair; DNA damage; metabolic activation and inactivation; water and air pollution; ROS, NO and photoactivation; pharmaceuticals and anticancer agents; radiation; endocrine disrupters; indirect mutagenesis; threshold; new techniques for environmental mutagenesis studies; DNA methylation (enzymatic); structure activity relationship; chemoprevention of cancer; regulatory science. Genetic toxicology including risk evaluation for human health, validation studies on testing methods and subjects of guidelines for regulation of chemicals are also within its scope.