是什么导致了人类癌症？来自DNA损伤化学的研究方法。

What causes human cancer? Approaches from the chemistry of DNA damage.

作者信息

Kasai Hiroshi

机构信息

Department of Environmental Oncology, Institute of Industrial Ecological Sciences, University of Occupational and Environmental Health, 1-1, Iseigaoka, Kitakyushu, Yahatanishi-ku 807-8555 Japan.

出版信息

Genes Environ. 2016 Jul 1;38:19. doi: 10.1186/s41021-016-0046-8. eCollection 2016.

DOI:10.1186/s41021-016-0046-8

PMID:27375797

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4929788/

Abstract

To prevent human cancers, environmental mutagens must be identified. A common mechanism of carcinogenesis is DNA damage, and thus it is quite possible that environmental mutagens can be trapped as adducts by DNA components. It is also important to identify new types of DNA damaging reactions and clarify their mechanisms. In this paper, I will provide typical examples of our efforts to identify DNA damage by environmental agents, from chemistry-based studies. 1) Oxidative DNA damage: 8-Hydroxydeoxyguanosine (8-OHdG, 8-oxodG) was discovered during a structural study of DNA modifications caused in vitro by heating glucose, which was used as a model of cooked foods. We found that various oxygen radical-forming agents induced the formation of 8-OHdG in DNA, in vitro and in vivo. Analyses of the urinary 8-OHdG levels are useful to assess the extent of oxidative DNA damage in a human population. 2) Lipid peroxide-derived DNA adducts: We searched for mutagens that react with deoxynucleosides, in model systems of lipid peroxidation. The reaction mixtures were analyzed by high performance liquid chromatography (HPLC), and we discovered various lipid peroxide-derived mutagens, including new mutagens. Some of these adducts were detected in human DNA. These mutagens may be involved in lipid peroxide-related cancers. 3) Methylation of cytosine by free radicals: Methylation of the cytosine C-5 position is an important mechanism of carcinogenesis, in addition to gene mutations. However, the actual mechanisms of de novo methylation in relation to environmental agents are not clear. We found that cytosine C-5 methylation occurred by a free radical mechanism. The possible role of this radical-induced DNA methylation in carcinogenesis will be discussed, in relation to the presently accepted concept of cancer epigenetics. In these studies, chemical analyses of the adducts formed in model reactions led to the discoveries of new mutagens and important types of DNA modifications, which seem to be involved in human carcinogenesis.

摘要

为预防人类癌症，必须识别环境诱变剂。致癌的一个常见机制是DNA损伤，因此环境诱变剂很有可能作为加合物被DNA成分捕获。识别新型DNA损伤反应并阐明其机制也很重要。在本文中，我将提供基于化学研究的典型实例，展示我们在识别环境因子导致的DNA损伤方面所做的努力。1）氧化性DNA损伤：在以加热葡萄糖作为烹饪食物模型对体外引起的DNA修饰进行结构研究期间，发现了8-羟基脱氧鸟苷（8-OHdG，8-氧代脱氧鸟苷）。我们发现，各种产生活性氧的试剂在体外和体内均可诱导DNA中8-OHdG的形成。分析尿中8-OHdG水平有助于评估人群中氧化性DNA损伤的程度。2）脂质过氧化物衍生的DNA加合物：我们在脂质过氧化模型系统中寻找与脱氧核苷反应的诱变剂。通过高效液相色谱（HPLC）分析反应混合物，我们发现了各种脂质过氧化物衍生的诱变剂，包括新的诱变剂。其中一些加合物在人类DNA中被检测到。这些诱变剂可能与脂质过氧化物相关的癌症有关。3）自由基导致的胞嘧啶甲基化：除基因突变外，胞嘧啶C-5位的甲基化是致癌的重要机制。然而，与环境因子相关的从头甲基化的实际机制尚不清楚。我们发现胞嘧啶C-5甲基化是通过自由基机制发生的。将结合目前公认的癌症表观遗传学概念，讨论这种自由基诱导的DNA甲基化在致癌过程中可能发挥的作用。在这些研究中，对模型反应中形成的加合物进行化学分析，促成了新诱变剂和重要类型DNA修饰的发现，这些似乎都与人类致癌作用有关。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/5e09/4929788/61e39664ded9/41021_2016_46_Fig1_HTML.jpg

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是什么导致了人类癌症？来自DNA损伤化学的研究方法。

What causes human cancer? Approaches from the chemistry of DNA damage.

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