Arsenic biotransformation as a cancer promoting factor by inducing DNA damage and disruption of repair mechanisms.

Molecular biology international Pub Date : 2011-01-01 Epub Date: 2011-08-02 DOI:10.4061/2011/718974

Victor D Martinez, Emily A Vucic, Marta Adonis, Lionel Gil, Wan L Lam

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引用次数: 61

Abstract

Chronic exposure to arsenic in drinking water poses a major global health concern. Populations exposed to high concentrations of arsenic-contaminated drinking water suffer serious health consequences, including alarming cancer incidence and death rates. Arsenic is biotransformed through sequential addition of methyl groups, acquired from s-adenosylmethionine (SAM). Metabolism of arsenic generates a variety of genotoxic and cytotoxic species, damaging DNA directly and indirectly, through the generation of reactive oxidative species and induction of DNA adducts, strand breaks and cross links, and inhibition of the DNA repair process itself. Since SAM is the methyl group donor used by DNA methyltransferases to maintain normal epigenetic patterns in all human cells, arsenic is also postulated to affect maintenance of normal DNA methylation patterns, chromatin structure, and genomic stability. The biological processes underlying the cancer promoting factors of arsenic metabolism, related to DNA damage and repair, will be discussed here.

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砷生物转化作为癌症促进因子通过诱导DNA损伤和破坏修复机制。

长期接触饮用水中的砷是一个重大的全球健康问题。接触高浓度砷污染的饮用水的人口遭受严重的健康后果，包括惊人的癌症发病率和死亡率。砷通过从s-腺苷甲硫氨酸(SAM)中获得的甲基的顺序加成进行生物转化。砷的代谢产生多种基因毒性和细胞毒性物质，通过产生活性氧化物质和诱导DNA加合物、链断裂和交联，以及抑制DNA修复过程本身，直接或间接地损害DNA。由于SAM是DNA甲基转移酶用来维持所有人类细胞正常表观遗传模式的甲基供体，砷也被认为会影响正常DNA甲基化模式、染色质结构和基因组稳定性的维持。本文将讨论与DNA损伤和修复有关的致癌因子砷代谢的生物学过程。

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Molecular biology international

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