DNA加合物水平、修复酶和细胞凋亡在偶氮甲烷甲基化作用下的关系。

M Y Hong, R S Chapkin, C P Wild, J S Morris, N Wang, R J Carroll, N D Turner, J R Lupton
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引用次数: 0

摘要

DNA烷基化剂暴露导致许多DNA加合物的形成,其中o6 -甲基脱氧鸟苷(O6-medG)是主要的致突变和细胞毒性DNA损伤。预防结肠癌的关键是通过修复(例如,通过o6 -烷基鸟嘌呤-DNA烷基转移酶(ATase))或靶向凋亡去除O6-medG DNA加合物。我们报道了大鼠结肠细胞对偶氮氧甲烷(一种特性良好的实验性结肠癌致癌物和DNA甲基化剂)在ATase和凋亡中O6-medG DNA加合物形成和加合物去除方面的反应。我们的结果是:(a) DNA损伤在活跃增殖细胞中比在分化细胞室中更大;(b) DNA修复酶ATase的表达不是针对增殖细胞或干细胞,而是主要局限于隐窝的上部;(c)细胞凋亡主要针对干细胞和增殖室;(d)随着时间的推移,隐窝底部三分之一DNA修复酶表达的增加与同一隐窝区域细胞凋亡的减少相对应。
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Relationship between DNA adduct levels, repair enzyme, and apoptosis as a function of DNA methylation by azoxymethane.

DNA alkylating agent exposure results in the formation of a number of DNA adducts, with O6-methyl-deoxyguanosine (O6-medG) being the major mutagenic and cytotoxic DNA lesion. Critical to the prevention of colon cancer is the removal of O6-medG DNA adducts, either through repair, for example, by O6-alkylguanine-DNA alkyltransferase (ATase) or targeted apoptosis. We report how rat colonocytes respond to administration of azoxymethane (a well-characterized experimental colon carcinogen and DNA-methylating agent) in terms of O6-medG DNA adduct formation and adduct removal by ATase and apoptosis. Our results are: (a) DNA damage is greater in actively proliferating cells than in the differentiated cell compartment; (b) expression of the DNA repair enzyme ATase was not targeted to the proliferating cells or stem cells but rather is confined primarily to the upper portion of the crypt; (c) apoptosis is primarily targeted to the stem cell and proliferative compartments; and (d) the increase in DNA repair enzyme expression over time in the bottom one-third of the crypt corresponds with the decrease in apoptosis in this same crypt region.

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