砷生物甲基化对氧化性DNA损伤的需求。
Requirement of arsenic biomethylation for oxidative DNA damage.
作者信息
Kojima Chikara, Ramirez Dario C, Tokar Erik J, Himeno Seiichiro, Drobná Zuzana, Stýblo Miroslav, Mason Ronald P, Waalkes Michael P
机构信息
Inorganic Carcinogenesis Section, Laboratory of Comparative Carcinogenesis, Center for Cancer Research, National Cancer Institute at National Institute of Environmental Health Sciences, Research Triangle Park, NC 27709, USA.
出版信息
J Natl Cancer Inst. 2009 Dec 16;101(24):1670-81. doi: 10.1093/jnci/djp414.
BACKGROUND
Inorganic arsenic is an environmental carcinogen that may act through multiple mechanisms including formation of methylated derivatives in vivo. Sodium arsenite (up to 5.0 microM) renders arsenic methylation-competent TRL1215 rat liver epithelial cells tumorigenic in nude mice at 18 weeks of exposure and arsenic methylation-deficient RWPE-1 human prostate epithelial cells tumorigenic at 30 weeks of exposure. We assessed the role of arsenic biomethylation in oxidative DNA damage (ODD) using a recently developed immuno-spin trapping method.
METHODS
Immuno-spin trapping was used to measure ODD after chronic exposure of cultured TRL1215 vs RWPE-1 cells, or of methylation-competent UROtsa/F35 vs methylation-deficient UROtsa human urothelial cells, to sodium arsenite. Secreted matrix metalloproteinase (MMP)-2 and -9 activity, as analyzed by zymography, cellular invasiveness by using a transwell assay, and colony formation by using soft agar assay were compared in cells exposed to arsenite with and without selenite, an arsenic biomethylation inhibitor, to assess the role of ODD in the transition to an in vitro cancer phenotype.
RESULTS
Exposure of methylation-competent TRL1215 cells to up to 1.0 microM sodium arsenite was followed by a substantial increase in ODD at 5-18 weeks (eg, at 16 weeks with 1.0 microM arsenite, 1138% of control, 95% confidence interval [CI] = 797% to 1481%), whereas exposure of methylation-deficient RWPE-1 cells to up to 5.0 microM arsenite did not increase ODD for a 30-week period. Inhibition of arsenic biomethylation with sodium selenite abolished arsenic-induced ODD and invasiveness, colony formation, and MMP-2 and -9 hypersecretion in TRL1215 cells. Arsenic induced ODD in methylation-competent UROtsa/F35 cells (eg, at 16 weeks, with 1.0 microM arsenite 225% of control, 95% CI = 188% to 262%) but not in arsenic methylation-deficient UROtsa cells, and ODD levels corresponded to the levels of increased invasiveness, colony formation, and hypersecretion of active MMP-2 and -9 seen after transformation to an in vitro cancer phenotype.
CONCLUSION
Arsenic biomethylation appears to be obligatory for arsenic-induced ODD and appears linked in some cells with the accelerated transition to an in vitro cancer phenotype.
背景
无机砷是一种环境致癌物,可能通过多种机制发挥作用,包括在体内形成甲基化衍生物。亚砷酸钠(浓度高达5.0微摩尔)使具有砷甲基化能力的TRL1215大鼠肝上皮细胞在暴露18周后对裸鼠具有致瘤性,而使缺乏砷甲基化能力的RWPE - 1人前列腺上皮细胞在暴露30周后具有致瘤性。我们使用最近开发的免疫自旋捕获方法评估了砷生物甲基化在氧化DNA损伤(ODD)中的作用。
方法
免疫自旋捕获用于测量培养的TRL1215与RWPE - 1细胞,或具有甲基化能力的UROtsa/F35与缺乏甲基化能力的UROtsa人尿路上皮细胞长期暴露于亚砷酸钠后的ODD。通过酶谱分析分泌的基质金属蛋白酶(MMP)-2和 - 9活性,使用Transwell分析细胞侵袭性,使用软琼脂分析集落形成,比较暴露于亚砷酸钠且添加或不添加亚硒酸钠(一种砷生物甲基化抑制剂)的细胞,以评估ODD在向体外癌表型转变中的作用。
结果
具有甲基化能力的TRL1215细胞暴露于浓度高达1.0微摩尔的亚砷酸钠后,在5 - 18周时ODD显著增加(例如,在16周时,1.0微摩尔亚砷酸钠处理组为对照组的1138%,95%置信区间[CI] = 797%至1481%),而缺乏甲基化能力的RWPE - 1细胞暴露于浓度高达5.0微摩尔的亚砷酸钠30周期间ODD未增加。亚硒酸钠抑制砷生物甲基化消除了砷诱导的ODD以及TRL1215细胞的侵袭性、集落形成和MMP - 2及 - 9的高分泌。砷在具有甲基化能力的UROtsa/F35细胞中诱导ODD(例如,在16周时,1.0微摩尔亚砷酸钠处理组为对照组的225%,95% CI = 188%至262%),但在缺乏砷甲基化能力的UROtsa细胞中未诱导ODD,且ODD水平与向体外癌表型转变后观察到的侵袭性增加、集落形成以及活性MMP - 2和 - 9的高分泌水平相对应。
结论
砷生物甲基化似乎是砷诱导ODD所必需的,并且在某些细胞中似乎与加速向体外癌表型的转变有关。
Zotero 插件