金属硫蛋白可阻止急性无机砷暴露引起的氧化 DNA 损伤。

Metallothionein blocks oxidative DNA damage induced by acute inorganic arsenic exposure.

机构信息

National Toxicology Program Laboratory, Division of the National Toxicology Program, National Institute of Environmental Health Sciences, Research Triangle Park, NC 27709, USA.

出版信息

Toxicol Appl Pharmacol. 2015 Feb 1;282(3):267-74. doi: 10.1016/j.taap.2014.11.014. Epub 2014 Dec 5.

DOI:10.1016/j.taap.2014.11.014

PMID:25485709

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4315697/

Abstract

We studied how protein metallothionein (MT) impacts arsenic-induced oxidative DNA damage (ODD) using cells that poorly express MT (MT-I/II double knockout embryonic cells; called MT-null cells) and wild-type (WT) MT competent cells. Arsenic (as NaAsO2) was less cytolethal over 24h in WT cells (LC50=11.0±1.3μM; mean±SEM) than in MT-null cells (LC50=5.6±1.2μM). ODD was measured by the immuno-spin trapping method. Arsenic (1 or 5μM; 24h) induced much less ODD in WT cells (121% and 141% of control, respectively) than in MT-null cells (202% and 260%). In WT cells arsenic caused concentration-dependent increases in MT expression (transcript and protein), and in the metal-responsive transcription factor-1 (MTF-1), which is required to induce the MT gene. In contrast, basal MT levels were not detectable in MT-null cells and unaltered by arsenic exposure. Transfection of MT-I gene into the MT-null cells markedly reduced arsenic-induced ODD levels. The transport genes, Abcc1 and Abcc2 were increased by arsenic in WT cells but either showed no or very limited increases in MT-null cells. Arsenic caused increases in oxidant stress defense genes HO-1 and GSTα2 in both WT and MT-null cells, but to much higher levels in WT cells. WT cells appear more adept at activating metal transport systems and oxidant response genes, although the role of MT in these responses is unclear. Overall, MT protects against arsenic-induced ODD in MT competent cells by potential sequestration of scavenging oxidant radicals and/or arsenic.

摘要

我们研究了蛋白金属硫蛋白（MT）如何影响砷诱导的氧化 DNA 损伤（ODD），使用 MT 表达水平低的细胞（MT-I/II 双重敲除胚胎细胞；称为 MT 缺失细胞）和野生型（WT）MT 功能正常的细胞。砷（以 NaAsO2 的形式）在 WT 细胞（LC50=11.0±1.3μM；平均值±SEM）中的细胞毒性低于 MT 缺失细胞（LC50=5.6±1.2μM）24 小时。ODD 通过免疫自旋捕获法测量。砷（1 或 5μM；24 小时）在 WT 细胞中诱导的 ODD 明显少于 MT 缺失细胞（分别为对照的 121%和 141%）（202%和 260%）。在 WT 细胞中，砷引起 MT 表达（转录本和蛋白质）和金属反应转录因子-1（MTF-1）的浓度依赖性增加，后者是诱导 MT 基因所必需的。相比之下，在 MT 缺失细胞中检测不到基础 MT 水平，并且砷暴露也不会改变。将 MT-I 基因转染到 MT 缺失细胞中，明显降低了砷诱导的 ODD 水平。转运基因 Abcc1 和 Abcc2 在 WT 细胞中被砷增加，但在 MT 缺失细胞中要么没有增加，要么增加非常有限。砷在 WT 和 MT 缺失细胞中引起氧化应激防御基因 HO-1 和 GSTα2 的增加，但在 WT 细胞中增加的幅度更大。尽管 MT 在这些反应中的作用尚不清楚，但 WT 细胞似乎更擅长激活金属转运系统和氧化应激反应基因。总的来说，MT 通过潜在地螯合清除氧化自由基和/或砷，保护 MT 功能正常的细胞免受砷诱导的 ODD。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/ddbb/4315697/36e09fd5d185/nihms647537f1.jpg

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