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三价铬介导的谷胱甘肽或氨基酸与DNA磷酸主链的交联在人类细胞中具有致突变性。

Cr(III)-mediated crosslinks of glutathione or amino acids to the DNA phosphate backbone are mutagenic in human cells.

作者信息

Voitkun V, Zhitkovich A, Costa M

机构信息

Department of Environmental Medicine and The Kaplan Comprehensive Cancer Center, New York University Medical Center, 550 First Avenue, New York, NY 10016, USA.

出版信息

Nucleic Acids Res. 1998 Apr 15;26(8):2024-30. doi: 10.1093/nar/26.8.2024.

DOI:10.1093/nar/26.8.2024
PMID:9518499
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC147496/
Abstract

Carcinogenic Cr(VI) compounds were previously found to induce amino acid/glutathione-Cr(III)-DNA crosslinks with the site of adduction on the phosphate backbone. Utilizing the pSP189 shuttle vector plasmid we found that these ternary DNA adducts were mutagenic in human fibroblasts. The Cr(III)-glutathione adduct was the most potent in this assay, followed by Cr(III)-His and Cr(III)-Cys adducts. Binary Cr(III)-DNA complexes were only weakly mutagenic, inducing a significant response only at a 10 times higher number of adducts compared with Cr(III)-glutathione. Single base substitutions at the G:C base pairs were the predominant type of mutations for all Cr(III) adducts. Cr(III), Cr(III)-Cys and Cr(III)-His adducts induced G:C-->A:T transitions and G:C-->T:A transversions with almost equal frequency, whereas the Cr(III)-glutathione mutational spectrum was dominated by G:C-->T:A transversions. Adduct-induced mutations were targeted toward G:C base pairs with either A or G in the 3' position to the mutated G, while spontaneous mutations occurred mostly at G:C base pairs with a 3' A. No correlation was found between the sites of DNA adduction and positions of base substitution, as adducts were formed randomly on DNA with no base specificity. The observed mutagenicity of Cr(III)-induced phosphotriesters demonstrates the importance of a Cr(III)-dependent pathway in Cr(VI) carcinogenicity.

摘要

致癌性六价铬化合物先前被发现可诱导氨基酸/谷胱甘肽 - 三价铬 - DNA交联,加合位点位于磷酸主链上。利用pSP189穿梭载体质粒,我们发现这些三元DNA加合物在人成纤维细胞中具有致突变性。在该检测中,三价铬 - 谷胱甘肽加合物最具活性,其次是三价铬 - 组氨酸和三价铬 - 半胱氨酸加合物。二元三价铬 - DNA复合物致突变性较弱,与三价铬 - 谷胱甘肽相比,仅在加合物数量高出10倍时才诱导出显著反应。对于所有三价铬加合物,G:C碱基对处的单碱基替换是主要的突变类型。三价铬、三价铬 - 半胱氨酸和三价铬 - 组氨酸加合物诱导G:C→A:T转换和G:C→T:A颠换的频率几乎相等,而三价铬 - 谷胱甘肽的突变谱以G:C→T:A颠换为主。加合物诱导的突变靶向于突变G的3' 位为A或G的G:C碱基对,而自发突变大多发生在3' 位为A的G:C碱基对处。未发现DNA加合位点与碱基替换位置之间存在相关性,因为加合物在DNA上随机形成,无碱基特异性。观察到的三价铬诱导的磷酸三酯的致突变性证明了三价铬依赖性途径在六价铬致癌性中的重要性。

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