DNA错配特异性靶向以及错配修复缺陷细胞对大分子铑（III）嵌入剂的超敏反应。

DNA mismatch-specific targeting and hypersensitivity of mismatch-repair-deficient cells to bulky rhodium(III) intercalators.

作者信息

Hart Jonathan R, Glebov Oleg, Ernst Russell J, Kirsch Ilan R, Barton Jacqueline K

机构信息

Division of Chemistry and Chemical Engineering, California Institute of Technology Pasadena, CA 91125, USA.

出版信息

Proc Natl Acad Sci U S A. 2006 Oct 17;103(42):15359-63. doi: 10.1073/pnas.0607576103. Epub 2006 Oct 9.

DOI:10.1073/pnas.0607576103

PMID:17030786

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC1622828/

Abstract

Mismatch repair (MMR) is critical to maintaining the integrity of the genome, and deficiencies in MMR are correlated with cancerous transformations. Bulky rhodium intercalators target DNA base mismatches with high specificity. Here we describe the application of bulky rhodium intercalators to inhibit cellular proliferation differentially in MMR-deficient cells compared with cells that are MMR-proficient. Preferential inhibition by the rhodium complexes associated with MMR deficiency is seen both in a human colon cancer cell line and in normal mouse fibroblast cells; the inhibition of cellular proliferation depends strictly on the MMR deficiency of the cell. Furthermore, our assay of cellular proliferation is found to correlate with DNA mismatch targeting by the bulky metallointercalators. It is the Delta-isomer that is active both in targeting base mismatches and in inhibiting DNA synthesis. Additionally, the rhodium intercalators promote strand cleavage at the mismatch site with photoactivation, and we observe that the cellular response is enhanced with photoactivation. Targeting DNA mismatches may therefore provide a cell-selective strategy for chemotherapeutic design.

摘要

错配修复（MMR）对于维持基因组的完整性至关重要，而MMR缺陷与癌变相关。大分子铑嵌入剂能高度特异性地靶向DNA碱基错配。在此，我们描述了大分子铑嵌入剂在MMR缺陷细胞中与MMR功能正常的细胞相比差异性抑制细胞增殖的应用。在人结肠癌细胞系和正常小鼠成纤维细胞中均观察到与MMR缺陷相关的铑配合物的优先抑制作用；细胞增殖的抑制严格取决于细胞的MMR缺陷。此外，我们发现细胞增殖测定与大分子金属嵌入剂对DNA错配的靶向作用相关。具有活性的是δ异构体，它既能靶向碱基错配，又能抑制DNA合成。此外，铑嵌入剂通过光激活促进错配位点的链断裂，并且我们观察到光激活可增强细胞反应。因此，靶向DNA错配可能为化疗设计提供一种细胞选择性策略。

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