氧化介导的 DNA 交联导致 6-硫代鸟嘌呤在人细胞中的毒性。

Oxidation-mediated DNA cross-linking contributes to the toxicity of 6-thioguanine in human cells.

机构信息

Cancer Research UK London Research Institute, Clare Hall Laboratories, South Mimms, Herts, United Kingdom.

出版信息

Cancer Res. 2012 Sep 15;72(18):4787-95. doi: 10.1158/0008-5472.CAN-12-1278. Epub 2012 Jul 20.

PMID:22822082

Abstract

The thiopurines azathioprine and 6-mercaptopurine have been extensively prescribed as immunosuppressant and anticancer agents for several decades. A third member of the thiopurine family, 6-thioguanine (6-TG), has been used less widely. Although known to be partly dependent on DNA mismatch repair (MMR), the cytotoxicity of 6-TG remains incompletely understood. Here, we describe a novel MMR-independent pathway of 6-TG toxicity. Cell killing depended on two properties of 6-TG: its incorporation into DNA and its ability to act as a source of reactive oxygen species (ROS). ROS targeted DNA 6-TG to generate potentially lethal replication-arresting DNA lesions including interstrand cross-links. These triggered processing by the Fanconi anemia and homologous recombination DNA repair pathways. Allopurinol protected against 6-TG toxicity by acting as a ROS scavenger and preventing DNA damage. Together, our findings provide mechanistic evidence to support the proposed use of thiopurines to treat HR-defective tumors and for the coadministration of 6-TG and allopurinol as an immunomodulation strategy in inflammatory disorders.

摘要

硫嘌呤类药物巯嘌呤和 6-巯基嘌呤作为免疫抑制剂和抗癌药物已被广泛应用数十年。硫嘌呤家族的第三个成员 6-硫鸟嘌呤（6-TG）的应用范围则相对较窄。尽管已知其部分依赖于错配修复（MMR），但 6-TG 的细胞毒性仍不完全清楚。在这里，我们描述了一种新的 6-TG 毒性的 MMR 非依赖性途径。细胞杀伤取决于 6-TG 的两个特性：它掺入 DNA 的能力和作为活性氧（ROS）来源的能力。ROS 将 DNA 6-TG 靶向生成潜在致命的复制停滞 DNA 损伤，包括链间交联。这些交联触发了范可尼贫血症和同源重组 DNA 修复途径的处理。别嘌醇通过充当 ROS 清除剂并防止 DNA 损伤来预防 6-TG 毒性。总之，我们的研究结果为支持将硫嘌呤类药物用于治疗 HR 缺陷型肿瘤以及将 6-TG 和别嘌醇联合作为炎症性疾病的免疫调节策略的建议提供了机制证据。

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氧化介导的 DNA 交联导致 6-硫代鸟嘌呤在人细胞中的毒性。

Oxidation-mediated DNA cross-linking contributes to the toxicity of 6-thioguanine in human cells.

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