DNA Repair and Antitopoisomerase Drug Effects

DNA 修复和抗拓扑异构酶药物作用

• 批准号: 7105203
• 负责人: JOHN L NITISS
• 金额: $ 26.95万
• 依托单位: ST. JUDE CHILDREN'S RESEARCH HOSPITAL
• 依托单位国家: 美国
• 财政年份: 1999
• 资助国家: 美国
• 起止时间: 1999-07-02 至 2011-07-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7105203
• 关键词: DNA damage; DNA repair; DNA replication; DNA topoisomerases; camptothecin; chemical related neoplasm /cancer; chemosensitizing agent; chromosome aberrations; cytotoxicity; drug resistance; drug screening /evaluation; enzyme inhibitors; enzyme substrate; etoposide; fungal genetics; gene frequency; gene mutation; gene rearrangement; genetic recombination; human tissue; mutant; neoplasm /cancer genetics; neoplastic cell; pharmacokinetics; yeasts

DESCRIPTION (provided by applicant): Agents targeting topoisomerase II are active against a wide range of human tumors. Stabilization of covalent complexes, converting topoisomerase II into DNA damage, is an essential aspect of cell killing by these drugs. We have taken advantage of newly developed yeast genomic tools to identify genes encoding DNA repair or DNA damage tolerance functions that play key roles in sensitivity to drugs targeting topoisomerases. Successful utilization of these tools, notably a set of strains deleting all non-essential open reading frames has required us to develop new approaches to efficiently enhance the sensitivity of yeast cells to drugs targeting topoisomerase II. We developed several strategies for dominantly increasing the sensitivity of yeast cells to topoisomerase targeting drugs, including the development of chimeric transcriptional regulators that repress the expression of drug efflux genes. Recent findings that have taken advantage of the yeast deletion set have demonstrated that the nuclease activities of several repair complexes are important following cell survival following exposure to Top2 targeting agents. We have also shown that proteins that regulate protein stability following exposure to DNA damage also play key roles in repairing Top2 mediated DNA damage. During the next grant period we will use these tools to identify yeast genes that affect cell survival following exposure to Top2 targeting drugs, but do not affect sensitivity to other types of DNA damage. Experiments will elucidate the biochemical roles of proteins that process the DNA damage generated by topoisomerases. These proteins include factors that regulate the stability of RNA polymerase in response to DNA damage and nucleases that are specific for altered DNA structures. These studies of the role of DNA repair functions on sensitivity to topoisomerase targeting agents have the long-term goal of understanding factors that contribute to the efficacy of clinically important agents such as etoposide and doxorubicin. The results from experiments in this proposal should enhance our understanding of the mechanisms of action of these drugs targeting DNA topoisomerases. A key question that this work will address is why drugs targeting different topoisomerases have different effects on cell survival, and therefore different clinical efficacies. Answering these questions may also suggest strategies for circumventing resistance to these clinically important anticancer drugs.

描述（由申请人提供）：靶向拓扑异构酶II的药物对多种人类肿瘤具有活性。共价复合物的稳定，将拓扑异构酶II转化为DNA损伤，是这些药物杀死细胞的重要方面。我们利用新开发的酵母基因组工具来鉴定编码DNA修复或DNA损伤耐受功能的基因，这些基因在靶向拓扑异构酶的药物敏感性中起关键作用。成功利用这些工具，特别是一组菌株删除所有非必要的开放阅读框，要求我们开发新的方法来有效地提高酵母细胞对靶向拓扑异构酶II的药物的敏感性。我们开发了几种策略来提高酵母细胞对拓扑异构酶靶向药物的敏感性，包括开发抑制药物外排基因表达的嵌合转录调节因子。最近利用酵母缺失集的研究结果表明，几种修复复合物的核酸酶活性在暴露于Top2靶向剂后的细胞存活后是重要的。我们还发现，DNA损伤后调节蛋白质稳定性的蛋白质在修复Top2介导的DNA损伤中也起着关键作用。在下一个资助期内，我们将使用这些工具来鉴定暴露于Top2靶向药物后影响细胞存活的酵母基因，但不影响对其他类型DNA损伤的敏感性。实验将阐明处理由拓扑异构酶产生的DNA损伤的蛋白质的生化作用。这些蛋白质包括在DNA损伤时调节RNA聚合酶稳定性的因子，以及对DNA结构改变具有特异性的核酸酶。这些关于DNA修复功能对拓扑异构酶靶向药物敏感性的作用的研究，其长期目标是了解影响诸如依托泊苷和阿霉素等临床重要药物疗效的因素。本实验的结果将有助于我们进一步了解这些药物靶向DNA拓扑异构酶的作用机制。这项工作将解决的一个关键问题是，为什么靶向不同拓扑异构酶的药物对细胞存活的影响不同，因此临床疗效也不同。回答这些问题也可能为规避这些临床重要抗癌药物的耐药性提供策略。