Polymerase theta, genome instability, and cancer

聚合酶θ、基因组不稳定性和癌症

基本信息

批准号：
10202518
负责人：
DALE A RAMSDEN
金额：
$ 92.35万
依托单位：
UNIV OF NORTH CAROLINA CHAPEL HILL
依托单位国家：
美国
项目类别：
财政年份：
2020
资助国家：
美国
起止时间：
2020-07-01 至 2026-06-30
项目状态：
未结题

来源：
https://reporter.nih.gov/project-details/10202518
关键词：
Acute Address Biochemical Biochemistry Biological Biological Assay Biophysics Camptothecin Candidate Disease Gene Cell Line Cell Proliferation Cell Survival Cells Cellular Assay Cellular biology Chromosome abnormality Collaborations Complex Core Facility Core Protein DNA Damage DNA Repair DNA replication fork DNA-Directed DNA Polymerase Development Double Strand Break Repair Enzymes Feedback Fertilization Fostering Genes Genetic Genetic study Genomic Instability Genomics Goals Hereditary Breast Carcinoma Human Imaging Techniques Knowledge Length Malignant Neoplasms Measures Mediating Methods Modeling Molecular Molecular Biology Monitor Mutation Names Nonhomologous DNA End Joining Normal Cell Pathway interactions Polymerase Program Research Project Grants Proteins Radiation Reagent Research Role Structural Models Structure Variant Visualization Wood material Work brca gene cancer cell cancer therapy design enzyme activity established cell line experimental study homologous recombination imaging approach inhibitor/antagonist insight mutant novel programs protein purification reconstitution repaired response single molecule small molecule small molecule inhibitor structural biology vif Genes

项目摘要

PROJECT SUMMARY/DESCRIPTION Polymerase theta (Pol q, gene name Polq) is essential in many hereditary breast cancers, yet loss of Pol q is well tolerated in most normal cells. As a consequence, there has been much excitement in the development of targeted inhibitors of Pol q for cancer therapy. However, we know little about the biological role and mechanism of action for this large, multi-domain factor. It has thus not been possible to reconcile the disparate, apparently context-dependent impacts of Pol q loss on mutation, chromosome aberration, and cell survival, and the safe, effective targeting of Pol q for therapy has been largely frustrated. In overall Aim 1, the mechanism by which full-length Pol q and Pol q domains contribute to repair will be characterized by parallel analysis using the biochemical, structural, genetic and biophysical imaging approaches available to our program. Full pathway reconstitution and visualization is a goal. In Overall Aim 2 we will investigate the cellular contexts that normally engage Pol q. In Overall Aim 3 we will integrate insights gained from these other Aims to develop rationales for safer, effective targeting of Pol q in cancer therapy. The research work will be highly coordinated within the Program Project in a framework with three Core facilities. Substrates, proteins, and experiments will be designed with all Projects and constantly monitored with feedback via Administrative Core A. Protein purification will be supported by Core B, and cell line construction by Core C. The scientific project leaders have complementary expertise: Drs. Dale Ramsden (molecular biology; Project 1), Gaorav Gupta (cancer cell biology; Project 1), Richard Wood (biochemistry, Project 2) Sylvie Doublié (structural biology and mechanism; Project 3), and Eli Rothenberg (biophysics; Project 4). This ensemble of complementary expertise fosters cross-fertilization of ideas beneficial to the whole team, and makes work possible that can only be accomplished by a Program Project grant. This team also already has a long track record of productive collaboration, and within this program project will work effectively and synergistically to accomplish the Program’s goals. The results obtained by this Program Project will provide a fundamental advance in the understanding of the molecular mechanisms underpinning TMEJ, and will pave the way for the design of novel cancer therapy via Pol θ inhibition.

项目摘要/描述聚合酶 theta（Pol q，基因名称 Polq）在许多遗传性乳腺癌中至关重要，但 Pol q 的缺失大多数正常细胞都具有良好的耐受性，因此，它的发育非常令人兴奋。 Pol q 的靶向抑制剂用于癌症治疗然而，我们对其生物学作用和了解知之甚少。因此，不可能调和这个大的、多领域因素的作用机制。 Pol q 丢失对突变、染色体畸变和细胞存活的明显依赖于环境的影响， Pol q 的安全、有效的靶向治疗在很大程度上受到了阻碍。在总体目标 1 中，全长 Pol q 和 Pol q 域有助于修复的机制将是通过使用生化、结构、遗传和生物物理成像进行并行分析来表征总体目标 2 是我们项目可用的方法。我们将研究通常与 Pol q 相关的细胞环境。在总体目标 3 中，我们将整合见解。从这些其他目标中获得的成果旨在为癌症治疗中更安全、有效地靶向 Pol q 提供理论依据。研究工作将在三个核心框架内高度协调。底物、蛋白质和实验将与所有项目一起设计，并持续监控。通过管理核心 A 反馈。蛋白质纯化将由核心 B 和细胞系构建支持通过核心 C. 科学项目负责人具有互补的专业知识：Dale Ramsden 博士（分子生物学；项目） 1)、Gaorav Gupta（癌细胞生物学；项目 1）、Richard Wood（生物化学、项目 2）Sylvie Doublié （结构生物学和机制；项目 3）和 Eli Rothenberg（生物物理学；项目 4）。互补的专业知识促进了对整个团队有益的想法的交叉传播，并使工作这只有通过计划项目拨款才能完成，该团队也已经有了很长的路要走。富有成效的合作记录，并且在该计划内，项目将有效地、协同地工作，以本计划项目取得的成果将为实现该计划的目标提供基础。对支持 TMEJ 的分子机制的理解取得了进展，并将为 TMEJ 铺平道路通过 Pol θ 抑制设计新型癌症疗法。