Understanding and Targeting the DNA Repair Network in Cancer

了解和靶向癌症中的 DNA 修复网络

• 批准号: 8795698
• 负责人: Guang Peng
• 金额: $ 23.01万
• 依托单位: UNIVERSITY OF TX MD ANDERSON CAN CTR
• 依托单位国家: 美国
• 财政年份: 2011
• 资助国家: 美国
• 起止时间: 2011-07-18 至 2016-01-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8795698
• 关键词: BRCA1 gene; BRCA2 gene; Binding; Biochemical; Caenorhabditis elegans; Cell Nucleus; Cells; Characteristics; Chromosome Segregation; Complex; Core Protein; Cytoplasm; DNA Damage; DNA Double Strand Break; DNA Repair; DNA lesion; DNA repair protein; Data; Defense Mechanisms; Development; Diagnosis; Double Strand Break Repair; Drosophila genus; Ensure; Etiology; Foundations; Functional disorder; Gene Silencing; Genetic; Genome; Genomic Instability; Genomics; Genotoxic Stress; Goals; Heterochromatin; Human; Knowledge; Lead; Lesion; Light; Maintenance; Malignant Neoplasms; Mediating; Messenger RNA; MicroRNAs; Molecular; Mutation; Nuclear; Organism; Pathway interactions; Phosphorylation; Phosphotransferases; Play; Post-Translational Protein Processing; Predisposition; Process; Proteins; Proteomics; Publishing; RNA; RNA Interference Pathway; Recruitment Activity; Research; Role; Site; Small Interfering RNA; Small RNA; Stimulus; Testing; Translating; Translational Repression; base; cancer cell; cancer prevention; cancer risk; career; chromatin remodeling; clinical application; genetic information; genome integrity; homologous recombination; improved; inhibitor/antagonist; insight; novel; novel strategies; plant fungi; prevent; programs; protein protein interaction; public health relevance; recombinational repair; repaired; response; translational study; transmission process; tumor; tumorigenesis

UNDERSTANDING AND TARGETING THE DNA REPAIR NETWORK IN CANCER DESCRIPTION: Genomic instability is a characteristic of cancer cells. Homologous recombination (HR)-mediated DNA repair represents an error-free repairing mechanism to maintain genomic integrity and ensure high-fidelity transmission of genetic information. My long-term goal is to establish a successful and sustainable independent research program with a core competency in the study of HR repair using genomic and proteomic approaches. In my independent career, I wish to pursue (1) fundamental studies to understand HR-mediated DNA repair and its dysfunction in tumorigenesis and (2) mechanism-based translational studies to translate fundamental breakthroughs in HR repair into clinical applications in cancer prevention, diagnosis, prognostication, and therapy. The overall objective of my proposed research, which will lay the foundation for my independent research career, is to understand the novel nuclear function of human Ago2, a core protein in RNA interference pathways, in HR repair and genome maintenance. Based on my preliminary data, I hypothesize that in the context of DNA damage response, via fine-tuned regulatory mechanisms by posttranslational modifications, potentially through ATM/ATR kinase-dependent phosphorylation, human nuclear Ago2 regulates HR repair of double-strand breaks by recruiting DNA repair proteins at damage sites via protein-protein interactions. I will test this hypothesis by pursuing 3 specific aims through an integrated platform that combines mechanistic and functional studies: (1) Determine the function of Ago2 as a novel regulator in HR repair. (2) Characterize posttranslational modifications of Ago2 induced by DNA damage in HR repair. (3) Determine the nuclear function of Ago2 in preventing genomic instability and tumorigenesis. The proposed research is significant because it challenges the current research paradigm that human Ago2 functions predominantly in the cytoplasm. This study will shed light on how 2 evolutionarily conserved genome defense mechanisms, the small regulatory RNA pathways and DNA damage response pathway, converge at DNA lesions in the process of HR repair via the functional involvement of Ago2 protein.

了解并针对癌症中的 DNA 修复网络 描述：基因组不稳定性是癌细胞的一个特征。同源 重组 (HR) 介导的 DNA 修复代表了一种无错误的修复机制 保持基因组完整性并确保遗传信息的高保真传输。我的 长期目标是建立一个成功且可持续的独立研究计划 拥有利用基因组学和蛋白质组学研究 HR 修复的核心能力 接近。在我的独立职业生涯中，我希望从事 (1) 基础研究 了解 HR 介导的 DNA 修复及其在肿瘤发生中的功能障碍，以及 (2) 基于机制的转化研究，以转化人力资源的根本性突破 修复在癌症预防、诊断、预测等方面的临床应用 治疗。 我提出的研究的总体目标，这将为我的研究奠定基础 独立的研究生涯，就是了解人类Ago2的新颖核功能， RNA 干扰途径、HR 修复和基因组维护中的核心蛋白。 根据我的初步数据，我假设在 DNA 损伤反应的背景下， 通过翻译后修饰的微调调节机制，可能 通过ATM/ATR激酶依赖性磷酸化，人核Ago2调节HR 通过在损伤位点招募 DNA 修复蛋白来修复双链断裂 蛋白质-蛋白质相互作用。我将通过追求 3 个具体目标来检验这个假设 结合机械和功能研究的综合平台：（1）确定 Ago2 作为 HR 修复中的新型调节剂的功能。 (2) 表征翻译后 HR 修复中 DNA 损伤诱导的 Ago2 修饰。 (3)确定核 Ago2 在预防基因组不稳定和肿瘤发生中的功能。拟议的 研究意义重大，因为它挑战了人类当前的研究范式 Ago2 主要在细胞质中发挥作用。这项研究将揭示如何 2 进化上保守的基因组防御机制，小调节RNA 途径和DNA损伤反应途径，在此过程中汇聚于DNA损伤处 通过 Ago2 蛋白的功能参与进行 HR 修复。

项目成果

Phosphorylation of the BRCA1 C terminus (BRCT) repeat inhibitor of hTERT (BRIT1) protein coordinates TopBP1 protein recruitment and amplifies ataxia telangiectasia-mutated and Rad3-related (ATR) Signaling.

hTERT (BRIT1) 蛋白的 BRCA1 C 末端 (BRCT) 重复抑制剂的磷酸化可协调 TopBP1 蛋白的募集并放大共济失调毛细血管扩张突变和 Rad3 相关 (ATR) 信号转导。

• 发表时间: 2014-12-05
• 作者: Zhang, Bo;Wang, Edward;Dai, Hui;Shen, Jianfeng;Hsieh, Hui;Lu, Xiongbin;Peng, Guang
• 通讯作者: Peng, Guang