Mechanisms of RET/PTC Rearrangement in Thyroid Cancer

甲状腺癌中RET/PTC重排的机制

• 批准号: 8029581
• 负责人: YURI E NIKIFOROV
• 金额: $ 22万
• 依托单位: UNIVERSITY OF PITTSBURGH AT PITTSBURGH
• 依托单位国家: 美国
• 财政年份: 2001
• 资助国家: 美国
• 起止时间: 2001-07-01 至 2013-07-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8029581
• 关键词: 10q; Accidents; Address; Area; Carcinogens; Cell Nucleus; Cell Proliferation; Cells; Characteristics; Child; Chromosomal Rearrangement; Chromosome abnormality; Chromosomes; Clinical; DNA; DNA Double Strand Break; DNA Repair Gene; DNA Sequence Rearrangement; DNA-PKcs; Diagnosis; Dose; Double Strand Break Repair; Down-Regulation; Environmental Exposure; Event; Exposure to; External Beam Radiation Therapy; Frequencies; G22P1 gene; Generations; Genes; Genetic Variation; Human; I131 isotope; In Vitro; Interphase; Ionizing radiation; Kinetics; Lead; Link; Malignant Neoplasms; Malignant neoplasm of thyroid; Mediating; Molecular; Molecular Profiling; NBS1 gene; Nonhomologous DNA End Joining; Occupational; PTCH gene; Patients; Play; Population; Predisposition; Property; RET gene; Radiation; Radiation Induced DNA Damage; Radiation induced double strand break; Radiation therapy; Radioprotection; Research Personnel; Risk; Risk Assessment; Roentgen Rays; Role; Space Explorations; Staging; System; Terrorism; Testing; Thyroid Diseases; Thyroid Gland; XRCC4 gene; carcinogenesis; in vitro Model; irradiation; leukemia; malignant breast neoplasm; nuclear power; programs; radiation carcinogenesis; restriction enzyme; sarcoma; soft tissue; tool; tumor; tumorigenic

DESCRIPTION (provided by applicant): Ionizing radiation is a well-known human carcinogen linked to a variety of cancers including thyroid cancer, leukemia, breast cancer and soft tissue sarcomas. The molecular mechanisms of radiation-induced carcinogenesis remain poorly understood. Significant evidence has been accumulated supporting the dominant role of chromosomal rearrangements in the carcinogenesis initiated by radiation exposure. Since ionizing radiation induces double strand DNA breaks, it is conceivable that chromosomal rearrangements are formed directly by mis-rejoining of free DNA ends produced by radiation and located close to each other in the nucleus. In thyroid cancer, RET/PTC rearrangements, which usually form via an inversion in chromosome 10q, are a molecular signature of radiation-associated tumors. Recently, we have established an in vitro model of dose-dependent generation of RET/PTC in human thyroid cells after exposure to radiation. This system will serve as an important tool for further studies of radiation-induced DNA damage and chromosomal rearrangements. In this proposal, we will test the hypotheses that RET/PTC rearrangement is a direct result of mis-rejoining of double-strand DNA breaks induced by radiation exposure. Specifically, we will characterize the frequency and spectrum of radiogenic breaks and rejoining kinetics in the RET gene region, test if one or two DNA breaks are required for the rearrangement, and compare the effects of irradiation and 1-131 on the generation of RET/PTC rearrangements. We will also determine the fate of cells after they acquire the rearrangement and will characterize the earliest stages of radiation-induced carcinogenesis initiated by various RET/PTC types. Finally, we will find whether these rearrangements are predisposed by altered function of several genes playing a central role in double-strand break repair in vitro. Then, we will test the role of alterations in these genes in predisposition to radiation-induced thyroid cancer in human populations. These studies will expand our understanding of the mechanisms of radiation-induced carcinogenesis and provide important information for radiation risk assessment and protection applicable to a variety of areas such as clinical use of external radiotherapy and I-131, occupational radiation exposure, space exploration, and radioprotection from potential accidents involving nuclear power reactors or radiological terrorism.

描述（由申请人提供）：电离辐射是一种众所周知的人类致癌物，与多种癌症有关，包括甲状腺癌、白血病、乳腺癌和软组织肉瘤。对辐射致癌的分子机制仍然知之甚少。已经积累了大量证据，支持染色体重排在辐射照射引发的致癌作用中的主导作用。由于电离辐射会诱导双链DNA断裂，因此可以想象，染色体重排是通过辐射产生的游离DNA末端的错误重新连接直接形成的，并且在细胞核中彼此靠近。在甲状腺癌中，RET/PTC重排通常通过染色体10 q的倒位形成，是辐射相关肿瘤的分子特征。最近，我们建立了一个剂量依赖性的产生RET/PTC在人甲状腺细胞暴露于辐射后的体外模型。该系统将成为进一步研究辐射引起的DNA损伤和染色体重排的重要工具。在这个建议中，我们将测试的假设，RET/PTC重排是一个直接的结果，错误的重新连接的双链DNA断裂辐射照射诱导。具体来说，我们将表征RET基因区域中放射性断裂和重新连接动力学的频率和光谱，测试重排是否需要一个或两个DNA断裂，并比较照射和1-131对RET/PTC重排产生的影响。我们还将确定细胞获得重排后的命运，并将表征各种RET/PTC类型引发的辐射诱导的致癌作用的最早阶段。最后，我们将发现这些重排是否倾向于改变功能的几个基因在体外双链断裂修复中发挥核心作用。然后，我们将测试这些基因的改变在人群中易患辐射诱导的甲状腺癌中的作用。这些研究将扩大我们对辐射致癌机制的理解，并为辐射风险评估和防护提供重要信息，适用于各种领域，如外部放射治疗和I-131的临床使用、职业辐射照射、空间探索以及防止涉及核电反应堆或放射性恐怖主义的潜在事故的辐射防护。