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Mutagenesis as a novel target for cancer prevention

诱变作为癌症预防的新靶点

基本信息

批准号：
7356396
负责人：
WILLIAM G MCGREGOR
金额：
$ 20.96万
依托单位：
UNIVERSITY OF LOUISVILLE
依托单位国家：
美国
项目类别：
财政年份：
2005
资助国家：
美国
起止时间：
2005-04-01 至 2010-02-28
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7356396
关键词：
Antisense RNA Appearance Carcinogen exposure Carcinogens Catalytic Domain Catalytic RNA Cell Nucleus Cell physiology Cells Complex Control Animal Cultured Cells Cytoplasm DNA DNA-Directed DNA Polymerase Data Development Disease Epigenetic Process Eukaryotic Cell Exposure to Fibroblasts Frequencies Gene Targeting Genes HPRT1 gene Human Hypoxanthine Phosphoribosyltransferase Inbred HRS Mice Incidence Induced Mutation Knowledge Lesion Lipids Malignant Neoplasms Measures Messenger RNA Methods Mus Mutagenesis Mutation Nuclear Plasmids Polymerase Preventive Proteins Protocols documentation Relative (related person)Reporter Genes Risk Role Skin Skin Cancer Skin Carcinogenesis Somatic Mutation Sunlight Symptoms System Testing Thinking Transgenic Mice Transgenic Organisms Translating Treatment Protocols Ultraviolet Rays cancer prevention expression vector gene therapy mouse model mutant novel plasmid DNA pol genes prevent promoter response sunlight-induced vector

项目摘要

DESCRIPTION (provided by applicant): The overall aim of this project is to apply new knowledge of fundamental mechanisms of mutagenesis to directly test the somatic mutation hypothesis of cancer, and to translate this knowledge into a clinically useful regimen to reduce the incidence of sunlight-associated skin cancer. Mutations in DNA are generally considered to have an etiologic role in the development of cancer, but until recently it has not been possible to directly examine the relative contribution of mutagenesis and epigenetic alterations in cellular physiology induced by carcinogen exposure. We hypothesize that mutations induced by ultraviolet light (UV) in the DNA of actively dividing skin cells are causally involved in skin carcinogenesis, and reducing the frequency of such mutations will reduce the risk of skin cancer induced by UV. There is now abundant evidence that virtually all mutations induced by UV in eukaryotic cells are dependent on the gene products encoded by the REV1 and REV3 genes. We showed further that targeting the mRNA of one of these genes (REV1) with gene-specific ribozymes virtually abolishes UV mutagenesis. To test our hypothesis, we propose to expose newly-developed REV3-depleted transgenic mice to UV. We anticipate that these mice will have a greatly reduced risk of developing skin cancer compared with control animals. Further, we propose to translate our data into a practical method to prevent UV-induced skin cancer. We will develop and optimize gene-specific ribozymes expressed in cultured cells using several different systems to target them to the cytoplasm or to the nucleus. Then, we propose to deliver such ribozyme expression vectors into mouse skin cells. These ribozymes will specifically target REV1 mRNA, a protein that may coordinate the activity of several proteins that are required for the mutagenic replication of UVdamaged DNA. The mice and the appropriate controls will be exposed to UV protocols that are known to induce skin cancer. Our hypothesis predicts that reducing the level of this protein will reduce the mutagenic response of skin cells to UV, and will result in a greatly reduced incidence of skin cancer. If so, these data will provide the experimental rationale to develop similar strategies to reduce the incidence of skin cancer in humans. Most importantly, such a strategy should be successful as a preventive measure after UV exposure and prior to appearance of disease symptoms.

项目描述（由申请人提供）：本项目的总体目标是应用诱变基本机制的新知识，直接测试癌症的体细胞突变假说，并将这些知识转化为临床有用的方案，以减少阳光相关皮肤癌的发病率。DNA突变通常被认为在癌症的发展中具有病因学作用，但直到最近，还不可能直接检查由致癌物暴露引起的细胞生理学中的突变和表观遗传改变的相对贡献。我们假设紫外线（UV）在活跃分裂的皮肤细胞DNA中诱导的突变与皮肤癌的发生有因果关系，减少这种突变的频率将降低紫外线诱发皮肤癌的风险。目前有大量证据表明，紫外线在真核细胞中诱导的几乎所有突变都依赖于REV1和REV3基因编码的基因产物。我们进一步表明，用基因特异性核酶靶向其中一个基因（REV1）的mRNA实际上消除了紫外线诱变。为了验证我们的假设，我们建议将新开发的rev3缺失转基因小鼠暴露于紫外线下。我们预计，与对照动物相比，这些小鼠患皮肤癌的风险将大大降低。此外，我们建议将我们的数据转化为一种实用的方法来预防紫外线引起的皮肤癌。我们将开发和优化在培养细胞中表达的基因特异性核酶，使用几种不同的系统将它们靶向到细胞质或细胞核。然后，我们建议将这种核酶表达载体传递到小鼠皮肤细胞中。这些核酶将专门针对REV1 mRNA，这种蛋白质可能协调紫外线损伤DNA的诱变复制所需的几种蛋白质的活性。这些小鼠和相应的对照组将暴露在已知会诱发皮肤癌的紫外线下。我们的假设预测，降低这种蛋白的水平会降低皮肤细胞对紫外线的致突变反应，从而大大降低皮肤癌的发病率。如果是这样，这些数据将为制定减少人类皮肤癌发病率的类似策略提供实验依据。最重要的是，这种策略作为紫外线照射后和疾病症状出现之前的预防措施应该是成功的。