The Role of Mitochondrial DNA Alterations in Cancer

线粒体 DNA 改变在癌症中的作用

• 批准号: 6822202
• 负责人: Lee-Jun C Wong
• 金额: $ 31.45万
• 依托单位: GEORGETOWN UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-09-01 至 2005-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6822202
• 关键词: apoptosis; bioenergetics; breast neoplasms; capillary electrophoresis; cell growth regulation; cell line; functional /structural genomics; gel electrophoresis; gene expression; gene mutation; genetic mapping; human genetic material tag; human tissue; mitochondrial DNA; neoplasm /cancer genetics; neoplastic growth; neoplastic transformation; oxidative phosphorylation; oxidative stress; phenotype; point mutation; polymerase chain reaction; tissue /cell culture

DESCRIPTION (provided by applicant): The importance of mitochondria in energy metabolism, generation of reactive oxygen species (ROS), aging, and the initiation of apoptosis, have suggested that mitochondria are indispensable integrators in the pathways of tumorigenesis. The close proximity of mitochondria to the ROS producing sites, the limited DNA repair capabilities, and the lack of protective histone proteins render high susceptibility of mtDNA to mutations. Somatic mitochondrial DNA (mtDNA) mutation has been reported in solid tumors including breast, lung, bladder, ovarian, and colon; and has been regarded as a general phenomenon of cancer. However, the functional significance of these mutations has never been investigated. Marked reduction in the cellular content of mitochondria associated with elevated glycolytic activity is an abnormal bio-energetic phenotype of cancer. Both down-regulated and elevated mitochondrial gene expression have been observed in neoplastic cells. Defective mitochondria in tumor cells are constantly under oxidative stress that would generate higher levels of ROS and cause more mutations in genes involved in the regulation of cell growth and ATP production. To this day, the role that mitochondria play in the development of cancer and in maintaining uncontrolled cell growth remains unknown. Recent reports on transmitochondrial cybrid studies demonstrated that mitochondria bearing mutations causing Leber's hereditary optic neuropathy (LHON) are more sensitive to apoptosis. Our hypothesis is that if there are mutant mitochondria that are more sensitive to cell death in neuro-degeneration disease, there will be mitochondrial DNA mutants in cancer cells that are more resistant to apoptosis. To support the hypothesis, we plan to (1) identify somatic mtDNA mutations by the analysis of the entire mitochondrial genome in normal/tumor pairs of breast carcinomas and cell lines, (2) evaluate the mtDNA content that reflects the biogenesis of mitochondria in tumor, (3) determine the potential functional significance of the mtDNA mutations, and (4) assess the effect of mutant mitochondria on cellular response to apoptotic treatment by using the transmitochondrial cybrid cell system. Results from this research project will help us understand the functional role of mitochondrial DNA alterations in cancer and identify potential novel targets for more effective therapeutic development.

描述（由申请人提供）：线粒体在能量代谢、活性氧（ROS）产生、衰老和细胞凋亡启动中的重要性表明，线粒体是肿瘤发生途径中不可或缺的整合剂。线粒体与ROS产生位点的紧密接近，有限的DNA修复能力，以及缺乏保护性组蛋白，使得mtDNA对突变高度敏感。体细胞线粒体DNA（mtDNA）突变已在包括乳腺、肺、膀胱、卵巢和结肠的实体肿瘤中报道;并且已被认为是癌症的普遍现象。然而，这些突变的功能意义从未被研究过。与糖酵解活性升高相关的线粒体细胞内容物的显著减少是癌症的异常生物能量表型。在肿瘤细胞中观察到线粒体基因表达下调和升高。肿瘤细胞中有缺陷的线粒体不断处于氧化应激下，这将产生更高水平的ROS，并导致参与细胞生长和ATP产生调控的基因发生更多突变。直到今天，线粒体在癌症发展和维持不受控制的细胞生长中的作用仍然未知。最近关于跨线粒体胞质杂交体研究的报告表明，携带导致Leber遗传性视神经病变（LHON）的突变的线粒体对细胞凋亡更敏感。我们的假设是，如果在神经退行性疾病中存在对细胞死亡更敏感的突变线粒体，那么在癌细胞中也会存在对细胞凋亡更具抵抗力的线粒体DNA突变体。为了支持这一假设，我们计划（1）通过分析乳腺癌和细胞系的正常/肿瘤对中的整个线粒体基因组来鉴定体细胞mtDNA突变，（2）评估反映肿瘤中线粒体生物发生的mtDNA含量，（3）确定mtDNA突变的潜在功能意义，和（4）通过使用transmitochondrialcybrid细胞系统评估突变线粒体对细胞对凋亡处理的细胞应答的影响。该研究项目的结果将帮助我们了解线粒体DNA改变在癌症中的功能作用，并确定潜在的新靶点，以进行更有效的治疗开发。