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COMMON AND RARE SEQUENCE VARIANTS IN BREAST CANCER RISK

乳腺癌风险中常见和罕见的序列变异

基本信息

批准号：
7677919
负责人：
Sean Vahram Tavtigian
金额：
$ 44万
依托单位：
INTERNATIONAL AGENCY FOR RES ON CANCER
依托单位国家：
美国
项目类别：
财政年份：
2007
资助国家：
美国
起止时间：
2007-09-30 至 2010-07-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7677919
关键词：
Accounting Address Affect Age Alleles BRCA1 gene BRCA2 gene Breast Cancer Genetics Cancer-Predisposing Gene Case Series Case-Control Studies Classification Clinical Code Communities Complex Computational Biology Data Data Analyses Diagnosis Disease Ethnic Origin Exons Family Family Study Family history of Flowcharts Frequencies Future Gene Mutation Gene Targeting Genealogy Genes Genetic Genetic Models for Cancer Genetic Predisposition to Disease Genetic Research Genetic Risk Genomics Genotype Goals Haplotypes Individual Inherited Link Mammary Neoplasms Maps Measures Modeling Mutation Open Reading Frames Play Population Population Attributable Risks Population Control Population Genetics Predisposition Process Public Health Publications RNA Splicing Rare Diseases Relative (related person)Research Design Research Personnel Resolution Resources Risk Role SNP genotyping Sampling Scanning Screening procedure Sequence Alignment Series Splice-Site Mutation Stratification Susceptibility Gene Testing Twin Studies Upper arm Ursidae Family Variant Woman Work base cancer genetics cancer risk case control clinical practice early onset gene discovery gene function genetic epidemiology genetic pedigree high risk interest malignant breast neoplasm melting neoplasm registry novel novel strategies population based programs segregation

项目摘要

DESCRIPTION (provided by applicant): Combining data from segregation analyses and mutation screening studies, the established breast cancer susceptibility genes are responsible for an estimated 20%-25% of the genetic component of this disease. The genes and/or sequence variants responsible for the remaining genetic component of breast cancer risk have yet to be identified. Most of the current enthusiasm for SNPs and haplotype mapping are predicated on the assumption that common modest risk variants are most important. However, few candidate associations between common SNPs and breast cancer risk have been independently reproduced. Thus the central question of this study: What is the relative contribution of common (usually modest-risk) sequence variants vs. rare (potentially higher-risk) sequence variants to the genetic attributable fraction of breast cancer? U Using an ethnically diverse series of 1,250 genetically high-risk breast cancer cases and 1,250 frequency-matched population controls, we propose a novel study designed to make a direct comparison between the common disease/ common variant and common disease/ rare variant models of genetic susceptibility. The study has two arms. In the first, we will genotype the cases and controls with all of the common- sequence variants that are known, or are found over the course of this study by the breast cancer genetics research community, to predict increased risk of breast cancer. In the second arm, we will mutation screen the open reading frames of strong candidate susceptibility genes in both the cases and the controls. Analysis of the genotype and mutation screening data should provide an answer to the central study question. Our focus on early onset and familial cases will substantially increase power to detect risk conferred by deleterious sequence variants as compared to a study of similar size without these criteria, fl Results from this study are relevant to public health in three ways: (1) This study will provide a hypothesis test of genes, and mutations in them, that appear to confer moderately to dramatically increased risk of breast cancer. Measuring risk due to mutations in these genes is a key step that lies between initial indications that the gene plays a role in breast cancer susceptibility and bringing the gene into the clinical practice of cancer genetics. (2) Results from this study will bear on the future direction of clinical cancer genetics. The relative contribution that moderate risk versus modest risk sequence variants make to the attributable risk of breast cancer will have an impact on how the genetic information enters clinical practice. (3) Analysis of the genotype and mutation screening data will provide a comparison of risk attributable to the common variant and rare variant genetic models of cancer susceptibility. This is a question of major current interest and importance within the genetics research community. If we observe that the rare sequence variants account for as much or more risk than do common SNPs, it may be necessary to expand mutation screening from the realm of genetic epidemiology/ family studies into larger scale population-based studies.

描述（由申请人提供）：结合分离分析和突变筛查研究的数据，确定的乳腺癌易感基因估计占该疾病遗传成分的20%-25%。负责乳腺癌风险的其余遗传成分的基因和/或序列变异尚未确定。目前对SNPs和单倍型作图的热情大多是基于这样的假设，即常见的中等风险变异是最重要的。然而，很少有候选人之间的共同SNPs和乳腺癌风险已独立再现。因此，本研究的中心问题是：常见（通常是中等风险）序列变异与罕见（潜在的高风险）序列变异对乳腺癌遗传归因分数的相对贡献是什么？使用一个种族多样的1,250例遗传高危乳腺癌病例和1,250例频率匹配的人群对照，我们提出了一项新的研究，旨在直接比较遗传易感性的常见疾病/常见变异和常见疾病/罕见变异模型。研究有两个分支。首先，我们将用所有已知的或在本研究过程中由乳腺癌遗传学研究团体发现的共同序列变异对病例和对照进行基因分型，以预测乳腺癌风险的增加。在第二组中，我们将在病例和对照中对强候选易感基因的开放阅读框架进行突变筛查。对基因型和突变筛查数据的分析应该为中心研究问题提供答案。与没有这些标准的类似规模的研究相比，我们对早发性和家族性病例的关注将大大增加检测有害序列变异带来的风险的能力。本研究的结果在三个方面与公共卫生相关：（1）本研究将提供基因及其突变的假设检验，这些基因及其突变似乎会中度至显著增加乳腺癌的风险。测量这些基因突变的风险是一个关键步骤，它位于该基因在乳腺癌易感性中起作用的初步迹象和将该基因纳入癌症遗传学的临床实践之间。(2)这项研究的结果将对临床癌症遗传学的未来方向产生影响。中度风险与中度风险序列变异对乳腺癌归因风险的相对贡献将对遗传信息如何进入临床实践产生影响。(3)基因型和突变筛查数据的分析将提供归因于癌症易感性的常见变异和罕见变异遗传模型的风险比较。这是遗传学研究界当前主要关注和重要的问题。如果我们观察到罕见的序列变异与常见的SNPs一样多或更多的风险，可能有必要将突变筛查从遗传流行病学/家族研究领域扩展到更大规模的基于人群的研究。