Divers Jasmin, Palmer Nicholette D, Lu Lingyi, Register Thomas C, Carr J Jeffrey, Hicks Pamela J, Hightower R Caresse, Smith S Carrie, Xu Jianzhao, Cox Amanda J, Hruska Keith A, Bowden Donald W, Lewis Cora E, Heiss Gerardo, Province Michael A, Borecki Ingrid B, Kerr Kathleen F, Chen Y-D Ida, Palmas Walter, Rotter Jerome I, Wassel Christina L, Bertoni Alain G, Herrington David M, Wagenknecht Lynne E, Langefeld Carl D, Freedman Barry I
Departments of Biostatistical Sciences,Wake Forest School of Medicine, Winston-Salem, NC 27157-1053, USA.
Circ Cardiovasc Genet. 2013 Feb;6(1):97-105. doi: 10.1161/CIRCGENETICS.112.964114. Epub 2012 Dec 11.
The presence and severity of coronary artery calcified plaque (CAC) differs markedly between individuals of African and European descent, suggesting that admixture mapping may be informative for identifying genetic variants associated with subclinical cardiovascular disease.
Admixture mapping of CAC was performed in 1040 unrelated African Americans with type 2 diabetes mellitus from the African American-Diabetes Heart Study, Multi-Ethnic Study of Atherosclerosis and Family Heart Study using the Illumina custom ancestry informative marker panel. All cohorts obtained computed tomography scanning of the coronary arteries using identical protocols. For each ancestry informative marker, the probability of inheriting 0, 1, and 2 copies of a European-derived allele was determined. Linkage analysis was performed by testing for association between each ancestry informative marker using these probabilities and CAC, accounting for global ancestry, age, sex, and study. Markers on 1p32.3 in the GLIS1 gene (rs6663966, logarithm of odds [LOD]=3.7), 1q32.1 near CHIT1 (rs7530895, LOD=3.1), 4q21.2 near PRKG2 (rs1212373, LOD=3.0), and 11q25 in the OPCML gene (rs6590705, LOD=3.4) had statistically significant LOD scores, whereas markers on 8q22.2 (rs6994682, LOD=2.7), 9p21.2 (rs439314, LOD=2.7), and 13p32.1 (rs7492028, LOD=2.8) manifested suggestive evidence of linkage. These regions were uniformly characterized by higher levels of European ancestry associating with higher levels or odds of CAC. Findings were replicated in 1350 African Americans without diabetes mellitus and 2497 diabetic European Americans from Multi-Ethnic Study of Atherosclerosis and the Diabetes Heart Study.
Fine mapping these regions will likely identify novel genetic variants that contribute to CAC and clarify racial differences in susceptibility to subclinical cardiovascular disease.
非洲裔和欧洲裔个体之间冠状动脉钙化斑块(CAC)的存在情况和严重程度存在显著差异,这表明混合映射可能有助于识别与亚临床心血管疾病相关的基因变异。
利用Illumina定制的祖先信息标记面板,对来自非裔美国人糖尿病心脏研究、多民族动脉粥样硬化研究和家庭心脏研究的1040名无亲缘关系的非裔2型糖尿病患者进行了CAC的混合映射。所有队列均采用相同方案对冠状动脉进行计算机断层扫描。对于每个祖先信息标记,确定继承0、1和2个欧洲衍生等位基因拷贝的概率。通过使用这些概率测试每个祖先信息标记与CAC之间的关联进行连锁分析,同时考虑总体祖先、年龄、性别和研究因素。GLIS1基因中1p32.3的标记(rs6663966,优势对数[LOD]=3.7)、CHIT1附近1q32.1的标记(rs7530895,LOD=3.1)、PRKG2附近4q21.2的标记(rs1212373,LOD=3.0)以及OPCML基因中11q25的标记(rs6590705,LOD=3.4)具有统计学显著的LOD评分,而8q22.2(rs6994682,LOD=2.7)、9p21.2(rs439314,LOD=2.7)和13p32.1(rs7492028,LOD=2.8)的标记表现出连锁的提示性证据。这些区域的共同特征是欧洲血统水平越高,与CAC水平或发生几率越高相关。在多民族动脉粥样硬化研究和糖尿病心脏研究中的1350名非糖尿病非裔美国人和2497名糖尿病欧洲裔美国人中重复了这些发现。
对这些区域进行精细定位可能会识别出导致CAC的新基因变异,并阐明亚临床心血管疾病易感性的种族差异。