与晚期心力衰竭相关的HSPB7和FRMD4B中的常见变异体。
Common variants in HSPB7 and FRMD4B associated with advanced heart failure.
作者信息
Cappola Thomas P, Li Mingyao, He Jing, Ky Bonnie, Gilmore Joan, Qu Liming, Keating Brendan, Reilly Muredach, Kim Cecelia E, Glessner Joseph, Frackelton Edward, Hakonarson Hakon, Syed Faisel, Hindes Anna, Matkovich Scot J, Cresci Sharon, Dorn Gerald W
机构信息
Penn Cardiovascular Institute, University of Pennsylvania School of Medicine, Philadelphia, USA.
出版信息
Circ Cardiovasc Genet. 2010 Apr;3(2):147-54. doi: 10.1161/CIRCGENETICS.109.898395. Epub 2010 Feb 2.
BACKGROUND
Heart failure results from abnormalities in multiple biological processes that contribute to cardiac dysfunction. We tested the hypothesis that inherited variation in genes of known importance to cardiovascular biology would thus contribute to heart failure risk.
METHODS AND RESULTS
We used the ITMAT/Broad/CARe cardiovascular single-nucleotide polymorphism array to screen referral populations of patients with advanced heart failure for variants in approximately 2000 genes of predicted importance to cardiovascular biology. Our design was a 2-stage case-control study. In stage 1, genotypes in Caucasian patients with heart failure (n=1590; ejection fraction, 32+/-16%) were compared with those in unaffected controls (n=577; ejection fraction, 67+/-8%) who were recruited from the same referral centers. Associations were tested for independent replication in stage 2 (308 cases and 2314 controls). Two intronic single-nucleotide polymorphisms showed replicated associations with all-cause heart failure as follows: rs1739843 in HSPB7 (combined P=3.09x10(-6)) and rs6787362 in FRMD4B (P=6.09x10(-6)). For both single-nucleotide polymorphisms, the minor allele was protective. In subgroup analyses, rs1739843 associated with both ischemic and nonischemic heart failure, whereas rs6787362 associated principally with ischemic heart failure. Linkage disequilibrium surrounding rs1739843 suggested that the causal variant resides in a region containing HSPB7 and a neighboring gene, CLCNKA, whereas the causal variant near rs6787362 is probably within FRMD4B. Allele frequencies for these single-nucleotide polymorphisms were substantially different in African Americans (635 cases and 714 controls) and showed no association with heart failure in this population.
CONCLUSIONS
Our findings identify regions containing HSPB7 and FRMD4B as novel susceptibility loci for advanced heart failure. More broadly, in an era of genome-wide association studies, we demonstrate how knowledge of candidate genes can be leveraged as a complementary strategy to discern the genetics of complex disorders.
背景
心力衰竭是由多种导致心脏功能障碍的生物学过程异常引起的。我们检验了这样一种假说,即对心血管生物学具有已知重要性的基因中的遗传变异会导致心力衰竭风险。
方法与结果
我们使用ITMAT/布罗德/心血管疾病研究(ITMAT/Broad/CARe)心血管单核苷酸多态性阵列,对晚期心力衰竭患者转诊人群中约2000个预测对心血管生物学具有重要性的基因的变异进行筛查。我们的设计是一项两阶段病例对照研究。在第1阶段,将白人心力衰竭患者(n = 1590;射血分数为32±16%)的基因型与从相同转诊中心招募的未受影响对照者(n = 577;射血分数为67±8%)的基因型进行比较。在第2阶段(308例病例和2314例对照)对关联进行独立重复检验。两个内含子单核苷酸多态性显示与全因心力衰竭存在重复关联,具体如下:HSPB7中的rs1739843(合并P = 3.09×10⁻⁶)和FRMD4B中的rs6787362(P = 6.09×10⁻⁶)。对于这两个单核苷酸多态性,次要等位基因具有保护作用。在亚组分析中,rs1739843与缺血性和非缺血性心力衰竭均相关,而rs6787362主要与缺血性心力衰竭相关。围绕rs1739843的连锁不平衡表明,因果变异位于包含HSPB7和邻近基因CLCNKA的区域,而rs6787362附近的因果变异可能在FRMD4B内。这些单核苷酸多态性的等位基因频率在非裔美国人(635例病例和714例对照)中存在显著差异,且在该人群中与心力衰竭无关联。
结论
我们的研究结果确定了包含HSPB7和FRMD4B的区域为晚期心力衰竭的新易感基因座。更广泛地说,在全基因组关联研究的时代,我们展示了如何利用候选基因知识作为一种补充策略来识别复杂疾病的遗传学机制。
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