Sedlacek Kamil, Stark Klaus, Cunha Shane R, Pfeufer Arne, Weber Stefan, Berger Iris, Perz Siegfried, Kääb Stefan, Wichmann Hans-Erich, Mohler Peter J, Hengstenberg Christian, Jeron Andreas
Klinik und Poliklinik für Innere Medizin II, Universitätsklinikum Regensburg, Regensburg, Germany.
Circ Cardiovasc Genet. 2008 Dec;1(2):93-9. doi: 10.1161/CIRCGENETICS.108.792192. Epub 2008 Dec 9.
Spatial and timely variations in QT interval, even within its normal range, may underlie susceptibility to cardiac arrhythmias and sudden cardiac death. Given its important role in cardiac electrophysiology, we hypothesized that common genetic variation in ankyrin-B gene (ANK2) might modify QT interval length.
The study population consisted of 1188 participants of the World Health Organizational Multinational Monitoring of Trends and Determinants in Cardiovascular Disease (WHO MONICA) general population survey Cooperative Health Research in the Region of Augsburg (KORA S3). Corrected QT interval was calculated using population specific linear regression formulas. A total of 22 single-nucleotide polymorphisms in the genomic region of ANK2 gene were genotyped using TaqMan technology. In a replication study, 6 single nucleotide polymorphisms were genotyped in 3890 individuals from a second population study (KORA S4). The rare variant of the single-nucleotide polymorphism rs6850768 (allele frequency, 0.28) significantly influenced duration of the QT interval, both in KORA S3 and KORA S4 populations. In homozygotes, the shortening of the QT interval was 3.79 ms (95% CI, 1.48 to 5.58; P=0.001 and P=0.0008 for log-additive and dominant model, respectively) in KORA S3 and 2.94 ms (95% CI, 1.11 to 4.77; P=0.001 and P=0.006 for log-additive and dominant genetic model, respectively) in KORA S4. A common 2-locus haplotype (rs11098171-rs6850768; population frequency, 28%) was associated with a QT interval difference of 2.85 ms (permutation; P=0.006) in KORA S3 and 1.23 ms (permutation; P=0.009) in KORA S4. Reverse transcription-polymerase chain reaction expression analysis of the human ANK2 5' genomic region in the human left ventricular tissue revealed 2 previously unidentified ANK2 5' exons in the proximity of the identified variants.
Common genetic variants juxtaposed with novel exons in the distant 5' genomic region of ANK2 influence the QT interval length in the general population. These findings support the role of ankyrin-B in normal cardiac electric activity.
QT间期的空间和时间变化,即使在其正常范围内,也可能是心律失常易感性和心源性猝死的基础。鉴于其在心脏电生理学中的重要作用,我们推测锚蛋白B基因(ANK2)的常见基因变异可能会改变QT间期长度。
研究人群包括世界卫生组织心血管疾病趋势和决定因素多国监测(WHO MONICA)一般人群调查奥格斯堡地区合作健康研究(KORA S3)的1188名参与者。使用特定人群的线性回归公式计算校正QT间期。使用TaqMan技术对ANK2基因基因组区域内的22个单核苷酸多态性进行基因分型。在一项重复研究中,对来自第二项人群研究(KORA S4)的3890名个体的6个单核苷酸多态性进行基因分型。单核苷酸多态性rs6850768的罕见变异(等位基因频率为0.28)在KORA S3和KORA S4人群中均显著影响QT间期的时长。在纯合子中,KORA S3人群的QT间期缩短3.79毫秒(95%可信区间,1.48至5.58;对数加性模型和显性模型的P值分别为0.001和0.0008),KORA S4人群的QT间期缩短2.94毫秒(95%可信区间,1.11至4.77;对数加性遗传模型和显性遗传模型的P值分别为0.001和0.006)。一种常见的双位点单倍型(rs11098171-rs6850768;人群频率为28%)与KORA S3人群中2.85毫秒的QT间期差异相关(置换;P=0.006),与KORA S4人群中1.23毫秒的QT间期差异相关(置换;P=0.009)。对人左心室组织中人类ANK2 5'基因组区域进行逆转录-聚合酶链反应表达分析,在已鉴定变异附近发现了2个先前未鉴定的ANK2 5'外显子。
ANK2基因5'端远距离基因组区域中与新外显子并列的常见基因变异影响一般人群的QT间期长度。这些发现支持了锚蛋白B在正常心脏电活动中的作用。
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