Larsen L A, Andersen P S, Kanters J, Svendsen I H, Jacobsen J R, Vuust J, Wettrell G, Tranebjaerg L, Bathen J, Christiansen M
Department of Clinical Biochemistry, Statens Serum Institut, Artillerivej 5, DK-2300 Copenhagen, Denmark.
Clin Chem. 2001 Aug;47(8):1390-5.
The voltage-gated, rapid-delayed rectifier current (I(Kr)) is important for repolarization of the heart, and mutations in the genes coding for the K+-ion channel conducting this current, i.e., KCNH2 for the alpha-subunit HERG and KCNE2 for the beta-subunit MiRP1, cause acquired and congenital long Q-T syndrome (LQTS) and other cardiac arrhythmias.
We developed a robust single-strand conformation polymorphism-heteroduplex screening analysis, with identical thermocycling conditions for all PCR reactions, covering all of the coding exons in KCNH2 and KCNE2. The method was used to screen 40 unrelated LQTS patients.
Eleven mutations, of which six were novel, were found in KCNH2. Interestingly, six mutations were found in the region of the gene coding for the Per-Arnt-Sim (PAS) and PAS-S1 regions of the HERG protein, stressing the need to examine the entire gene when screening for mutations. No mutations were found in KCNE2, suggesting that direct involvement of MiRP1 in LQTS is rare. Furthermore, four novel single-nucleotide polymorphisms (SNPs) and one amino acid polymorphism (R1047L) were identified in KCNH2, and one novel SNP and one previously known amino acid polymorphism (T8A) were found in KCNE2.
The potential role of rare polymorphisms in the HERG/MiRP1 K+-channel should be clarified with respect to drug interactions and susceptibility to arrhythmia and sudden death.
电压门控快速延迟整流钾电流(I(Kr))对心脏复极很重要,编码传导该电流的钾离子通道的基因突变,即钾通道亚基HERG的编码基因KCNH2和钾通道β亚基MiRP1的编码基因KCNE2,可导致获得性和先天性长QT综合征(LQTS)及其他心律失常。
我们开发了一种稳健的单链构象多态性 - 异源双链筛查分析方法,所有PCR反应的热循环条件相同,涵盖KCNH2和KCNE2的所有编码外显子。该方法用于筛查40例无关的LQTS患者。
在KCNH2中发现了11个突变,其中6个是新突变。有趣的是,在HERG蛋白的Per - Arnt - Sim(PAS)和PAS - S1区域编码基因区域发现了6个突变,强调了在筛查突变时检查整个基因的必要性。在KCNE2中未发现突变,表明MiRP1直接参与LQTS的情况很少见。此外,在KCNH2中鉴定出4个新的单核苷酸多态性(SNP)和1个氨基酸多态性(R1047L),在KCNE2中发现了1个新的SNP和1个先前已知的氨基酸多态性(T8A)。
应就药物相互作用以及心律失常和猝死易感性阐明HERG/MiRP1钾通道中罕见多态性的潜在作用。
