Holmegard H N, Benn M, Mehlsen J, Haunsø S
Laboratory of Molecular Cardiology, Rigshospitalet, Copenhagen University Hospital, Faculty of Health Sciences, University of Copenhagen, Copenhagen, Denmark.
Genet Mol Res. 2013 Jan 30;12(3):2601-10. doi: 10.4238/2013.January.30.6.
Reflex syncope is defined by a self-terminating transient loss of consciousness associated with an exaggerated response of the vagal reflexes upon orthostatic challenges. A hereditary component has previously been suggested. We hypothesized that variations in genes encoding proteins mediating the vagal signaling in the heart may be involved in reflex syncope pathogenesis. We systematically resequenced the entire coding regions and flanking intron sequences in 5 genes in the cardiac post-synaptic parasympathetic signaling pathway [muscarinic acetylcholine receptor M2 (CHRM2); G-protein beta-1 subunit (GNB1); G-protein gamma-2 subunit (GNG2); potassium inwardly rectifying channel, subfamily J, member 3 (KCNJ3); and potassium inwardly rectifying channel, subfamily J, member 5 (KCNJ5)] in 74 patients with well-characterized reflex syncope of either cardioinhibitory [Vasovagal Syncope International Study (VASIS-IIB), N = 38] or vasodepressor (VASIS-III, N = 36) type. We identified 2 novel genetic variants (CHRM2 c.1114C>G and GNG2 c.87+34G>A) and several known variants (GNB1: c.267+14G>A, c.267+19C>T, and c.738C>T; KCNJ3: c.119A>G, c.591C>T, c.1038T>C, and c.1494T>C; KCNJ5: c. 171T>C, c.810T>G, c.834T>C, c.844C>G, c.938+7C>T, and c.938-10G>A). The minor allele frequency of the KCNJ5 c.938+7C>T variant was significantly lower in patients than in the control group (0.014 versus 0.089, P = 0.001), and the frequency of heterozygosity and homozygosity was lower in cardioinhibitory patients compared to controls. Genetic variations in genes responsible for the vagal signaling in the heart, including CHRM2, GNB1, GNG2, KCNJ3, and KCNJ5, are not major contributors to the pathogenesis of reflex syncope of vasodepressor or cardioinhibitory types.
反射性晕厥的定义为与直立位应激时迷走反射过度反应相关的自限性短暂意识丧失。此前已提示存在遗传因素。我们推测,编码介导心脏迷走神经信号传导蛋白的基因变异可能参与反射性晕厥的发病机制。我们对74例已明确诊断为心脏抑制型(血管迷走性晕厥国际研究[VASIS-IIB],N = 38)或血管减压型(VASIS-III,N = 36)反射性晕厥患者的心脏突触后副交感神经信号传导途径中的5个基因(毒蕈碱型乙酰胆碱受体M2 [CHRM2];G蛋白β-1亚基[GNB1];G蛋白γ-2亚基[GNG2];内向整流钾通道家族J成员3 [KCNJ3];以及内向整流钾通道家族J成员5 [KCNJ5])的整个编码区及其侧翼内含子序列进行了系统重测序。我们鉴定出2个新的基因变异(CHRM2 c.1114C>G和GNG2 c.87+34G>A)以及几个已知变异(GNB1:c.267+14G>A、c.267+19C>T和c.738C>T;KCNJ3:c.119A>G、c.591C>T、c.1038T>C和c.1494T>C;KCNJ5:c.171T>C、c.810T>G、c.834T>C、c.844C>G、c.938+7C>T和c.938-10G>A)。KCNJ5 c.938+7C>T变异的次要等位基因频率在患者中显著低于对照组(0.014对0.089,P = 0.001),且心脏抑制型患者的杂合子和纯合子频率低于对照组。负责心脏迷走神经信号传导的基因(包括CHRM2、GNB1、GNG2、KCNJ3和KCNJ5)的基因变异并非血管减压型或心脏抑制型反射性晕厥发病机制的主要因素。
