BACKGROUND: Brugada syndrome (BrS) is an inherited disease characterized by right precordial ST segment elevation on electrocardiograms (ECGs) that predisposes patients to sudden cardiac death as a result of polymorphic ventricular tachyarrhythmia or ventricular fibrillation (VF). In BrS patients, except for SCN5A, mutations in other responsible genes are poorly elucidated. METHODS AND RESULTS: We identified 4 KCNH2 mutations, T152I, R164C, W927G, and R1135H, in 236 consecutive probands with BrS or Brugada-like ECG. Three of these mutation carriers showed QTc intervals shorter than 360 milliseconds and 1 experienced VF. We performed patch-clamp analyses on I(Kr) reconstituted with the KCNH2 mutations in Chinese hamster ovary cells and compared the phenotypes of the patients with different genotypes. Three mutations, R164C, W927G, and R1135H, increased I(Kr) densities. Three mutations, T152I, R164C, and W927G, caused a negative shift in voltage-dependent activation curves. Only the R1135H mutant channel prolonged the deactivation time constants. We also identified 20 SCN5A and 5 CACNA1C mutation carriers in our cohort. Comparison of probands' phenotypes with 3 different genotypes revealed that KCNH2 mutation carriers showed shorter QTc intervals and SCN5A mutation carriers had longer QRS durations. CONCLUSIONS: All KCNH2 mutations that we identified in probands with BrS exerted gain-of-function effects on I(Kr) channels, which may partially explain the ECG findings in our patients.
BACKGROUND:Brugada syndrome (BrS) is an inherited disease characterized by right precordial ST segment elevation on electrocardiograms (ECGs) that predisposes patients to sudden cardiac death as a result of polymorphic ventricular tachyarrhythmia or ventricular fibrillation (VF). In BrS patients, except for SCN5A, mutations in other responsible genes are poorly elucidated. METHODS AND RESULTS: We identified 4 KCNH2 mutations, T152I, R164C, W927G, and R1135H, in 236 consecutive probands with BrS or Brugada-like ECG. Three of these mutation carriers showed QTc intervals shorter than 360 milliseconds and 1 experienced VF. We performed patch-clamp analyses on I(Kr) reconstituted with the KCNH2 mutations in Chinese hamster ovary cells and compared the phenotypes of the patients with different genotypes. Three mutations, R164C, W927G, and R1135H, increased I(Kr) densities. Three mutations, T152I, R164C, and W927G, caused a negative shift in voltage-dependent activation curves. Only the R1135H mutant channel prolonged the deactivation time constants. We also identified 20 SCN5A and 5 CACNA1C mutation carriers in our cohort. Comparison of probands' phenotypes with 3 different genotypes revealed that KCNH2 mutation carriers showed shorter QTc intervals and SCN5A mutation carriers had longer QRS durations. CONCLUSIONS: All KCNH2 mutations that we identified in probands with BrS exerted gain-of-function effects on I(Kr) channels, which may partially explain the ECG findings in our patients.
Authors: Lei Huang; Shuangbo Tang; Yili Chen; Liyong Zhang; Kun Yin; Yeda Wu; Jinxiang Zheng; Qiuping Wu; Jonathan C Makielski; Jianding Cheng Journal: Int J Legal Med Date: 2016-12-28 Impact factor: 2.686
Authors: Gary Tse; Tong Liu; Ka H C Li; Victoria Laxton; Yin W F Chan; Wendy Keung; Ronald A Li; Bryan P Yan Journal: Front Physiol Date: 2016-10-18 Impact factor: 4.566
Authors: Jean-Baptiste Gourraud; Julien Barc; Aurélie Thollet; Solena Le Scouarnec; Hervé Le Marec; Jean-Jacques Schott; Richard Redon; Vincent Probst Journal: Front Cardiovasc Med Date: 2016-04-25
Authors: Irene Mademont-Soler; Mel Lina Pinsach-Abuin; Helena Riuró; Jesus Mates; Alexandra Pérez-Serra; Mònica Coll; José Manuel Porres; Bernat Del Olmo; Anna Iglesias; Elisabet Selga; Ferran Picó; Sara Pagans; Carles Ferrer-Costa; Geòrgia Sarquella-Brugada; Elena Arbelo; Sergi Cesar; Josep Brugada; Óscar Campuzano; Ramon Brugada Journal: PLoS One Date: 2016-09-29 Impact factor: 3.240