TY - JOUR
T1 - Functionally validated SCN5A variants allow interpretation of pathogenicity and prediction of lethal events in Brugada syndrome
AU - Ishikawa, Taisuke
AU - Kimoto, Hiroki
AU - Mishima, Hiroyuki
AU - Yamagata, Kenichiro
AU - Ogata, Soshiro
AU - Aizawa, Yoshiyasu
AU - Hayashi, Kenshi
AU - Morita, Hiroshi
AU - Nakajima, Tadashi
AU - Nakano, Yukiko
AU - Nagase, Satoshi
AU - Murakoshi, Nobuyuki
AU - Kowase, Shinya
AU - Ohkubo, Kimie
AU - Aiba, Takeshi
AU - Morimoto, Shimpei
AU - Ohno, Seiko
AU - Kamakura, Shiro
AU - Nogami, Akihiko
AU - Takagi, Masahiko
AU - Karakachoff, Matilde
AU - Dina, Christian
AU - Schott, Jean Jacques
AU - Yoshiura, Koh Ichiro
AU - Horie, Minoru
AU - Shimizu, Wataru
AU - Nishimura, Kunihiro
AU - Kusano, Kengo
AU - Makita, Naomasa
N1 - Publisher Copyright:
© 2021 Published on behalf of the European Society of Cardiology. All rights reserved.
PY - 2021/8/1
Y1 - 2021/8/1
N2 - Aims: The prognostic value of genetic variants for predicting lethal arrhythmic events (LAEs) in Brugada syndrome (BrS) remains controversial. We investigated whether the functional curation of SCN5A variations improves prognostic predictability. Methods and results: Using a heterologous expression system and whole-cell patch clamping, we functionally characterized 22 variants of unknown significance (VUSs) among 55 SCN5A mutations previously curated using in silico prediction algorithms in the Japanese BrS registry (n = 415). According to the loss-of-function (LOF) properties, SCN5A mutation carriers (n = 60) were divided into two groups: LOF-SCN5A mutations and non-LOF SCN5A variations. Functionally proven LOF-SCN5A mutation carriers (n = 45) showed significantly severer electrocardiographic conduction abnormalities and worse prognosis associated with earlier manifestations of LAEs (7.9%/year) than in silico algorithm-predicted SCN5A carriers (5.1%/year) or all BrS probands (2.5%/year). Notably, non-LOF SCN5A variation carriers (n = 15) exhibited no LAEs during the follow-up period. Multivariate analysis demonstrated that only LOF-SCN5A mutations and a history of aborted cardiac arrest were significant predictors of LAEs. Gene-based association studies using whole-exome sequencing data on another independent SCN5A mutation-negative BrS cohort (n = 288) showed no significant enrichment of rare variants in 16 985 genes including 22 non-SCN5A BrS-associated genes as compared with controls (n = 372). Furthermore, rare variations of non-SCN5A BrS-associated genes did not affect LAE-free survival curves. Conclusion: In vitro functional validation is key to classifying the pathogenicity of SCN5A VUSs and for risk stratification of genetic predictors of LAEs. Functionally proven LOF-SCN5A mutations are genetic burdens of sudden death in BrS, but evidence for other BrS-associated genes is elusive.
AB - Aims: The prognostic value of genetic variants for predicting lethal arrhythmic events (LAEs) in Brugada syndrome (BrS) remains controversial. We investigated whether the functional curation of SCN5A variations improves prognostic predictability. Methods and results: Using a heterologous expression system and whole-cell patch clamping, we functionally characterized 22 variants of unknown significance (VUSs) among 55 SCN5A mutations previously curated using in silico prediction algorithms in the Japanese BrS registry (n = 415). According to the loss-of-function (LOF) properties, SCN5A mutation carriers (n = 60) were divided into two groups: LOF-SCN5A mutations and non-LOF SCN5A variations. Functionally proven LOF-SCN5A mutation carriers (n = 45) showed significantly severer electrocardiographic conduction abnormalities and worse prognosis associated with earlier manifestations of LAEs (7.9%/year) than in silico algorithm-predicted SCN5A carriers (5.1%/year) or all BrS probands (2.5%/year). Notably, non-LOF SCN5A variation carriers (n = 15) exhibited no LAEs during the follow-up period. Multivariate analysis demonstrated that only LOF-SCN5A mutations and a history of aborted cardiac arrest were significant predictors of LAEs. Gene-based association studies using whole-exome sequencing data on another independent SCN5A mutation-negative BrS cohort (n = 288) showed no significant enrichment of rare variants in 16 985 genes including 22 non-SCN5A BrS-associated genes as compared with controls (n = 372). Furthermore, rare variations of non-SCN5A BrS-associated genes did not affect LAE-free survival curves. Conclusion: In vitro functional validation is key to classifying the pathogenicity of SCN5A VUSs and for risk stratification of genetic predictors of LAEs. Functionally proven LOF-SCN5A mutations are genetic burdens of sudden death in BrS, but evidence for other BrS-associated genes is elusive.
KW - Brugada syndrome
KW - Lethal arrhythmia
KW - Patch-clamp
KW - SCN5A mutations
KW - Variants of unknown significance
KW - Whole-exome sequencing
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U2 - 10.1093/eurheartj/ehab254
DO - 10.1093/eurheartj/ehab254
M3 - Article
C2 - 34219138
AN - SCOPUS:85112245584
SN - 0195-668X
VL - 42
SP - 2854
EP - 2863
JO - European heart journal
JF - European heart journal
IS - 29
ER -