Literature DB >> 21321465

Identification of six novel SCN5A mutations in Japanese patients with Brugada syndrome.

Tadashi Nakajima1, Yoshiaki Kaneko, Akihiro Saito, Tadanobu Irie, Shoichi Tange, Tatsuya Iso, Masahiko Kurabayashi.   

Abstract

Mutations in SCN5A are linked to Brugada syndrome in approximately 20% of all cases (BrS1). Several dozen distinct SCN5A mutations in BrS1 have been associated with the increased risk of cardiac arrhythmias. However, the genotype-phenotype relationship remains elusive. The current study analyzed the SCN5A gene to elucidate the potential variability of clinical features in Japanese BrS1 subjects. Subjects of the present study included 30 probands (25 male subjects, 45 ± 15 years of age) with Brugada-pattern ECG. Seven patients had been resuscitated from cardiopulmonary arrest (CPA group). Another 10 patients had a history of syncope (Sy group), and 13 more remain asymptomatic (Asy group). We identified 8 different SCN5A mutations, including 6 novel mutations (CPA group: 1/7, Sy group: 3/10, Asy group: 4/13). An A735E mutation (located at segment (S)1 in domain (D)2) was identified in the CPA group. A novel splice acceptor site mutation (c.393-1c>t), which may produce a prematurely truncated protein, was identified in the Sy group. An E1784K mutation (C-terminus) and a novel mutation V1951M (C-terminus) were also identified in the Sy group. Four novel missense mutations, A586T (D1-D2 linker), R689H (D1-D2 linker), S1553R (S1-S2 in D4), and Q1706H (S5-Pore in D4) were identified in the Asy group. These data may help us understand the genetic heterogeneity of BrS1, which is more prevalent in Japanese than in whites and other ethnic groups.

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Year:  2011        PMID: 21321465     DOI: 10.1536/ihj.52.27

Source DB:  PubMed          Journal:  Int Heart J        ISSN: 1349-2365            Impact factor:   1.862


  12 in total

1.  Infant sudden death: Mutations responsible for impaired Nav1.5 channel trafficking and function.

Authors:  Ivan Gando; Jace Morganstein; Kundan Jana; Thomas V McDonald; Yingying Tang; William A Coetzee
Journal:  Pacing Clin Electrophysiol       Date:  2017-05-16       Impact factor: 1.976

2.  Next-generation sequencing of 34 genes in sudden unexplained death victims in forensics and in patients with channelopathic cardiac diseases.

Authors:  C L Hertz; S L Christiansen; L Ferrero-Miliani; S L Fordyce; M Dahl; A G Holst; G L Ottesen; R Frank-Hansen; H Bundgaard; N Morling
Journal:  Int J Legal Med       Date:  2014-12-03       Impact factor: 2.686

3.  Concomitant Brugada-like and short QT electrocardiogram linked to SCN5A mutation.

Authors:  Kui Hong; Jinzhu Hu; Jianhua Yu; Ramon Brugada
Journal:  Eur J Hum Genet       Date:  2012-04-11       Impact factor: 4.246

4.  ABCC9 is a novel Brugada and early repolarization syndrome susceptibility gene.

Authors:  Dan Hu; Hector Barajas-Martínez; Andre Terzic; Sungjo Park; Ryan Pfeiffer; Elena Burashnikov; Yuesheng Wu; Martin Borggrefe; Christian Veltmann; Rainer Schimpf; John J Cai; Gi-Byong Nam; Pramod Deshmukh; Melvin Scheinman; Mark Preminger; Jonathan Steinberg; Angélica López-Izquierdo; Daniela Ponce-Balbuena; Christian Wolpert; Michel Haïssaguerre; José Antonio Sánchez-Chapula; Charles Antzelevitch
Journal:  Int J Cardiol       Date:  2014-01-04       Impact factor: 4.164

5.  Genetic and forensic implications in epilepsy and cardiac arrhythmias: a case series.

Authors:  Sara Partemi; Monica Coll Vidal; Pasquale Striano; Oscar Campuzano; Catarina Allegue; Marianna Pezzella; Maurizio Elia; Pasquale Parisi; Vincenzo Belcastro; Susanna Casellato; Lucio Giordano; Massimo Mastrangelo; Nicola Pietrafusa; Salvatore Striano; Federico Zara; Amedeo Bianchi; Daniela Buti; Angela La Neve; Carlo Alberto Tassinari; Antonio Oliva; Ramon Brugada
Journal:  Int J Legal Med       Date:  2014-08-15       Impact factor: 2.686

6.  Reduced current density, partially rescued by mexiletine, and depolarizing shift in activation of SCN5A W374G channels as a cause of severe form of Brugada syndrome.

Authors:  Tadashi Nakajima; Tommy Dharmawan; Reika Kawabata-Iwakawa; Shuntaro Tamura; Hiroshi Hasegawa; Takashi Kobari; Masaki Ota; Shoichi Tange; Masahiko Nishiyama; Yoshiaki Kaneko; Masahiko Kurabayashi
Journal:  Ann Noninvasive Electrocardiol       Date:  2021-01-19       Impact factor: 1.468

7.  Comprehensive Genetic Characterization of a Spanish Brugada Syndrome Cohort.

Authors:  Elisabet Selga; Oscar Campuzano; Mel Lina Pinsach-Abuin; Alexandra Pérez-Serra; Irene Mademont-Soler; Helena Riuró; Ferran Picó; Mònica Coll; Anna Iglesias; Sara Pagans; Georgia Sarquella-Brugada; Paola Berne; Begoña Benito; Josep Brugada; José M Porres; Matilde López Zea; Víctor Castro-Urda; Ignacio Fernández-Lozano; Ramon Brugada
Journal:  PLoS One       Date:  2015-07-14       Impact factor: 3.240

8.  Pilsicainide Administration Unmasks a Phenotype of Brugada Syndrome in a Patient with Overlap Syndrome due to the E1784K SCN5A Mutation.

Authors:  Hideyuki Hasebe; Tomoyo Yokoya; Nobuyuki Murakoshi; Nobutake Kurebayashi
Journal:  Intern Med       Date:  2019-09-03       Impact factor: 1.271

9.  A descriptive report on short QT interval in Kherameh branch of the PERSIAN cohort study.

Authors:  Mohammad Hossein Nikoo; Alireza Heiran; Fardin Mashayekh; Abbas Rezaianzadeh; Abbas Shiravani; Fatemeh Azadian
Journal:  Sci Rep       Date:  2022-02-21       Impact factor: 4.379

10.  Further Insights in the Most Common SCN5A Mutation Causing Overlapping Phenotype of Long QT Syndrome, Brugada Syndrome, and Conduction Defect.

Authors:  Christian Veltmann; Hector Barajas-Martinez; Christian Wolpert; Martin Borggrefe; Rainer Schimpf; Ryan Pfeiffer; Gabriel Cáceres; Elena Burashnikov; Charles Antzelevitch; Dan Hu
Journal:  J Am Heart Assoc       Date:  2016-07-05       Impact factor: 5.501
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