A Novel Missense Mutation, I890T, in the Pore Region of Cardiac Sodium Channel Causes Brugada Syndrome

Brugada syndrome (BrS) is a life-threatening, inherited arrhythmogenic syndrome associated with autosomal dominant mutations in SCN5A, the gene encoding the cardiac Na(+) channel alpha subunit (Na(v)1.5). The aim of this work was to characterize the functional alterations caused by a novel SCN5A mut...

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Autores principales: Tarradas, Anna, Selga, Elisabet, Beltran-Alvarez, Pedro, Pérez-Serra, Alexandra, Riuró, Helena, Picó, Ferran, Iglesias, Anna, Campuzano, Oscar, Castro-Urda, Víctor, Fernández-Lozano, Ignacio, Pérez, Guillermo J., Scornik, Fabiana S., Brugada, Ramon
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Public Library of Science 2013
Materias:
Research Article
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3538753/
https://www.ncbi.nlm.nih.gov/pubmed/23308164
http://dx.doi.org/10.1371/journal.pone.0053220
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author Tarradas, Anna
Selga, Elisabet
Beltran-Alvarez, Pedro
Pérez-Serra, Alexandra
Riuró, Helena
Picó, Ferran
Iglesias, Anna
Campuzano, Oscar
Castro-Urda, Víctor
Fernández-Lozano, Ignacio
Pérez, Guillermo J.
Scornik, Fabiana S.
Brugada, Ramon
author_facet Tarradas, Anna
Selga, Elisabet
Beltran-Alvarez, Pedro
Pérez-Serra, Alexandra
Riuró, Helena
Picó, Ferran
Iglesias, Anna
Campuzano, Oscar
Castro-Urda, Víctor
Fernández-Lozano, Ignacio
Pérez, Guillermo J.
Scornik, Fabiana S.
Brugada, Ramon
author_sort Tarradas, Anna
collection PubMed
description Brugada syndrome (BrS) is a life-threatening, inherited arrhythmogenic syndrome associated with autosomal dominant mutations in SCN5A, the gene encoding the cardiac Na(+) channel alpha subunit (Na(v)1.5). The aim of this work was to characterize the functional alterations caused by a novel SCN5A mutation, I890T, and thus establish whether this mutation is associated with BrS. The mutation was identified by direct sequencing of SCN5A from the proband’s DNA. Wild-type (WT) or I890T Na(v)1.5 channels were heterologously expressed in human embryonic kidney cells. Sodium currents were studied using standard whole cell patch-clamp protocols and immunodetection experiments were performed using an antibody against human Na(v)1.5 channel. A marked decrease in current density was observed in cells expressing the I890T channel (from −52.0±6.5 pA/pF, n = 15 to −35.9±3.4 pA/pF, n = 22, at −20 mV, WT and I890T, respectively). Moreover, a positive shift of the activation curve was identified (V (1/2) = −32.0±0.3 mV, n = 18, and −27.3±0.3 mV, n = 22, WT and I890T, respectively). No changes between WT and I890T currents were observed in steady-state inactivation, time course of inactivation, slow inactivation or recovery from inactivation parameters. Cell surface protein biotinylation analyses confirmed that Na(v)1.5 channel membrane expression levels were similar in WT and I890T cells. In summary, our data reveal that the I890T mutation, located within the pore of Na(v)1.5, causes an evident loss-of-function of the channel. Thus, the BrS phenotype observed in the proband is most likely due to this mutation.
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spelling pubmed-35387532013-01-10 A Novel Missense Mutation, I890T, in the Pore Region of Cardiac Sodium Channel Causes Brugada Syndrome Tarradas, Anna Selga, Elisabet Beltran-Alvarez, Pedro Pérez-Serra, Alexandra Riuró, Helena Picó, Ferran Iglesias, Anna Campuzano, Oscar Castro-Urda, Víctor Fernández-Lozano, Ignacio Pérez, Guillermo J. Scornik, Fabiana S. Brugada, Ramon PLoS One Research Article Brugada syndrome (BrS) is a life-threatening, inherited arrhythmogenic syndrome associated with autosomal dominant mutations in SCN5A, the gene encoding the cardiac Na(+) channel alpha subunit (Na(v)1.5). The aim of this work was to characterize the functional alterations caused by a novel SCN5A mutation, I890T, and thus establish whether this mutation is associated with BrS. The mutation was identified by direct sequencing of SCN5A from the proband’s DNA. Wild-type (WT) or I890T Na(v)1.5 channels were heterologously expressed in human embryonic kidney cells. Sodium currents were studied using standard whole cell patch-clamp protocols and immunodetection experiments were performed using an antibody against human Na(v)1.5 channel. A marked decrease in current density was observed in cells expressing the I890T channel (from −52.0±6.5 pA/pF, n = 15 to −35.9±3.4 pA/pF, n = 22, at −20 mV, WT and I890T, respectively). Moreover, a positive shift of the activation curve was identified (V (1/2) = −32.0±0.3 mV, n = 18, and −27.3±0.3 mV, n = 22, WT and I890T, respectively). No changes between WT and I890T currents were observed in steady-state inactivation, time course of inactivation, slow inactivation or recovery from inactivation parameters. Cell surface protein biotinylation analyses confirmed that Na(v)1.5 channel membrane expression levels were similar in WT and I890T cells. In summary, our data reveal that the I890T mutation, located within the pore of Na(v)1.5, causes an evident loss-of-function of the channel. Thus, the BrS phenotype observed in the proband is most likely due to this mutation. Public Library of Science 2013-01-07 /pmc/articles/PMC3538753/ /pubmed/23308164 http://dx.doi.org/10.1371/journal.pone.0053220 Text en © 2013 Tarradas et al http://creativecommons.org/licenses/by/4.0/ This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are properly credited.
spellingShingle Research Article
Tarradas, Anna
Selga, Elisabet
Beltran-Alvarez, Pedro
Pérez-Serra, Alexandra
Riuró, Helena
Picó, Ferran
Iglesias, Anna
Campuzano, Oscar
Castro-Urda, Víctor
Fernández-Lozano, Ignacio
Pérez, Guillermo J.
Scornik, Fabiana S.
Brugada, Ramon
A Novel Missense Mutation, I890T, in the Pore Region of Cardiac Sodium Channel Causes Brugada Syndrome
title A Novel Missense Mutation, I890T, in the Pore Region of Cardiac Sodium Channel Causes Brugada Syndrome
title_full A Novel Missense Mutation, I890T, in the Pore Region of Cardiac Sodium Channel Causes Brugada Syndrome
title_fullStr A Novel Missense Mutation, I890T, in the Pore Region of Cardiac Sodium Channel Causes Brugada Syndrome
title_full_unstemmed A Novel Missense Mutation, I890T, in the Pore Region of Cardiac Sodium Channel Causes Brugada Syndrome
title_short A Novel Missense Mutation, I890T, in the Pore Region of Cardiac Sodium Channel Causes Brugada Syndrome
title_sort novel missense mutation, i890t, in the pore region of cardiac sodium channel causes brugada syndrome
topic Research Article
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3538753/
https://www.ncbi.nlm.nih.gov/pubmed/23308164
http://dx.doi.org/10.1371/journal.pone.0053220
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