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From GWAS to function: genetic variation in sodium channel gene enhancer influences electrical patterning

van den Boogaard, Malou
Barnett, Phil
Christoffels, Vincent M.

Publication date

January 2014

DOI

10.1016/j.tcm.2013.09.001

Publisher

Elsevier BV

ISSN

1050-1738

Citation count (estimate)

6

Abstract

The electrical activity of the heart depends on the correct interplay between key transcription factors and cis-regulatory elements, which together regulate the proper heterogeneous expression of genes encoding for ion channels and other proteins. Genome-wide association studies of ECG parameters implicated genetic variants in the genes for these factors and ion channels modulating conduction and depolarization. Here, we review recent insights into the regulation of localized expression of ion channel genes and the mechanism by which a single-nucleotide polymorphism (SNP) associated with alterations in cardiac conduction patterns in humans affects the transcriptional regulation of the sodium channel genes, SCN5A and SCN10A. The identificati...

Extracted data

Related items

The cardiac sodium channel gene SCN5A and its gene product NaV1.5: Role in physiology and pathophysiology

Veerman, Christiaan C.
Wilde, Arthur A. M.
Lodder, Elisabeth M.

January 2015

The gene SCN5A encodes the main cardiac sodium channel NaV1.5. This channel predominates the cardiac...

Developmental aspects of cardiac arrhythmogenesis

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The transcriptional regulation orchestrating the development of the heart is increasingly recognized...

Pharmacogenetics and cardiac ion channels

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Ion channels control electrical excitability in living cells. In mammalian heart, the opposing actio...

Transcriptional control of ion channel genes in arrhythmogenesis

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Genetic variation in T-box binding element functionally affects SCN5A/SCN10A enhancer

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Anand, Praveen
Yacoub, Magdi
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Elliott, Paul
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Schulze-Bahr, E.
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Wilde, A.A.
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Bezzina, C.R.

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The cardiac sodium channel gene SCN5A and its gene product NaV1.5: Role in physiology and pathophysiology

Veerman, Christiaan C.
Wilde, Arthur A. M.
Lodder, Elisabeth M.

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The gene SCN5A encodes the main cardiac sodium channel NaV1.5. This channel predominates the cardiac...

Developmental aspects of cardiac arrhythmogenesis

Postma, Alex V.
Christoffels, Vincent M.
Bezzina, Connie R.

January 2011

The transcriptional regulation orchestrating the development of the heart is increasingly recognized...

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Roepke, T.K.
Abbott, G.W.

February 2006

Ion channels control electrical excitability in living cells. In mammalian heart, the opposing actio...

Transcriptional control of ion channel genes in arrhythmogenesis

van den Boogaard, M.

January 2017

The coordinated contraction of the heart relies on proper functioning of ion channels that generate ...

Genetic variation in T-box binding element functionally affects SCN5A/SCN10A enhancer

van den Boogaard, M.
Wong, L.Y.
Tessadori, F.
Bakker, M.L.
Dreizehnter, L.K.
Wakker, V.
Bezzina, C.R.
't Hoen, P.A.
Bakkers, J.
Barnett, P.
Christoffels, V.M.

January 2012

The contraction pattern of the heart relies on the activation and conduction of the electrical impul...

Common Coding Variants in SCN10A Are Associated With the Nav1.8 Late Current and Cardiac Conduction

May 2018

BACKGROUND:Genetic variants at the SCN5A/SCN10A locus are strongly associated with electrocardiograp...

A common genetic variant within SCN10A modulates cardiac SCN5A expression.:A common genetic variant within SCN10A modulates cardiac SCN5A expression.

van den Boogaard, Malou
Smemo, Scott
Burnicka-Turek, Ozanna
Arnolds, David E
van de Werken, Harmen J
Klous, Petra
McKean, David
Muehlschlegel, Jochen D
Moosmann, Julia
Toka, Okan
Yang, Xinan H
Koopmann, Tamara T
Adriaens, Michiel E
Bezzina, Connie R
de Laat, Wouter
Seidman, Christine
Seidman, JG
Christoffels, Vincent M
Nobrega, Marcelo A
Barnett, Phil
Moskowitz, Ivan P

January 2014

Variants in SCN10A, which encodes a voltage-gated sodium channel, are associated with alterations of...

A common genetic variant within SCN10A modulates cardiac SCN5A expression.: A common genetic variant within SCN10A modulates cardiac SCN5A expression.

van den Boogaard, Malou
Smemo, Scott
Burnicka-Turek, Ozanna
Arnolds, David E
van de Werken, Harmen J
Klous, Petra
McKean, David
Muehlschlegel, Jochen D
Moosmann, Julia
Toka, Okan
Yang, Xinan H
Koopmann, Tamara T
Adriaens, Michiel E
Bezzina, Connie R
de Laat, Wouter
Seidman, Christine
Seidman, JG
Christoffels, Vincent M
Nobrega, Marcelo A
Barnett, Phil
Moskowitz, Ivan P

January 2014

Variants in SCN10A, which encodes a voltage-gated sodium channel, are associated with alterations of...

Genetic variation in T-box binding element functionally affects SCN5A/SCN10A enhancer.

Boogaard, M.W. van den
Wong, L.Y.E.
Tessadori, F.
Bakker, M.L.
Dreizehnter, L.K.
Wakker, V.
Bezzina, C.R.
Hoen, P.A.C. 't
Bakkers, J.
Barnett, P.
Christoffels, V.M.

January 2012

Contains fulltext : 108002.pdf (publisher's version ) (Open Access)The contraction...

Variant Intronic Enhancer Controls SCN10A-Short Expression and Heart Conduction

Man, Joyce C K
Bosada, Fernanda M
Scholman, Koen T
Offerhaus, Joost A
Walsh, Roddy
van Duijvenboden, Karel
van Eif, Vincent W W
Bezzina, Connie R
Verkerk, Arie O
Boukens, Bastiaan J
Barnett, Phil
Christoffels, Vincent M

April 2021

BACKGROUND: Genetic variants in SCN10A, encoding the neuronal voltage-gated sodium channel Na V1.8, ...

Genetic variation in SCN10A influences cardiac conduction

Chambers, John C.
Zhao, Jing
Terracciano, Cesare M. N.
Bezzina, Connie R.
Zhang, Weihua
Kaba, Riyaz
Navaratnarajah, Manoraj
Lotlikar, Amol
Sehmi, Joban S.
Kooner, Manraj K.
Deng, Guohong
Siedlecka, Urszula
Parasramka, Saurabh
El-Hamamsy, Ismail
Wass, Mark N.
Dekker, Lukas R. C.
de Jong, Jonas S. S. G.
Sternberg, Michael J. E.
McKenna, William
Severs, Nicholas J.
de Silva, Ranil
Wilde, Arthur A. M.
Anand, Praveen
Yacoub, Magdi
Scott, James
Elliott, Paul
Wood, John N.
Kooner, Jaspal S.

January 2010

To identify genetic factors influencing cardiac conduction, we carried out a genome-wide association...

Sequencing of SCN5A Identifies Rare and Common Variants Associated With Cardiac Conduction

June 2014

BackgroundThe cardiac sodium channel SCN5A regulates atrioventricular and ventricular conduction. Ge...

Polymorphisms in the cardiac sodium channel promoter displaying variant in vitro expression activity.

Yang, P.
Koopmann, T.T.
Pfeufer, A.
Jalilzadeh, S.
Schulze-Bahr, E.
Kääb, S.
Wilde, A.A.
Roden, D.M.
Bezzina, C.R.

January 2008

Variable transcription of the cardiac sodium channel gene is a candidate mechanism determining arrhy...

Sequencing of SCN5A Identifies Rare and Common Variants Associated With Cardiac Conduction: Cohorts for Heart and Aging Research in Genomic Epidemiology (CHARGE) Consortium

June 2014

Background-The cardiac sodium channel SCN5A regulates atrioventricular and ventricular conduction. G...

Sequencing of SCN5A Identifies Rare and Common Variants Associated With Cardiac Conduction:Cohorts for Heart and Aging Research in Genomic Epidemiology (CHARGE) Consortium

June 2014

Background-The cardiac sodium channel SCN5A regulates atrioventricular and ventricular conduction. G...

The cardiac sodium channel gene SCN5A and its gene product NaV1.5: Role in physiology and pathophysiology

Veerman, Christiaan C.
Wilde, Arthur A. M.
Lodder, Elisabeth M.

January 2015

The gene SCN5A encodes the main cardiac sodium channel NaV1.5. This channel predominates the cardiac...

Developmental aspects of cardiac arrhythmogenesis

Postma, Alex V.
Christoffels, Vincent M.
Bezzina, Connie R.

January 2011

The transcriptional regulation orchestrating the development of the heart is increasingly recognized...

Pharmacogenetics and cardiac ion channels

Roepke, T.K.
Abbott, G.W.

February 2006

Ion channels control electrical excitability in living cells. In mammalian heart, the opposing actio...