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

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

doi:10.1172/JCI73140

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

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

^*Corresponding author for this work

MaCSBio | Faculty of Science and Engineering

Research output: Contribution to journal › Article › Academic › peer-review

Abstract

Variants in SCN10A, which encodes a voltage-gated sodium channel, are associated with alterations of cardiac conduction parameters and the cardiac rhythm disorder Brugada syndrome; however, it is unclear how SCN10A variants promote dysfunctional cardiac conduction. Here we showed by high-resolution 4C-seq analysis of the Scn10a-Scn5a locus in murine heart tissue that a cardiac enhancer located in Scn10a, encompassing SCN10A functional variant rs6801957, interacts with the promoter of Scn5a, a sodium channel-encoding gene that is critical for cardiac conduction. We observed that SCN5A transcript levels were several orders of magnitude higher than SCN10A transcript levels in both adult human and mouse heart tissue. Analysis of BAC transgenic mouse strains harboring an engineered deletion of the enhancer within Scn10a revealed that the enhancer was essential for Scn5a expression in cardiac tissue. Furthermore, the common SCN10A variant rs6801957 modulated Scn5a expression in the heart. In humans, the SCN10A variant rs6801957, which correlated with slowed conduction, was associated with reduced SCN5A expression. These observations establish a genomic mechanism for how a common genetic variation at SCN10A influences cardiac physiology and predisposes to arrhythmia.

Original language	English
Pages (from-to)	1844-1852
Number of pages	9
Journal	Journal of Clinical Investigation
Volume	124
Issue number	4
DOIs	https://doi.org/10.1172/JCI73140
Publication status	Published - 2014

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10.1172/JCI73140

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van den Boogaard, M., Smemo, S., Burnicka-Turek, O., Arnolds, D. E., van de Werken, H. J., Klous, P., McKean, D., Muehlschlegel, J. D., Moosmann, J., Toka, O., Yang, X. H., Koopmann, T. T., Adriaens, M. E., Bezzina, C. R., de Laat, W., Seidman, C., Seidman, JG., Christoffels, V. M., Nobrega, M. A., ... Moskowitz, I. P. (2014). A common genetic variant within SCN10A modulates cardiac SCN5A expression. A common genetic variant within SCN10A modulates cardiac SCN5A expression. Journal of Clinical Investigation, 124(4), 1844-1852. https://doi.org/10.1172/JCI73140

@article{7f800c3dbd7141d4a05135ad1fbeb2e1,

title = "A common genetic variant within SCN10A modulates cardiac SCN5A expression.: A common genetic variant within SCN10A modulates cardiac SCN5A expression.",

abstract = "Variants in SCN10A, which encodes a voltage-gated sodium channel, are associated with alterations of cardiac conduction parameters and the cardiac rhythm disorder Brugada syndrome; however, it is unclear how SCN10A variants promote dysfunctional cardiac conduction. Here we showed by high-resolution 4C-seq analysis of the Scn10a-Scn5a locus in murine heart tissue that a cardiac enhancer located in Scn10a, encompassing SCN10A functional variant rs6801957, interacts with the promoter of Scn5a, a sodium channel-encoding gene that is critical for cardiac conduction. We observed that SCN5A transcript levels were several orders of magnitude higher than SCN10A transcript levels in both adult human and mouse heart tissue. Analysis of BAC transgenic mouse strains harboring an engineered deletion of the enhancer within Scn10a revealed that the enhancer was essential for Scn5a expression in cardiac tissue. Furthermore, the common SCN10A variant rs6801957 modulated Scn5a expression in the heart. In humans, the SCN10A variant rs6801957, which correlated with slowed conduction, was associated with reduced SCN5A expression. These observations establish a genomic mechanism for how a common genetic variation at SCN10A influences cardiac physiology and predisposes to arrhythmia.",

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

note = "10.1172/JCI73140",

year = "2014",

doi = "10.1172/JCI73140",

language = "English",

volume = "124",

pages = "1844--1852",

journal = "Journal of Clinical Investigation",

issn = "0021-9738",

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van den Boogaard, M, Smemo, S, Burnicka-Turek, O, Arnolds, DE, van de Werken, HJ, Klous, P, McKean, D, Muehlschlegel, JD, Moosmann, J, Toka, O, Yang, XH, Koopmann, TT, Adriaens, ME, Bezzina, CR, de Laat, W, Seidman, C, Seidman, JG, Christoffels, VM, Nobrega, MA, Barnett, P & Moskowitz, IP 2014, 'A common genetic variant within SCN10A modulates cardiac SCN5A expression. A common genetic variant within SCN10A modulates cardiac SCN5A expression.', Journal of Clinical Investigation, vol. 124, no. 4, pp. 1844-1852. https://doi.org/10.1172/JCI73140

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 et al.
In: Journal of Clinical Investigation, Vol. 124, No. 4, 2014, p. 1844-1852.

Research output: Contribution to journal › Article › Academic › peer-review

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AU - van den Boogaard, Malou

AU - Smemo, Scott

AU - Burnicka-Turek, Ozanna

AU - Arnolds, David E

AU - van de Werken, Harmen J

AU - Klous, Petra

AU - McKean, David

AU - Muehlschlegel, Jochen D

AU - Moosmann, Julia

AU - Toka, Okan

AU - Yang, Xinan H

AU - Koopmann, Tamara T

AU - Adriaens, Michiel E

AU - Bezzina, Connie R

AU - de Laat, Wouter

AU - Seidman, Christine

AU - Seidman, JG

AU - Christoffels, Vincent M

AU - Nobrega, Marcelo A

AU - Barnett, Phil

AU - Moskowitz, Ivan P

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PY - 2014

Y1 - 2014

N2 - Variants in SCN10A, which encodes a voltage-gated sodium channel, are associated with alterations of cardiac conduction parameters and the cardiac rhythm disorder Brugada syndrome; however, it is unclear how SCN10A variants promote dysfunctional cardiac conduction. Here we showed by high-resolution 4C-seq analysis of the Scn10a-Scn5a locus in murine heart tissue that a cardiac enhancer located in Scn10a, encompassing SCN10A functional variant rs6801957, interacts with the promoter of Scn5a, a sodium channel-encoding gene that is critical for cardiac conduction. We observed that SCN5A transcript levels were several orders of magnitude higher than SCN10A transcript levels in both adult human and mouse heart tissue. Analysis of BAC transgenic mouse strains harboring an engineered deletion of the enhancer within Scn10a revealed that the enhancer was essential for Scn5a expression in cardiac tissue. Furthermore, the common SCN10A variant rs6801957 modulated Scn5a expression in the heart. In humans, the SCN10A variant rs6801957, which correlated with slowed conduction, was associated with reduced SCN5A expression. These observations establish a genomic mechanism for how a common genetic variation at SCN10A influences cardiac physiology and predisposes to arrhythmia.

AB - Variants in SCN10A, which encodes a voltage-gated sodium channel, are associated with alterations of cardiac conduction parameters and the cardiac rhythm disorder Brugada syndrome; however, it is unclear how SCN10A variants promote dysfunctional cardiac conduction. Here we showed by high-resolution 4C-seq analysis of the Scn10a-Scn5a locus in murine heart tissue that a cardiac enhancer located in Scn10a, encompassing SCN10A functional variant rs6801957, interacts with the promoter of Scn5a, a sodium channel-encoding gene that is critical for cardiac conduction. We observed that SCN5A transcript levels were several orders of magnitude higher than SCN10A transcript levels in both adult human and mouse heart tissue. Analysis of BAC transgenic mouse strains harboring an engineered deletion of the enhancer within Scn10a revealed that the enhancer was essential for Scn5a expression in cardiac tissue. Furthermore, the common SCN10A variant rs6801957 modulated Scn5a expression in the heart. In humans, the SCN10A variant rs6801957, which correlated with slowed conduction, was associated with reduced SCN5A expression. These observations establish a genomic mechanism for how a common genetic variation at SCN10A influences cardiac physiology and predisposes to arrhythmia.

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DO - 10.1172/JCI73140

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SN - 0021-9738

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JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

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