An enhancer cluster controls gene activity and topology of the SCN5A-SCN10A locus in vivo

Joyce C K Man; Rajiv A Mohan; Malou van den Boogaard; Catharina R E Hilvering; Catherine Jenkins; Vincent Wakker; Valerio Bianchi; Wouter de Laat; Phil Barnett; Bastiaan J Boukens; Vincent M Christoffels

doi:10.1038/s41467-019-12856-5

An enhancer cluster controls gene activity and topology of the SCN5A-SCN10A locus in vivo

Joyce C K Man, Rajiv A Mohan, Malou van den Boogaard, Catharina R E Hilvering, Catherine Jenkins, Vincent Wakker, Valerio Bianchi, Wouter de Laat, Phil Barnett, Bastiaan J Boukens, Vincent M Christoffels^*

^*Corresponding author for this work

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

Abstract

Mutations and variations in and around SCN5A, encoding the major cardiac sodium channel, influence impulse conduction and are associated with a broad spectrum of arrhythmia disorders. Here, we identify an evolutionary conserved regulatory cluster with super enhancer characteristics downstream of SCN5A, which drives localized cardiac expression and contains conduction velocity-associated variants. We use genome editing to create a series of deletions in the mouse genome and show that the enhancer cluster controls the conformation of a >0.5 Mb genomic region harboring multiple interacting gene promoters and enhancers. We find that this cluster and its individual components are selectively required for cardiac Scn5a expression, normal cardiac conduction and normal embryonic development. Our studies reveal physiological roles of an enhancer cluster in the SCN5A-SCN10A locus, show that it controls the chromatin architecture of the locus and Scn5a expression, and suggest that genetic variants affecting its activity may influence cardiac function.

Original language	English
Article number	4943
Number of pages	15
Journal	Nature Communications
Volume	10
Issue number	1
DOIs	https://doi.org/10.1038/s41467-019-12856-5
Publication status	Published - 30 Oct 2019
Externally published	Yes

Keywords

PHENOTYPIC ROBUSTNESS
CONDUCTION SYSTEM
SUPER-ENHANCERS
CELL IDENTITY
HUMAN GENOME
DISEASE
EXPRESSION
CTCF
LANDSCAPE
VARIANTS

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Cite this

@article{0844c05f7f2e4daaa9a879e5c085cf9c,

title = "An enhancer cluster controls gene activity and topology of the SCN5A-SCN10A locus in vivo",

abstract = "Mutations and variations in and around SCN5A, encoding the major cardiac sodium channel, influence impulse conduction and are associated with a broad spectrum of arrhythmia disorders. Here, we identify an evolutionary conserved regulatory cluster with super enhancer characteristics downstream of SCN5A, which drives localized cardiac expression and contains conduction velocity-associated variants. We use genome editing to create a series of deletions in the mouse genome and show that the enhancer cluster controls the conformation of a >0.5 Mb genomic region harboring multiple interacting gene promoters and enhancers. We find that this cluster and its individual components are selectively required for cardiac Scn5a expression, normal cardiac conduction and normal embryonic development. Our studies reveal physiological roles of an enhancer cluster in the SCN5A-SCN10A locus, show that it controls the chromatin architecture of the locus and Scn5a expression, and suggest that genetic variants affecting its activity may influence cardiac function.",

keywords = "PHENOTYPIC ROBUSTNESS, CONDUCTION SYSTEM, SUPER-ENHANCERS, CELL IDENTITY, HUMAN GENOME, DISEASE, EXPRESSION, CTCF, LANDSCAPE, VARIANTS",

author = "Man, {Joyce C K} and Mohan, {Rajiv A} and Boogaard, {Malou van den} and Hilvering, {Catharina R E} and Catherine Jenkins and Vincent Wakker and Valerio Bianchi and Laat, {Wouter de} and Phil Barnett and Boukens, {Bastiaan J} and Christoffels, {Vincent M}",

note = "Funding Information: This study was supported by CVON HUSTCARE, Charles River grant and by a Leducq Foundation grant (14CVD01). Publisher Copyright: {\textcopyright} 2019, The Author(s).",

year = "2019",

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doi = "10.1038/s41467-019-12856-5",

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AU - Man, Joyce C K

AU - Mohan, Rajiv A

AU - Boogaard, Malou van den

AU - Hilvering, Catharina R E

AU - Jenkins, Catherine

AU - Wakker, Vincent

AU - Bianchi, Valerio

AU - Laat, Wouter de

AU - Barnett, Phil

AU - Boukens, Bastiaan J

AU - Christoffels, Vincent M

PY - 2019/10/30

Y1 - 2019/10/30

N2 - Mutations and variations in and around SCN5A, encoding the major cardiac sodium channel, influence impulse conduction and are associated with a broad spectrum of arrhythmia disorders. Here, we identify an evolutionary conserved regulatory cluster with super enhancer characteristics downstream of SCN5A, which drives localized cardiac expression and contains conduction velocity-associated variants. We use genome editing to create a series of deletions in the mouse genome and show that the enhancer cluster controls the conformation of a >0.5 Mb genomic region harboring multiple interacting gene promoters and enhancers. We find that this cluster and its individual components are selectively required for cardiac Scn5a expression, normal cardiac conduction and normal embryonic development. Our studies reveal physiological roles of an enhancer cluster in the SCN5A-SCN10A locus, show that it controls the chromatin architecture of the locus and Scn5a expression, and suggest that genetic variants affecting its activity may influence cardiac function.

AB - Mutations and variations in and around SCN5A, encoding the major cardiac sodium channel, influence impulse conduction and are associated with a broad spectrum of arrhythmia disorders. Here, we identify an evolutionary conserved regulatory cluster with super enhancer characteristics downstream of SCN5A, which drives localized cardiac expression and contains conduction velocity-associated variants. We use genome editing to create a series of deletions in the mouse genome and show that the enhancer cluster controls the conformation of a >0.5 Mb genomic region harboring multiple interacting gene promoters and enhancers. We find that this cluster and its individual components are selectively required for cardiac Scn5a expression, normal cardiac conduction and normal embryonic development. Our studies reveal physiological roles of an enhancer cluster in the SCN5A-SCN10A locus, show that it controls the chromatin architecture of the locus and Scn5a expression, and suggest that genetic variants affecting its activity may influence cardiac function.

KW - PHENOTYPIC ROBUSTNESS

KW - CONDUCTION SYSTEM

KW - SUPER-ENHANCERS

KW - CELL IDENTITY

KW - HUMAN GENOME

KW - DISEASE

KW - EXPRESSION

KW - CTCF

KW - LANDSCAPE

KW - VARIANTS

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DO - 10.1038/s41467-019-12856-5

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