Abrupt rate accelerations or premature beats cause life-threatening arrhythmias in mice with long-QT3 syndrome

Dieter Nuyens; Milan Stengl; Saran Dugarmaa; Tom Rossenbacker; Veerle Compernolle; Yoram Rudy; Jos F. Smits; Willem Flameng; Colleen E. Clancy; Lieve Moons; Marc A. Vos; Mieke Dewerchin; Klaus Benndorf; Désiré Collen; Edward Carmeliet; Peter Carmeliet

doi:10.1038/nm0901-1021

Abrupt rate accelerations or premature beats cause life-threatening arrhythmias in mice with long-QT3 syndrome

Dieter Nuyens
, Milan Stengl
, Saran Dugarmaa
, Tom Rossenbacker
, Veerle Compernolle
, Yoram Rudy
, Jos F. Smits
, Willem Flameng
, Colleen E. Clancy
, Lieve Moons
, Marc A. Vos
, Mieke Dewerchin
, Klaus Benndorf
, Désiré Collen
, Edward Carmeliet
, Peter Carmeliet

Department of Biomedical Engineering

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

229 Scopus citations

Abstract

Deletion of amino-acid residues 1505-1507 (KPQ) in the cardiac SCN5A Na⁺ channel causes autosomal dominant prolongation of the electrocardiographic QT interval (long-QT syndrome type 3 or LQT3). Excessive prolongation of the action potential at low heart rates predisposes individuals with LQT3 to fatal arrhythmias, typically at rest or during sleep. Here we report that mice heterozygous for a knock-in KPQ-deletion (SCN5A^Δ/+) show the essential LQT3 features and spontaneously develop life-threatening polymorphous ventricular arrhythmias. Unexpectedly, sudden accelerations in heart rate or premature beats caused lengthening of the action potential with early afterdepolarization and triggered arrhythmias in Scn5a^Δ/+ mice. Adrenergic agonists normalized the response to rate acceleration in vitro and suppressed arrhythmias upon premature stimulation in vivo. These results show the possible risk of sudden heart-rate accelerations. The Scn5a^Δ/+ mouse with its predisposition for pacing-induced arrhythmia might be useful for the development of new treatments for the LQT3 syndrome.

Original language	English
Pages (from-to)	1021-1027
Number of pages	7
Journal	Nature medicine
Volume	7
Issue number	9
DOIs	https://doi.org/10.1038/nm0901-1021
State	Published - 2001

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Nuyens, D., Stengl, M., Dugarmaa, S., Rossenbacker, T., Compernolle, V., Rudy, Y., Smits, J. F., Flameng, W., Clancy, C. E., Moons, L., Vos, M. A., Dewerchin, M., Benndorf, K., Collen, D., Carmeliet, E., & Carmeliet, P. (2001). Abrupt rate accelerations or premature beats cause life-threatening arrhythmias in mice with long-QT3 syndrome. Nature medicine, 7(9), 1021-1027. https://doi.org/10.1038/nm0901-1021

@article{a09e4e2ae8064fe1856366e4fd9783df,

title = "Abrupt rate accelerations or premature beats cause life-threatening arrhythmias in mice with long-QT3 syndrome",

abstract = "Deletion of amino-acid residues 1505-1507 (KPQ) in the cardiac SCN5A Na+ channel causes autosomal dominant prolongation of the electrocardiographic QT interval (long-QT syndrome type 3 or LQT3). Excessive prolongation of the action potential at low heart rates predisposes individuals with LQT3 to fatal arrhythmias, typically at rest or during sleep. Here we report that mice heterozygous for a knock-in KPQ-deletion (SCN5AΔ/+) show the essential LQT3 features and spontaneously develop life-threatening polymorphous ventricular arrhythmias. Unexpectedly, sudden accelerations in heart rate or premature beats caused lengthening of the action potential with early afterdepolarization and triggered arrhythmias in Scn5aΔ/+ mice. Adrenergic agonists normalized the response to rate acceleration in vitro and suppressed arrhythmias upon premature stimulation in vivo. These results show the possible risk of sudden heart-rate accelerations. The Scn5aΔ/+ mouse with its predisposition for pacing-induced arrhythmia might be useful for the development of new treatments for the LQT3 syndrome.",

author = "Dieter Nuyens and Milan Stengl and Saran Dugarmaa and Tom Rossenbacker and Veerle Compernolle and Yoram Rudy and Smits, \{Jos F.\} and Willem Flameng and Clancy, \{Colleen E.\} and Lieve Moons and Vos, \{Marc A.\} and Mieke Dewerchin and Klaus Benndorf and D{\'e}sir{\'e} Collen and Edward Carmeliet and Peter Carmeliet",

year = "2001",

doi = "10.1038/nm0901-1021",

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Nuyens, D, Stengl, M, Dugarmaa, S, Rossenbacker, T, Compernolle, V, Rudy, Y, Smits, JF, Flameng, W, Clancy, CE, Moons, L, Vos, MA, Dewerchin, M, Benndorf, K, Collen, D, Carmeliet, E & Carmeliet, P 2001, 'Abrupt rate accelerations or premature beats cause life-threatening arrhythmias in mice with long-QT3 syndrome', Nature medicine, vol. 7, no. 9, pp. 1021-1027. https://doi.org/10.1038/nm0901-1021

TY - JOUR

T1 - Abrupt rate accelerations or premature beats cause life-threatening arrhythmias in mice with long-QT3 syndrome

AU - Nuyens, Dieter

AU - Stengl, Milan

AU - Dugarmaa, Saran

AU - Rossenbacker, Tom

AU - Compernolle, Veerle

AU - Rudy, Yoram

AU - Smits, Jos F.

AU - Flameng, Willem

AU - Clancy, Colleen E.

AU - Moons, Lieve

AU - Vos, Marc A.

AU - Dewerchin, Mieke

AU - Benndorf, Klaus

AU - Collen, Désiré

AU - Carmeliet, Edward

AU - Carmeliet, Peter

PY - 2001

Y1 - 2001

N2 - Deletion of amino-acid residues 1505-1507 (KPQ) in the cardiac SCN5A Na+ channel causes autosomal dominant prolongation of the electrocardiographic QT interval (long-QT syndrome type 3 or LQT3). Excessive prolongation of the action potential at low heart rates predisposes individuals with LQT3 to fatal arrhythmias, typically at rest or during sleep. Here we report that mice heterozygous for a knock-in KPQ-deletion (SCN5AΔ/+) show the essential LQT3 features and spontaneously develop life-threatening polymorphous ventricular arrhythmias. Unexpectedly, sudden accelerations in heart rate or premature beats caused lengthening of the action potential with early afterdepolarization and triggered arrhythmias in Scn5aΔ/+ mice. Adrenergic agonists normalized the response to rate acceleration in vitro and suppressed arrhythmias upon premature stimulation in vivo. These results show the possible risk of sudden heart-rate accelerations. The Scn5aΔ/+ mouse with its predisposition for pacing-induced arrhythmia might be useful for the development of new treatments for the LQT3 syndrome.

AB - Deletion of amino-acid residues 1505-1507 (KPQ) in the cardiac SCN5A Na+ channel causes autosomal dominant prolongation of the electrocardiographic QT interval (long-QT syndrome type 3 or LQT3). Excessive prolongation of the action potential at low heart rates predisposes individuals with LQT3 to fatal arrhythmias, typically at rest or during sleep. Here we report that mice heterozygous for a knock-in KPQ-deletion (SCN5AΔ/+) show the essential LQT3 features and spontaneously develop life-threatening polymorphous ventricular arrhythmias. Unexpectedly, sudden accelerations in heart rate or premature beats caused lengthening of the action potential with early afterdepolarization and triggered arrhythmias in Scn5aΔ/+ mice. Adrenergic agonists normalized the response to rate acceleration in vitro and suppressed arrhythmias upon premature stimulation in vivo. These results show the possible risk of sudden heart-rate accelerations. The Scn5aΔ/+ mouse with its predisposition for pacing-induced arrhythmia might be useful for the development of new treatments for the LQT3 syndrome.

UR - https://www.scopus.com/pages/publications/0034800266

U2 - 10.1038/nm0901-1021

DO - 10.1038/nm0901-1021

M3 - Article

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AN - SCOPUS:0034800266

SN - 1078-8956

VL - 7

SP - 1021

EP - 1027

JO - Nature medicine

JF - Nature medicine

IS - 9

ER -

Abrupt rate accelerations or premature beats cause life-threatening arrhythmias in mice with long-QT3 syndrome

Abstract

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