Popeye domain containing proteins are essential for stress-mediated modulation of cardiac pacemaking in mice

Alexander Froese; Stephanie S Breher; Christoph Waldeyer; Roland F R Schindler; Viacheslav O Nikolaev; Susanne Rinné; Erhard Wischmeyer; Jan Schlueter; Jan Becher; Subreena Simrick; Franz Vauti; Juliane Kuhtz; Patrick Meister; Sonja Kreissl; Angela Torlopp; Sonja K Liebig; Sandra Laakmann; Thomas D Müller; Joachim Neumann; Juliane Stieber; Andreas Ludwig; Sebastian K Maier; Niels Decher; Hans-Henning Arnold; Paulus Kirchhof; Larissa Fabritz; Thomas Brand

doi:10.1172/JCI59410

Popeye domain containing proteins are essential for stress-mediated modulation of cardiac pacemaking in mice

Alexander Froese, Stephanie S Breher, Christoph Waldeyer, Roland F R Schindler, Viacheslav O Nikolaev, Susanne Rinné, Erhard Wischmeyer, Jan Schlueter, Jan Becher, Subreena Simrick, Franz Vauti, Juliane Kuhtz, Patrick Meister, Sonja Kreissl, Angela Torlopp, Sonja K Liebig, Sandra Laakmann, Thomas D Müller, Joachim Neumann, Juliane StieberAndreas Ludwig, Sebastian K Maier, Niels Decher, Hans-Henning Arnold, Paulus Kirchhof, Larissa Fabritz, Thomas Brand

Cardiovascular Sciences

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

75 Citations (Scopus)

Abstract

Cardiac pacemaker cells create rhythmic pulses that control heart rate; pacemaker dysfunction is a prevalent disorder in the elderly, but little is known about the underlying molecular causes. Popeye domain containing (Popdc) genes encode membrane proteins with high expression levels in cardiac myocytes and specifically in the cardiac pacemaking and conduction system. Here, we report the phenotypic analysis of mice deficient in Popdc1 or Popdc2. ECG analysis revealed severe sinus node dysfunction when freely roaming mutant animals were subjected to physical or mental stress. In both mutants, bradyarrhythmia developed in an age-dependent manner. Furthermore, we found that the conserved Popeye domain functioned as a high-affinity cAMP-binding site. Popdc proteins interacted with the potassium channel TREK-1, which led to increased cell surface expression and enhanced current density, both of which were negatively modulated by cAMP. These data indicate that Popdc proteins have an important regulatory function in heart rate dynamics that is mediated, at least in part, through cAMP binding. Mice with mutant Popdc1 and Popdc2 alleles are therefore useful models for the dissection of the mechanisms causing pacemaker dysfunction and could aid in the development of strategies for therapeutic intervention.

Original language	English
Pages (from-to)	1119-30
Number of pages	12
Journal	Journal of Clinical Investigation
Volume	122
Issue number	3
DOIs	https://doi.org/10.1172/JCI59410
Publication status	Published - 2012

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Froese, A., Breher, S. S., Waldeyer, C., Schindler, R. F. R., Nikolaev, V. O., Rinné, S., Wischmeyer, E., Schlueter, J., Becher, J., Simrick, S., Vauti, F., Kuhtz, J., Meister, P., Kreissl, S., Torlopp, A., Liebig, S. K., Laakmann, S., Müller, T. D., Neumann, J., ... Brand, T. (2012). Popeye domain containing proteins are essential for stress-mediated modulation of cardiac pacemaking in mice. Journal of Clinical Investigation, 122(3), 1119-30. https://doi.org/10.1172/JCI59410

@article{ffe5da20717243f3b48d82be664ca04c,

title = "Popeye domain containing proteins are essential for stress-mediated modulation of cardiac pacemaking in mice",

abstract = "Cardiac pacemaker cells create rhythmic pulses that control heart rate; pacemaker dysfunction is a prevalent disorder in the elderly, but little is known about the underlying molecular causes. Popeye domain containing (Popdc) genes encode membrane proteins with high expression levels in cardiac myocytes and specifically in the cardiac pacemaking and conduction system. Here, we report the phenotypic analysis of mice deficient in Popdc1 or Popdc2. ECG analysis revealed severe sinus node dysfunction when freely roaming mutant animals were subjected to physical or mental stress. In both mutants, bradyarrhythmia developed in an age-dependent manner. Furthermore, we found that the conserved Popeye domain functioned as a high-affinity cAMP-binding site. Popdc proteins interacted with the potassium channel TREK-1, which led to increased cell surface expression and enhanced current density, both of which were negatively modulated by cAMP. These data indicate that Popdc proteins have an important regulatory function in heart rate dynamics that is mediated, at least in part, through cAMP binding. Mice with mutant Popdc1 and Popdc2 alleles are therefore useful models for the dissection of the mechanisms causing pacemaker dysfunction and could aid in the development of strategies for therapeutic intervention.",

author = "Alexander Froese and Breher, {Stephanie S} and Christoph Waldeyer and Schindler, {Roland F R} and Nikolaev, {Viacheslav O} and Susanne Rinn{\'e} and Erhard Wischmeyer and Jan Schlueter and Jan Becher and Subreena Simrick and Franz Vauti and Juliane Kuhtz and Patrick Meister and Sonja Kreissl and Angela Torlopp and Liebig, {Sonja K} and Sandra Laakmann and M{\"u}ller, {Thomas D} and Joachim Neumann and Juliane Stieber and Andreas Ludwig and Maier, {Sebastian K} and Niels Decher and Hans-Henning Arnold and Paulus Kirchhof and Larissa Fabritz and Thomas Brand",

year = "2012",

doi = "10.1172/JCI59410",

language = "English",

volume = "122",

pages = "1119--30",

journal = "Journal of Clinical Investigation",

issn = "1558-8238",

publisher = "American Society for Clinical Investigation",

number = "3",

}

Froese, A, Breher, SS, Waldeyer, C, Schindler, RFR, Nikolaev, VO, Rinné, S, Wischmeyer, E, Schlueter, J, Becher, J, Simrick, S, Vauti, F, Kuhtz, J, Meister, P, Kreissl, S, Torlopp, A, Liebig, SK, Laakmann, S, Müller, TD, Neumann, J, Stieber, J, Ludwig, A, Maier, SK, Decher, N, Arnold, H-H, Kirchhof, P , Fabritz, L & Brand, T 2012, 'Popeye domain containing proteins are essential for stress-mediated modulation of cardiac pacemaking in mice', Journal of Clinical Investigation, vol. 122, no. 3, pp. 1119-30. https://doi.org/10.1172/JCI59410

TY - JOUR

T1 - Popeye domain containing proteins are essential for stress-mediated modulation of cardiac pacemaking in mice

AU - Froese, Alexander

AU - Breher, Stephanie S

AU - Waldeyer, Christoph

AU - Schindler, Roland F R

AU - Nikolaev, Viacheslav O

AU - Rinné, Susanne

AU - Wischmeyer, Erhard

AU - Schlueter, Jan

AU - Becher, Jan

AU - Simrick, Subreena

AU - Vauti, Franz

AU - Kuhtz, Juliane

AU - Meister, Patrick

AU - Kreissl, Sonja

AU - Torlopp, Angela

AU - Liebig, Sonja K

AU - Laakmann, Sandra

AU - Müller, Thomas D

AU - Neumann, Joachim

AU - Stieber, Juliane

AU - Ludwig, Andreas

AU - Maier, Sebastian K

AU - Decher, Niels

AU - Arnold, Hans-Henning

AU - Kirchhof, Paulus

AU - Fabritz, Larissa

AU - Brand, Thomas

PY - 2012

Y1 - 2012

N2 - Cardiac pacemaker cells create rhythmic pulses that control heart rate; pacemaker dysfunction is a prevalent disorder in the elderly, but little is known about the underlying molecular causes. Popeye domain containing (Popdc) genes encode membrane proteins with high expression levels in cardiac myocytes and specifically in the cardiac pacemaking and conduction system. Here, we report the phenotypic analysis of mice deficient in Popdc1 or Popdc2. ECG analysis revealed severe sinus node dysfunction when freely roaming mutant animals were subjected to physical or mental stress. In both mutants, bradyarrhythmia developed in an age-dependent manner. Furthermore, we found that the conserved Popeye domain functioned as a high-affinity cAMP-binding site. Popdc proteins interacted with the potassium channel TREK-1, which led to increased cell surface expression and enhanced current density, both of which were negatively modulated by cAMP. These data indicate that Popdc proteins have an important regulatory function in heart rate dynamics that is mediated, at least in part, through cAMP binding. Mice with mutant Popdc1 and Popdc2 alleles are therefore useful models for the dissection of the mechanisms causing pacemaker dysfunction and could aid in the development of strategies for therapeutic intervention.

AB - Cardiac pacemaker cells create rhythmic pulses that control heart rate; pacemaker dysfunction is a prevalent disorder in the elderly, but little is known about the underlying molecular causes. Popeye domain containing (Popdc) genes encode membrane proteins with high expression levels in cardiac myocytes and specifically in the cardiac pacemaking and conduction system. Here, we report the phenotypic analysis of mice deficient in Popdc1 or Popdc2. ECG analysis revealed severe sinus node dysfunction when freely roaming mutant animals were subjected to physical or mental stress. In both mutants, bradyarrhythmia developed in an age-dependent manner. Furthermore, we found that the conserved Popeye domain functioned as a high-affinity cAMP-binding site. Popdc proteins interacted with the potassium channel TREK-1, which led to increased cell surface expression and enhanced current density, both of which were negatively modulated by cAMP. These data indicate that Popdc proteins have an important regulatory function in heart rate dynamics that is mediated, at least in part, through cAMP binding. Mice with mutant Popdc1 and Popdc2 alleles are therefore useful models for the dissection of the mechanisms causing pacemaker dysfunction and could aid in the development of strategies for therapeutic intervention.

U2 - 10.1172/JCI59410

DO - 10.1172/JCI59410

M3 - Article

C2 - 22354168

SN - 1558-8238

VL - 122

SP - 1119

EP - 1130

JO - Journal of Clinical Investigation

JF - Journal of Clinical Investigation

IS - 3

ER -

Popeye domain containing proteins are essential for stress-mediated modulation of cardiac pacemaking in mice

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