Pacemaker channel dysfunction in a patient with sinus node disease

Eric Schulze-Bahr; Axel Neu; Patrick Friederich; U Benjamin Kaupp; Günter Breithardt; Olaf Pongs; Dirk Isbrandt

doi:10.1172/JCI16387

Pacemaker channel dysfunction in a patient with sinus node disease

J Clin Invest. 2003 May;111(10):1537-45. doi: 10.1172/JCI16387.

Authors

Eric Schulze-Bahr¹, Axel Neu, Patrick Friederich, U Benjamin Kaupp, Günter Breithardt, Olaf Pongs, Dirk Isbrandt

Affiliation

¹ Genetics of Arrhythmias, Molecular Cardiology Section, Institute for Arteriosclerosis Research, University of Münster, Münster, Germany. heart@uni-muenster.de

PMID: 12750403
PMCID: PMC155041
DOI: 10.1172/JCI16387

Abstract

The cardiac pacemaker current I(f) is a major determinant of diastolic depolarization in sinus nodal cells and has a key role in heartbeat generation. Therefore, we hypothesized that some forms of "idiopathic" sinus node dysfunction (SND) are related to inherited dysfunctions of cardiac pacemaker ion channels. In a candidate gene approach, a heterozygous 1-bp deletion (1631delC) in exon 5 of the human HCN4 gene was detected in a patient with idiopathic SND. The mutant HCN4 protein (HCN4-573X) had a truncated C-terminus and lacked the cyclic nucleotide-binding domain. COS-7 cells transiently transfected with HCN4-573X cDNA indicated normal intracellular trafficking and membrane integration of HCN4-573X subunits. Patch-clamp experiments showed that HCN4-573X channels mediated I(f)-like currents that were insensitive to increased cellular cAMP levels. Coexpression experiments showed a dominant-negative effect of HCN4-573X subunits on wild-type subunits. These data indicate that the cardiac I(f) channels are functionally expressed but with altered biophysical properties. Taken together, the clinical, genetic, and in vitro data provide a likely explanation for the patient's sinus bradycardia and the chronotropic incompetence.

Publication types

Case Reports
Research Support, Non-U.S. Gov't

MeSH terms

Aged
Animals
Arrhythmia, Sinus / complications
Arrhythmia, Sinus / diagnosis*
Arrhythmia, Sinus / genetics
Atrial Fibrillation / complications
Atrial Fibrillation / diagnosis*
Atrial Fibrillation / genetics
Bradycardia / complications
Bradycardia / diagnosis*
Bradycardia / genetics
COS Cells
Cyclic AMP / metabolism
Cyclic Nucleotide-Gated Cation Channels
DNA Mutational Analysis
Electrocardiography
Electrophysiologic Techniques, Cardiac
Electrophysiology
Exons
Female
Heart Rate / genetics
Humans
Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels
Introns
Ion Channels / biosynthesis
Ion Channels / genetics*
Muscle Proteins / biosynthesis
Muscle Proteins / genetics*
Mutation
Patch-Clamp Techniques
Potassium Channels
Protein Subunits / biosynthesis
Protein Subunits / genetics
Protein Transport
Syncope / etiology
Transfection

Substances

Cyclic Nucleotide-Gated Cation Channels
HCN4 protein, human
Hyperpolarization-Activated Cyclic Nucleotide-Gated Channels
Ion Channels
Muscle Proteins
Potassium Channels
Protein Subunits
Cyclic AMP