Alterations in potassium channel gene expression in atria of patients with persistent and paroxysmal atrial fibrillation: differential regulation of protein and mRNA levels …

BJJM Brundel, IC Van Gelder, RH Henning… - Journal of the American …, 2001 - jacc.org
BJJM Brundel, IC Van Gelder, RH Henning, AE Tuinenburg, M Wietses, JG Grandjean…
Journal of the American College of Cardiology, 2001jacc.org
OBJECTIVES Our purpose was to determine whether patients with persistent atrial
fibrillation (AF) and patients with paroxysmal AF show alterations in potassium channel
expression. BACKGROUND Persistent AF is associated with a sustained shortening of the
atrial action potential duration and atrial refractory period. Underlying molecular changes
have not been studied in humans. We investigated whether a changed gene expression of
specific potassium channels is associated with these changes in patients with persistent AF …
Abstract
OBJECTIVES
Our purpose was to determine whether patients with persistent atrial fibrillation (AF) and patients with paroxysmal AF show alterations in potassium channel expression.
BACKGROUND
Persistent AF is associated with a sustained shortening of the atrial action potential duration and atrial refractory period. Underlying molecular changes have not been studied in humans. We investigated whether a changed gene expression of specific potassium channels is associated with these changes in patients with persistent AF and in patients with paroxysmal AF.
METHODS
Right atrial appendages were obtained from 8 patients with paroxysmal AF, 10 with persistent AF and 18 matched controls in sinus rhythm. All controls underwent coronary artery bypass surgery, whereas most AF patients underwent Cox’s MAZE surgery (atrial arrhythmia surgery to cure AF) (n = 12). All patients had normal left ventricular function. mRNA (ribonucleic acid) levels were measured by semiquantitative polymerase chain reaction and protein content by Western blotting.
RESULTS
mRNA levels of transient outward channel (Kv4.3), acetylcholine-dependent potassium channel (Kir3.4) and ATP-dependent potassium channel (Kir6.2) were reduced in patients with persistent AF (−35%, −47% and −36%, respectively, p < 0.05), whereas only Kv4.3 mRNA level was reduced in patients with paroxysmal AF (−29%, p = 0.03). No changes were found for Kv1.5 and HERG mRNA levels in either group. Protein levels of Kv4.3, Kv1.5 and Kir3.1 were reduced both in patients with persistent AF (−39%, −84% and −47%, respectively, p < 0.05) and in those with paroxysmal AF (−57%, −64%, and −40%, respectively, p < 0.05).
CONCLUSIONS
Persistent AF is accompanied by reductions in mRNA and protein levels of several potassium channels. In patients with paroxysmal AF these reductions were observed predominantly at the protein level and not at the mRNA level, suggesting a post-transcriptional regulation.
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