Remodeling of atrial ATP-sensitive K⁺ channels in a model of salt-induced elevated blood pressure

Hypertension is associated with the development of atrial fibrillation; however, the electrophysiological consequences of this condition remain poorly understood. ATP-sensitive K(+) (K(ATP)) channels, which contribute to ventricular arrhythmias, are also expressed in the atria. We hypothesized that...

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Bibliographic Details
Published in:American journal of physiology. Heart and circulatory physiology 2011-09, Vol.301 (3), p.H964-H974
Main Authors: Lader, Joshua M, Vasquez, Carolina, Bao, Li, Maass, Karen, Qu, Jiaxiang, Kefalogianni, Eirini, Fishman, Glenn I, Coetzee, William A, Morley, Gregory E
Format: Article
Language:English
Subjects:
Action Potentials
Adenosine triphosphatase
Analysis of Variance
Animals
Anti-Arrhythmia Agents - pharmacology
ATP-Binding Cassette Transporters - metabolism
Atrial Fibrillation - etiology
Atrial Fibrillation - metabolism
Atrial Fibrillation - pathology
Atrial Fibrillation - physiopathology
Atrial Fibrillation - prevention & control
Atrial Function - drug effects
Blood Pressure
Cardiac arrhythmia
Cardiac Excitation and Contraction
Disease Models, Animal
Electrocardiography
Fibrosis
Heart Atria - metabolism
Heart Atria - physiopathology
Hypertension
Hypertension - drug therapy
Hypertension - etiology
Hypertension - metabolism
Hypertension - pathology
Hypertension - physiopathology
KATP Channels - antagonists & inhibitors
KATP Channels - metabolism
Male
Mice
Myocytes, Cardiac - drug effects
Myocytes, Cardiac - metabolism
Myocytes, Cardiac - pathology
Patch-Clamp Techniques
Potassium
Potassium - metabolism
Potassium Channel Blockers - pharmacology
Potassium Channels, Inwardly Rectifying - metabolism
Proteins
Receptors, Drug - metabolism
Refractory Period, Electrophysiological
Rodents
Sarcolemma - metabolism
Sodium Chloride, Dietary
Sulfonylurea Receptors
Time Factors
Voltage-Sensitive Dye Imaging
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Summary:Hypertension is associated with the development of atrial fibrillation; however, the electrophysiological consequences of this condition remain poorly understood. ATP-sensitive K(+) (K(ATP)) channels, which contribute to ventricular arrhythmias, are also expressed in the atria. We hypothesized that salt-induced elevated blood pressure (BP) leads to atrial K(ATP) channel activation and increased arrhythmia inducibility. Elevated BP was induced in mice with a high-salt diet (HS) for 4 wk. High-resolution optical mapping was used to measure atrial arrhythmia inducibility, effective refractory period (ERP), and action potential duration at 90% repolarization (APD(90)). Excised patch clamping was performed to quantify K(ATP) channel properties and density. K(ATP) channel protein expression was also evaluated. Atrial arrhythmia inducibility was 22% higher in HS hearts compared with control hearts. ERP and APD(90) were significantly shorter in the right atrial appendage and left atrial appendage of HS hearts compared with control hearts. Perfusion with 1 μM glibenclamide or 300 μM tolbutamide significantly decreased arrhythmia inducibility and prolonged APD(90) in HS hearts compared with untreated HS hearts. K(ATP) channel density was 156% higher in myocytes isolated from HS animals compared with control animals. Sulfonylurea receptor 1 protein expression was increased in the left atrial appendage and right atrial appendage of HS animals (415% and 372% of NS animals, respectively). In conclusion, K(ATP) channel activation provides a mechanistic link between salt-induced elevated BP and increased atrial arrhythmia inducibility. The findings of this study have important implications for the treatment and prevention of atrial arrhythmias in the setting of hypertensive heart disease and may lead to new therapeutic approaches.
ISSN:0363-6135
1522-1539
DOI:10.1152/ajpheart.00410.2011