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- Publisher
- Oxford University Press
- Copyright
- © Published by Oxford University Press.
- Subject
- RAPID COMMUNICATION
- ISSN
- 0008-6363
- eISSN
- 1755-3245
- DOI
- 10.1093/cvr/cvm051
- pmid
- 18006448
- Publisher site
- See Article on Publisher Site
Abstract
AimsAlthough atrial tachycardia (AT) remodelling promotes agonist-independent, constitutively active, acetylcholine-regulated K-current (IK,ACh) that increases susceptibility to atrial fibrillation (AF), the underlying changes in IK,Ach channel function are unknown. This study aimed to establish how AT remodelling affects IK,ACh single-channel function.Methods and resultsIK,ACh single-channel activity was studied via cell-attached patch-clamp in isolated left atrial cardiomyocytes of control and AT (7 days, 400 min1) dogs. Atrial tachycardia prolonged the mean duration of induced AF from 44 22 to 413 167 s, and reduced atrial effective refractory period at a 360 ms cycle length from 126 3 to 74 5 ms (n 9/group, P < 0.001). In the absence of cholinergic stimulation, single-channel openings with typical IK,ACh conductance and rectification properties were sparse under control conditions. Atrial tachycardia induced prominent agonist-independent IK,ACh activity because of increased opening frequency (fo) and open probability (Po: approximately seven- and 10-fold, respectively, vs. control), but did not alter open time-constant, single-channel conductance, and membrane density. With maximum IK,ACh activation (10 mol/L carbachol), channel Po was enhanced much more in control cells (42-fold) than in AT-remodelled myocytes (approximately five-fold). The selective Kir3 current blocker tertiapin-Q (100 nmol/L) reduced fo and Po at 100 mV by 48 and 51, respectively (P < 0.05 for each), without altering other channel properties, confirming the identity of IK,ACh. Atrial tachycardia had no significant effect on mRNA or protein expression of either of the subunits (Kir3.1, Kir3.4) underlying IK,ACh.ConclusionAtrial tachycardia increases agonist-independent constitutive IK,ACh single-channel activity by enhancing spontaneous channel opening, providing a molecular basis for AT effects on macroscopic IK,ACh observed in previous studies, as well as associated refractoriness abbreviation and tertiapin-suppressible AF promotion. These results suggest an important role for constitutive IK,Ach channel opening in AT remodelling and support its interest as a potential target for AF therapy.
Journal
Cardiovascular Research – Oxford University Press
Published: Jan 1, 2008
Keywords: Keywords Acetylcholine Antiarrhythmic agents Arrhythmia (mechanisms) Ion channels Remodelling