Ion Channel Remodeling Is Related to Intraoperative Atrial Effective Refractory Periods in Patients With Paroxysmal and Persistent Atrial Fibrillation

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Circulation. 2001;103:684-690

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	Arrythmias-basic studies
	Gene expression
	Ion channels/membrane transport

(Circulation. 2001;103:684.)
© 2001 American Heart Association, Inc.

Clinical Investigation and Reports

Ion Channel Remodeling Is Related to Intraoperative Atrial Effective Refractory Periods in Patients With Paroxysmal and Persistent Atrial Fibrillation

Bianca J. J. M. Brundel, MSc; Isabelle C. Van Gelder, MD; Robert H. Henning, MD; Robert G. Tieleman, MD; Anton E. Tuinenburg, MD; Mirian Wietses; Jan G. Grandjean, MD; Wiek H. Van Gilst, PhD; Harry J. G. M. Crijns, MD

From the Departments of Cardiology (B.J.J.M.B., I.C.V.G., R.G.T., A.E.T., H.J.G.M.C.), Clinical Pharmacology (B.J.J.M.B., R.H.H., M.W., W.H.V.G.), and Thoracic Surgery (J.G.G.), Thoraxcenter University Hospital Groningen, The Netherlands.

Correspondence to Bianca Brundel, MSc, Department of Clinical Pharmacology, University Groningen, Antonius Deusinglaan 1, 9713 AV Groningen, The Netherlands. E-mail B.J.J.M.Brundel{at}med.rug.nl

Background—Sustained shortening of the atrial effectiverefractory period (AERP), probably due to reduction in the L-typecalcium current, is a major factor in the initiation and maintenanceof atrial fibrillation (AF). We investigated underlying molecularchanges by studying the relation between gene expression ofthe L-type calcium channel and potassium channels and AERP inpatients with AF.

Methods and Results—mRNA and protein expression were determinedin the left and right atrial appendages of patients with paroxysmal(n=13) or persistent (n=16) AF and of 13 controls in sinus rhythmusing reverse transcription polymerase chain reaction and slot-blot,respectively. The mRNA content of almost all investigated ionchannel genes was reduced in persistent but not in paroxysmalAF. Protein levels for the L-type Ca²⁺ channel and 5 potassiumchannels (Kv4.3, Kv1.5, HERG, minK, and Kir3.1) were significantlyreduced in both persistent and paroxysmal AF. Furthermore, AERPswere determined intraoperatively at 5 basic cycle lengths between250 and 600 ms. Patients with persistent and paroxysmal AF displayedsignificant shorter AERPs. Protein levels of all ion channelsinvestigated correlated positively with the AERP and with the rateadaptation of AERP. Patients with reduced ion channel protein expressionhad a shorter AERP duration and poorer rate adaptation.

Conclusions—AF is predominantly accompanied by decreasedprotein contents of the L-type Ca²⁺ channel and several potassiumchannels. Reductions in L-type Ca²⁺ channel correlated withAERP and rate adaptation, and they represent a probable explanationfor the electrophysiological changes during AF.

Key Words: fibrillation • atrium • ion channels • remodeling • electrophysiology

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				B. J. J. M. Brundel, A. Shiroshita-Takeshita, X. Qi, Y.-H. Yeh, D. Chartier, I. C. van Gelder, R. H. Henning, H. H. Kampinga, and S. Nattel Induction of Heat Shock Response Protects the Heart Against Atrial Fibrillation Circ. Res., December 8, 2006; 99(12): 1394 - 1402. [Abstract] [Full Text] [PDF]

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				D. Dobrev, A. Friedrich, N. Voigt, N. Jost, E. Wettwer, T. Christ, M. Knaut, and U. Ravens The G Protein-Gated Potassium Current IK,ACh Is Constitutively Active in Patients With Chronic Atrial Fibrillation Circulation, December 13, 2005; 112(24): 3697 - 3706. [Abstract] [Full Text] [PDF]

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