Current-dependent Block of Rabbit Sino-Atrial Node If Channels by Ivabradine

doi:10.1085/jgp.20028593

Published 10 June 2002. doi:10.1085/jgp.20028593

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© Rockefeller University Press, 0022-1295/2002/7/1/ $5.00
Journal of General Physiology, Volume 120, Number 1, July 2002 1-13

Article

Current-dependent Block of Rabbit Sino-Atrial Node I_f Channels by Ivabradine

Annalisa Bucchi, Mirko Baruscotti and Dario DiFrancesco

Department of General Physiology and Biochemistry, Laboratory of Molecular Physiology and Neurobiology, and INFM-Unità Milano Università, 20133 Milano, Italy

Address correspondence to Dario DiFrancesco Università di Milano, Dipartimento di Fisiologia e Biochimica Generali, via Celoria 26, 20133 Milano, Italy. Fax: (39) 02-5031-4932; E-mail: dario.difrancesco{at}unimi.it

"Funny" (f-) channels have a key role in generation of spontaneousactivity of pacemaker cells and mediate autonomic control ofcardiac rate; f-channels and the related neuronal h-channelsare composed of hyperpolarization-activated, cyclic nucleotide–gated(HCN) channel subunits. We have investigated the block of f-channelsof rabbit cardiac sino-atrial node cells by ivabradine, a novelheart rate-reducing agent. Ivabradine is an open-channel blocker;however, block is exerted preferentially when channels deactivateon depolarization, and is relieved by long hyperpolarizing steps.These features give rise to use-dependent behavior. In this,the action of ivabradine on f-channels is similar to that reportedof other rate-reducing agents such as UL-FS49 and ZD7288. However,other features of ivabradine-induced block are peculiar anddo not comply with the hypothesis that the voltage-dependenceof block is entirely attributable to either the sensitivityof ivabradine-charged molecules to the electrical field in thechannel pore, or to differential affinity to different channelstates, as has been proposed for UL-FS49 (DiFrancesco, D. 1994.Pflugers Arch. 427:64–70) and ZD7288 (Shin, S.K., B.S.Rotheberg, and G. Yellen. 2001. J. Gen. Physiol. 117:91–101),respectively. Experiments where current flows through channelsis modified without changing membrane voltage reveal that theivabradine block depends on the current driving force, ratherthan voltage alone, a feature typical of block induced in inwardlyrectifying K⁺ channels by intracellular cations. Bound drugmolecules do not detach from the binding site in the absenceof inward current through channels, even if channels are openand the drug is therefore not "trapped" by closed gates. Ourdata suggest that permeation through f-channel pores occursaccording to a multiion, single-file mechanism, and that block/unblockby ivabradine is coupled to ionic flow. The use-dependence resultingfrom specific features of I_f block by ivabradine amplifies itsrate-reducing ability at high spontaneous rates and may be usefulto clinical applications.

Key Words: pacemaker • hyperpolarization-activated channels • block • inward rectification • single-file pores

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