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. 2014 Jun;10(6):457-62.
doi: 10.1038/nchembio.1521. Epub 2014 Apr 28.

Cyclic dinucleotides bind the C-linker of HCN4 to control channel cAMP responsiveness

Marco Lolicato  1 Annalisa Bucchi  1 Cristina Arrigoni  2 Stefano Zucca  2 Marco Nardini  2 Indra Schroeder  3 Katie Simmons  4 Marco Aquila  2 Dario DiFrancesco  2 Martino Bolognesi  5 Frank Schwede  6 Dmitry Kashin  6 Colin W G Fishwick  4 A Peter Johnson  4 Gerhard Thiel  3 Anna Moroni  5
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Free article

Cyclic dinucleotides bind the C-linker of HCN4 to control channel cAMP responsiveness

Marco Lolicato et al. Nat Chem Biol. 2014 Jun.
Free article

Erratum in

  • Nat Chem Biol. 2014 Aug;10(8):692

Abstract

cAMP mediates autonomic regulation of heart rate by means of hyperpolarization-activated cyclic nucleotide-gated (HCN) channels, which underlie the pacemaker current If. cAMP binding to the C-terminal cyclic nucleotide binding domain enhances HCN open probability through a conformational change that reaches the pore via the C-linker. Using structural and functional analysis, we identified a binding pocket in the C-linker of HCN4. Cyclic dinucleotides, an emerging class of second messengers in mammals, bind the C-linker pocket (CLP) and antagonize cAMP regulation of the channel. Accordingly, cyclic dinucleotides prevent cAMP regulation of If in sinoatrial node myocytes, reducing heart rate by 30%. Occupancy of the CLP hence constitutes an efficient mechanism to hinder β-adrenergic stimulation on If. Our results highlight the regulative role of the C-linker and identify a potential drug target in HCN4. Furthermore, these data extend the signaling scope of cyclic dinucleotides in mammals beyond their first reported role in innate immune system.

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