Cardiovascular Research Advance Access [Accepted Manuscript] published online on February 5, 2008
Cardiovascular Research, doi:10.1093/cvr/cvn032
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Direct evidence for calcium conductance of HCN channels and human native If at physiological calcium concentrations
* Department of Internal Medicine III, University of Cologne
# Center for Molecular Medicine, University of Cologne (CMMC)
¶ Department of Cardiothoracic Surgery, University of Cologne; Germany
Correspondence: Uta C. Hoppe, M.D. Department of Internal Medicine III University of Cologne Kerpener Str. 62 50937 Cologne, Germany Phone +49-221-478 32396, Fax +49-221-478 32397 e-mail: uta.hoppe{at}uni-koeln.de
Objectives: The hyperpolarization-activated cyclic nucleotide-gated (HCN) current If/IHCN is generally thought to be carried by Na+ and K+ under physiological conditions. Recently, Ca2+ influx through HCN channels has indirectly been postulated. However, direct functional evidence of Ca2+ permeation through If/IHCN is still lacking.
Methods: To possibly provide direct evidence of Ca2+ influx through IHCN/If, we performed inside-out and cell-attached single-channel recordings of heterologously expressed HCN channels and native rat and human If, since Ca2+-mediated If/IHCN currents may not readily be recorded using the whole-cell technique.
Results: Original current traces demonstrated HCN2 Ca2+ inward currents upon hyperpolarization with a single-channel amplitude of -0.87±0.06 pA, a low open probability of 3.02±0.48 % (at -110 mV, n=6, Ca2+ 2 mmol/L), and a Ca2+ conductance of 8.9±1.2 pS. IHCN2-Ca2+ was significantly activated by the addition of cAMP with an increase of the open probability and suppressed by the specific If inhibitor ivabradine, clearly confirming that Ca2+ influx indeed was conducted by HCN2 channels. Changing [Na+] (10 vs 100 mmol/L) in the presence or absence of 2 mmol/L Ca2+ caused a simple shift of the reversal potential along the voltage axis without significantly affecting Na+/Ca2+ conductance, while the K+ conductance of HCN2 increased significantly in the absence of external Ca2+ with increasing K+ concentrations. The mixed K+-Ca2+ conductance, however, was unaffected by the external K+ concentration. Notably, we could also record hyperpolarization-activated Ca2+ permeation of single native If channels in neonatal rat ventriculocytes and human atrial myocytes in the presence of blockers for all known cardiac calcium conduction pores (Ca2+ conductance of human If 9.19±0.34 pS; amplitude -0.81±0.01 pA; open probability 1.05±0.61 % at -90 mV).
Conclusions: We directly show Ca2+ permeability of native rat and, more importantly, human If at physiological extracellular Ca2+ concentrations at the physiological resting membrane potential. This might have particular implications in diseased states with increased If density and HCN expression.
Time for primary review : 27
The first 2 authors contributed equally to this work.
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