Apico-basal inhomogeneity in distribution of ion channels in canine and human ventricular myocardium

doi:10.1016/j.cardiores.2004.11.022

Cardiovascular Research 2005 65(4):851-860; doi:10.1016/j.cardiores.2004.11.022

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Apico–basal inhomogeneity in distribution of ion channels in canine and human ventricular myocardium

Norbert Szentadrassy^a, Tamas Banyasz^a, Tamas Biro^a, Gergely Szabo^a, Balazs I. Toth^a, Janos Magyar^a, Jozsef Lazar^a, Andras Varro^b, Laszlo Kovacs^a and Peter P. Nanasi^a^,*

^aDepartment of Physiology, University of Debrecen, P.O. Box 22, H-4012 Debrecen, Hungary
^bDepartment of Pharmacology and Pharmacotherapy, University of Szeged, P.O. Box 427, H-6701 Szeged, Hungary

^* Corresponding author. Tel.: +36 52 416 634; fax: +36 52 432 289. Email address: nanasi{at}phys.DOTE.hu

Objectives: The aim of the present study was to compare theapico–basal distribution of ion currents and the underlyingion channel proteins in canine and human ventricular myocardium.

Methods: Ion currents and action potentials were recorded incanine cardiomyocytes, isolated from both apical and basal regionsof the heart, using whole-cell voltage clamp techniques. Densityof channel proteins in canine and human ventricular myocardiumwas determined by Western blotting.

Results: Action potential duration was shorter and the magnitudeof phase-1 repolarization was significantly higher in apicalthan basal canine myocytes. No differences were observed inother parameters of the action potential or cell capacitance.Amplitude of the transient outward K⁺ current (29.6 ±5.7 versus 16.5 ± 4.4 pA/pF at +65 mV) and the slow componentof the delayed rectifier K⁺ current (5.61 ± 0.43 versus2.14 ± 0.18 pA/pF at +50 mV) were significantly largerin apical than in basal myocytes. Densities of the inward rectifierK⁺ current, rapid delayed rectifier K⁺ current, and L-type Ca²⁺current were similar in myocytes of apical and basal origin.Apico–basal differences were found in the expression ofonly those channel proteins which are involved in mediationof the transient outward K⁺ current and the slow delayed rectifierK⁺ current: expression of Kv1.4, KChIP2, KvLQT1 and MinK wassignificantly higher in apical than in basal myocardium in bothcanine and human hearts.

Conclusions: The results suggest that marked apico–basalelectrical inhomogeneity exists in the canine–and probablyin the human–ventricular myocardium, which may resultin increased dispersion, and therefore, cannot be ignored wheninterpreting ECG recordings, pathological alterations, or drugeffects.

KEYWORDS Ion channels; K-channel; Membrane currents; Membrane potential; Myocytes

Time for primary review 18 days

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