An inward rectifier and a voltage-dependent K+ current in single, cultured pericytes from bovine heart

doi:10.1016/S0008-6363(00)00055-9

Cardiovascular Research 2000 46(3):569-578; doi:10.1016/S0008-6363(00)00055-9
© 2000 by European Society of Cardiology

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An inward rectifier and a voltage-dependent K⁺ current in single, cultured pericytes from bovine heart

Nicolas von Beckerath^a^,*, Stefan Nees^b, Franz-Josef Neumann^a, Bjarne Krebs^a, Gerd Juchem^b and Albert Schömig^a

^aDeutsches Herzzentrum and 1.Medizinische Klinik, Technische Universität München, 80636 Munich, Germany
^bPhysiologisches Institut, Ludwig-Maximilians-Universität München, 80336 Munich, Germany

^* Corresponding author. Deutsches Herzzentrum München, Lazarettstr. 36, D-80636 München, Germany. Tel.: +49-89-1218-4011; fax: +49-89-1218-4593 beckerath{at}dhm.mhn.de

Objective: The purpose of this study was to describe passiveelectrical properties and major membrane currents in coronarypericytes. Methods: 78 single, cultured bovine pericytes werestudied with the patch-clamp technique in the whole-cell mode.Results: The membrane potential of the cells was –48.9±9.6mV (mean±S.D.) with 5 mM and –23.2±2.2 mVwith 60 mM extracellular K⁺. The membrane capacitance was 150.2±123.2pF. The current–voltage relation of the pericytes wasdominated by an inward current at hyperpolarized potentialsand an outward current at depolarized potentials. Increasingextracellular K⁺ from 5 to 60 mM led to an increase of the inwardcurrent and to a shift of this current to more depolarized potentials.The inward current was very sensitive to extracellular barium(50 µM). The maximum slope conductance of the cells athyperpolarized potentials was 2.9±2.8 nS. Inward rectificationof whole-cell currents was steep (slope factor=6.8 mV). Withelevated external K⁺ the outward current reversed near the potassiumequilibrium potential. Onset of the outward current was sigmoidand inactivation of this current was monoexponential, slow (timeconstant =12.8 s) and incomplete. Voltage-dependence of outwardcurrent steady-state activation was steep (slope factor =4.6mV). The outward current was very sensitive to 4-aminopyridine(dissociation constant ${approx}$ 0.1 mM). The maximum slope conductanceat depolarized potentials was 16.6±15.6 nS. Conclusion:We report for the first time, patch-clamp recordings from coronarypericytes. An inward rectifier and a voltage-dependent K⁺ currentwere identified and characterized. Regulation of these currentsmay influence coronary blood flow.

KEYWORDS K-channel; Membrane potential; Microcirculation; Endothelial function; Coronary circulation

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