Cardiac Na+ pump current-voltage relationships at various transmembrane gradients of the pumped cations

We examined the dependence of peak Na+ pump and Na+/Ca2+exchanger currents on prior Na+pump inhibition induced by exposure to zero extracellular K+ in voltage-clamped adult murine ventricular myocytes. Abrupt activation of the Na+ pump by reexposure of myocytes to extracellular K+ with a rapid solution switcher resulted in the development of a transient peak current at ∼500 ms, followed by a decline over 1–2 min to a steady-state level. The magnitudes of both the peak Na+ pump current ( I p) and the peak outward Na+/Ca2+exchange current, activated by rapidly reducing extracellular Na+ to zero with the solution switcher, were dependent on previous Na+ pump activity. [Na+] gradients (Na+-binding benzofuran isophthalate fluorescence) between the patch pipette and the bulk cytosol were relatively small and could not account for the large differences between peak and steady-state I p and reverse Na+/Ca2+exchanger currents. Our results are consistent with the presence of a subsarcolemmal Na+ concentration gradient, which is similar for the Na+ pump and the Na+/Ca2+exchanger. These findings also support the hypothesis that the Na+ pump and the Na+/Ca2+exchanger are colocalized in the sarcolemma.

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Electrophysiology of the Sodium-Potassium-ATPase in Cardiac Cells

Glitsch

2001

Physiological Reviews

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Like several other ion transporters, the Na(+)-K(+) pump of animal cells is electrogenic. The pump generates the pump current I(p). Under physiological conditions, I(p) is an outward current. It can be measured by electrophysiological methods. These methods permit the study of characteristics of the Na(+)-K(+) pump in its physiological environment, i.e., in the cell membrane. The cell membrane, across which a potential gradient exists, separates the cytosol and extracellular medium, which have distinctly different ionic compositions. The introduction of the patch-clamp techniques and the enzymatic isolation of cells have facilitated the investigation of I(p) in single cardiac myocytes. This review summarizes and discusses the results obtained from I(p) measurements in isolated cardiac cells. These results offer new exciting insights into the voltage and ionic dependence of the Na(+)-K(+) pump activity, its effect on membrane potential, and its modulation by hormones, transmitters, and drugs. They are fundamental for our current understanding of Na(+)-K(+) pumping in electrically excitable cells.

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Cardiac Na+ pump current-voltage relationships at various transmembrane gradients of the pumped cations

Cited by 3 publications

References 22 publications

Evidence for voltage-sensitive reaction steps in the mechanism of the red beet plasma membrane H+-ATPase

Evidence for voltage-sensitive reaction steps in the mechanism of the red beet plasma membrane H+-ATPase

Influence of prior Na⁺pump activity on pump and Na⁺/Ca²⁺exchange currents in mouse ventricular myocytes

Electrophysiology of the Sodium-Potassium-ATPase in Cardiac Cells

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Cardiac Na+ pump current-voltage relationships at various transmembrane gradients of the pumped cations

Cited by 3 publications

References 22 publications

Evidence for voltage-sensitive reaction steps in the mechanism of the red beet plasma membrane H+-ATPase

Evidence for voltage-sensitive reaction steps in the mechanism of the red beet plasma membrane H+-ATPase

Influence of prior Na+pump activity on pump and Na+/Ca2+exchange currents in mouse ventricular myocytes

Electrophysiology of the Sodium-Potassium-ATPase in Cardiac Cells

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Product

Resources

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Influence of prior Na⁺pump activity on pump and Na⁺/Ca²⁺exchange currents in mouse ventricular myocytes