The role of inward Na(+)-Ca2+ exchange current in the ferret ventricular action potential.

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J Physiol Vol 498, Issue Pt 3 pp 611-625
Copyright © 1997 by The Physiological Society

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The role of inward Na(+)-Ca2+ exchange current in the ferret ventricular action potential.

N C Janvier, S M Harrison and M R Boyett

Department of Physiology, University of Leeds, UK.

1. Inward Na(+)-Ca2+ exchange current (iNaCa) was either blockedin ferret ventricular cells by replacing extracellular Na+ withLi+ or substantially reduced by the almost complete eliminationof the Ca2+ transient by buffering intracellular Ca2+ with theacetoxymethyl ester form of BAPTA (BAPTA AM). 2. During squarewave voltage clamp pulses to 0 mV, replacing extracellular Na+with Li+ or buffering intracellular Ca2+ with BAPTA AM resultedin the loss of a transient inward current. This current wasincreased by the application of isoprenaline (expected to increasethe underlying Ca2+ transient) and displayed the voltage-dependentcharacteristics of inward iNaCa. 3. Replacing extracellularNa+ with Li+ or buffering intracellular Ca2+ caused a significantshortening of the action potential (at -65 mV, 44 +/- 2% withLi+ and 20 +/- 2% with BAPTA AM). The shortening can be explainedby changes in iNaCa. 4. The action potential clamp techniquewas used to measure the BAPTA-sensitive current (putative iNaCa)and the Ca2+ current (ica; measured using nifedipine) duringthe action potential. Under control conditions, the inward BAPTA-sensitivecurrent makes approximately the same contribution as iCa duringmuch of the action potential plateau. These results suggestan important role for inward iNaCa in the ferret ventricularaction potential.

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