The effect of the internal sodium concentration on calcium fluxes in isolated guinea‐pig auricles

Abstract

1. Calcium efflux from guinea-pig auricles followed saturation kinetics when [Ca](o) and [Na](o) were changed while the ratio [Ca](o)/[Na](o) (2) was kept constant. The Michaelis constant, K(m) (Ca+Na) = 40 mM, suggests that a hypothetical carrier system, responsible for sodium-calcium exchange, is far from saturation with the inside concentrations of these ions.2. [Na](i) was altered in the auricles between 12.5 and 60 mM/kg fibre water while total cellular calcium concentration ([Ca](t)) at the beginning of the influx period was not significantly different in the various groups of preparations.3. (45)Ca influx increased appreciably with increasing [Na](i). (45)Ca influx from sodium-poor solution corresponded to an almost equal increase in [Ca](t), while [Ca](t) did not change much in preparations loaded with (45)Ca in Tyrode solution. When the sodium-activated fraction of calcium influx was plotted against [Na](i) (2) the resulting curve indicated saturation with K(m) (Na) = 3500 (mM [Na](i))(2) and maximal influx rate, J(i, max) (Ca') = 1.35 mM/kg wet weight x 10 min.4. When the preparations were re-equilibrated for various times in normal Tyrode solution after [Na](i) had been increased, both the sodium-activated component of calcium influx and [Na](i) (2) decreased with approximately the same rate constants.5. Calcium efflux from auricles with high [Na](i) was increased when it was measured in Tyrode solution while the efflux in sodium-poor solution was inhibited.6. Auricles with increased [Na](i) showed a positive inotropic contractile response.7. The main conclusion reached by these experiments is that calcium influx is affected by [Na](i) in a way which is compatible with a carrier-mediated sodium-calcium exchange system.