Effect of platelet-activating factor (PAF) on sodium calcium exchange in cardiac sarcolemmal vesicles.

The effects of platelet-activating factor (PAF) on Na(+)-dependent calcium uptake in myocardial sarcolemmal vesicles were examined in order to clarify its mechanism of inotropic action on the heart. PAF (40 and 20 microM) significantly inhibited Na(+)-Ca2+ exchange by 61% and 37%, respectively. Both initial rate of exchange and maximal exchange were inhibited. The Km for the reaction was not altered but Vmax was lowered 55% by PAF. Lyso-PAF inhibited Na(+)-Ca2+ exchange to a similar degree as PAF. CV-3988, a specific PAF receptor antagonist, failed to diminish the inhibitory effect of PAF on Na(+)-Ca2+ exchange, suggesting that the effect of PAF on Na(+)-Ca2+ exchange is not via a receptor mechanism. The passive permeability of sarcolemmal vesicles to Ca2+ was markedly elevated after PAF treatment. However, this effect could not account for the decrease in Na(+)-Ca2+ exchange. Interestingly, passive Ca2+ binding to cardiac sarcolemma was increased by 40 microM PAF. This study indicates that a depression of Na(+)-Ca2+ exchange probably does not play a role in the negative inotropic effect of PAF on the myocardium under physiological conditions. Its mechanism of action on Na(+)-Ca2+ exchange is discussed.