Abstract: | Sodium-free contractures were studied in myocardial strips from R. pipiens with extracellular sodium (Na0+) replaced by choline chloride and extracellular calcium (Ca20+) varied with EGTA buffer. At calculated Ca02+ below 2.8 X 10(-7) mol/l, no contracture occurred in most of the experiments, even in the presence of cyanide. When Ca02+ was above 2.8 X 10(-7) mol/l, relatively short tension transients of up to 80 sec duration could be avoided if the myocardial strip was previously equilibrated for 20 min in a Na+-Ca2+-free solution. Instead, contractures developed slowly within one to several hours. The maximum contracture was dependent on Ca02+ in a dose-response-like pattern. The time-course of contracture development was not affected by verapamil, but KCN significantly increased the rate of resting tension increase. In solutions with normal Na+-Ca2+ content and even in a Na+-Ca2+-free milieu, the cellular ultrastructure was normal. Development of contracture after addition of Ca2+ to the Na+-free solution was combined with ultrastructural damage of the ventricular strip. It is concluded that Na+-free contractures depend on transsarcolemmal net-Ca2+ uptake as a sum of Na-Ca-exchange-dependent Ca2+ uptake and active sequestering of intracellular free calcium Ca2+ mediated by sarcolemmal and probably intracellular Ca2+-ATPases. The negative inotropic effect of the Ca blocker verapamil seems not to be mediated by the Na-Ca exchange. |