Calcium channels and excitation–contraction coupling in cardiac cells. II. A pharmacological study of the biphasic contraction in guinea-pig papillary muscle

Abstract

Biphasic contractions were obtained in guinea-pig papillary muscle by inducing partial depolarization in K⁺-rich solution (17 mM) in the presence of 0.3 μM isoproterenol. Mn²⁺ ions inhibited the two components of contraction in a similar way. Nifedipine and particularly Cd²⁺ ions specifically inhibited the second component of contraction. Isoproterenol and BAY K 8644 markedly increased the amplitude of the second component (P₂) of contraction. Nevertheless, a moderate positive inotropic effect of isoproterenol was found on the first component (P₁) of contraction when excitability was restored by 0.2 mM Ba instead of isoproterenol. Acetylcholine and hypoxia decreased the amplitude of the second component of contraction to a greater extent. In the presence of digoxin or Na⁺-free solution, P₁was strongly increased. When sarcoplasmic reticular function was hindered by 1 mM caffeine or in the presence of Ca²⁺-free Sr²⁺ solution, digoxin always induced a negative inotropic effect on P₂. Inversely in these conditions the transient positive inotropic effect of Na⁺-free solution was strongly reduced. These results are consistent with the hypothesis that the late component of contraction is triggered by the slow inward Ca²⁺ current and that the early component is due to Ca²⁺ release from the sarcoplasmic reticulum.