Ruthenium red affects the contractile apparatus but not sarcoplasmic reticulum Ca2+ release of skinned papillary muscle

Ruthenium red has been shown to have a positive inotropic effect on isolated perfused hearts. The cellular mechanism of this action is not clear. Ruthenium red is able to block the Ca²⁺ release channel in isolated sarcoplasmic reticulum (SR) vesicle and reconstituted channel preparations. However, the effect of ruthenium red on SR Ca²⁺ release has not been studied in skinned cardiac muscle preparations. In the present study we investigated the actions of ruthenium red on both the characteristics of force generation by the contractile apparatus and Ca²⁺ release from the SR in chemically skinned rat papillary muscle. Ruthenium red (2 and 10 M) significantly increased the Ca²⁺ sensitivity of the contractile apparatus (decreasing Ca²⁺ required for the half-maximal response from 1.56±0.04 M to 1.46±0.05 M) but had no effect on the maximal Ca²⁺-activated force in triton X-100 treated fibers. This result may suggest one explanation for the positive inotropic effect of ruthenium red on the heart. On the other hand, ruthenium red had no significant effect on either caffeine-induced Ca²⁺ release or Ca²⁺-induced Ca²⁺ release from the SR in saponin-skinned muscle fibers. Lack of a blocking effect on SR Ca²⁺ release by ruthenium red in skinned fibers suggests that the SR Ca²⁺ channels in intact preparations have characteristics that are different from those of either vesicular or reconstituted channel preparations.