| Abstract: | A rapid Ca2+ release from Ca2+-loaded sarcoplasmic reticulum vesicles from fast skeletal muscle can be induced under conditions which permit the formation of a stable phosphorylated intermediate of the (Ca2+-Mg2+)-ATPase. Such a state can be achieved experimentally by phosphorylating the ATPase in the absence of Mg2+ ions, which otherwise would stimulate the dephosphorylation step(s). Also, quercetine stimulates the rapid release of Ca2+ if used in the concentration range which does not produce inhibition of phosphoenzyme formation, but which inhibits phosphoenzyme dephosphorylation. The rapid efflux of Ca2+ ions proceeds as long as the low affinity Ca2+-binding sites facing the lumen of the vesicles are saturated and as long as Ca2+ is removed from the catalytic sites facing the cytosol. A molecular mechanism of the phosphoenzyme-mediated Ca2+ release is proposed. This mechanism is based on a rapid shuttling of the ATPase molecules between an ADP-sensitive and an ADP-insensitive phosphorylated state. |
