Ca2+ Modulation of sarcoplasmic reticulum Ca2+ release in rat skeletal muscle fibers

Ca²⁺ transients and the rate of Ca²⁺ release (dCa_REL/dt) from the sarcoplasmic reticulum (SR) in voltage-clamped, fast-twitch skeletal muscle fibers from the rat were studied with the double Vaseline gap technique and using mag-fura-2 and fura-2 as Ca²⁺ indicators. Single pulse experiments with different returning potentials showed that Ca²⁺ removal from the myoplasm is voltage independent. Thus, the myoplasmic Ca²⁺ removal (dCa_REM/dt) was studied by fitting the decaying phase of the Ca²⁺ transient (Melzer, Ríos & Schneider, 1986) and dCa_REL/dt was calculated as the difference between dCa/dt and dCa_REM/dt. The fast Ca²⁺ release decayed as a consequence of Ca²⁺ inactivation of Ca²⁺ release. Double pulse experiments showed inactivation of the fast Ca²⁺ release depending on the prepulse duration. At constant interpulse interval, long prepulses (200 msec) induced greater inactivation of the fast Ca²⁺ release than shorter depolarizations (20 msec). The correlation (r) between the myoplasmic [Ca²⁺]_i and the inhibited amount of Ca²⁺ release was 0.98. The [Ca²⁺]_i for 50% inactivation of dCa_REL/dt was 0.25 m, and the minimum number of sites occupied by Ca²⁺ to inactivate the Ca²⁺ release channel was 3.0. These data support Ca²⁺ binding and inactivation of SR Ca²⁺ release.This work was supported by Grant-in-Aid from the American Heart Association (National) and Muscular Dystrophy Association (USA). Part of this work was developed in Dr. Stefani's laboratory at Baylor College of Medicine.