Abstract
1. Mitochondrial and microsomal fractions were prepared from rat parotid glands. Both fractions were able to take up (45)Ca. The mitochondrial (45)Ca-uptake system could be driven by ATP (energy-coupled Ca(2+) uptake) or by ADP+succinate (respiration-coupled Ca(2+) uptake). Energy-coupled Ca(2+) uptake was blocked by oligomycin but not by carbonyl cyanide m-chlorophenylhydrazone; respiration-coupled Ca(2+) uptake was blocked by carbonyl cyanide m-chlorophenylhydrazone but not by oligomycin. Microsomal Ca(2+) uptake was dependent on the presence of ATP; the ATP-dependent Ca(2+) uptake was not affected by oligomycin or carbonyl cyanide m-chlorophenylhydrazone. Ca(2+) uptake by both fractions was inhibited by Ni(2+). 2. Incubation of parotid pieces with adrenaline increased the rate of release of amylase and the uptake of (45)Ca. The adrenaline-stimulated release of amylase was not dependent on the presence of extracellular Ca(2+). 3. The effect of adrenaline on the subcellular distribution of (45)Ca in parotid pieces incubated with (45)Ca was studied. In parotid tissue incubated with (45)Ca, both mitochondrial and microsomal fractions contained (45)Ca. Incubation with adrenaline increased the amount of (45)Ca incorporated into the mitochondrial fraction but not the microsomal fraction. In parotid tissue preloaded with (45)Ca subsequent incubation with adrenaline caused a decrease in the amount of (45)Ca found in both the mitochondrial and microsomal fractions. 4. From these data we conclude that the regulation of the cytosolic Ca(2+) concentration in the parotid may involve both mitochondrial and microsomal Ca(2+)-uptake systems. We suggest that the action of adrenaline on the parotid may be to increase the movement of Ca(2+) to the cytosol by increasing the flux of Ca(2+) across mitochondrial, microsomal and plasma membranes.