Ultrastructural localization of intracellular calcium stores by a new cytochemical method.

Abstract

We describe a new cytochemical method for ultrastructural localization of intracellular calcium stores. This method uses fluoride ions for in situ precipitation of intracellular calcium during fixation. Comparisons made using oxalate, antimonate, or fluoride showed that fluoride was clearly superior for intracellular calcium localization in eggs of the sea urchin Strongylocentrotus purpuratus. Whereas oxalate generally gave no intracellular precipitate and antimonate gave copious but random precipitate, three prominent calcium stores were detected using fluoride: the tubular endoplasmic reticulum, the cortical granules, and large, clear, acidic vesicles of unknown function. The mitochondria of these eggs generally showed no detectable calcium deposits. X-ray spectra confirmed the presence of calcium in the fluoride precipitates, although in some cases magnesium was also detected. Rat skeletal muscle and sea urchin sperm were used to test the reliability of the fluoride method for calcium localization. In rat skeletal muscle, most fluoride precipitate was confined to the sarcoplasmic reticulum. Using sea urchin sperm, which transport calcium into the mitochondria after exposure to egg jelly to induce the acrosome reaction, the expected result was also obtained. Before the acrosome reaction, sperm mitochondria contain no detectable calcium-containing precipitate. Within 4 min after induction of the acrosome reaction, the expected result was also obtained. Before the acrosome reaction, sperm mitochondria displayed many foci of calcium-containing precipitate. The use of fluoride for intracellular calcium localization therefore appears to be a substantial improvement over previous cytochemical methods.