Intracellular sodium activity in the sea urchin egg during fertilization

Fertilization of the sea urchin egg triggers a sequence of events that are necessary for metabolic derepression and stimulation of proliferation. Changes in intracellular Ca2+ and H+ activities regulate the sequence of events. Intracellular sodium activity is important in the regulation of the intracellular activities of these ions and may directly regulate metabolic events. Using Na+-sensitive microelectrodes we continuously measured the intracellular Na+ activity during fertilization. The results show an increase in intracellular sodium activity medicated by two pathways of Na+ entry: Na+ permeability increase during the fertilization potential and initiation of Na+-H+ exchange activity. Intracellular Na+ activity returned to unfertilized levels by 20 min after fertilization. This decrease was inhibited by ouabain, which suggests the activation of Na+, K+ ATPase during fertilization.