Calcium dynamics during starfish oocyte maturation and fertilization.

Intracellular free calcium levels in starfish oocytes have been monitored during meiotic maturation and fertilization using calcium-sensitive fluorescent dyes combined with confocal laser scanning microscopy or fura ratioing techniques. In time-lapse analyses of prophase-arrested and maturing oocytes, calcium transients were elicited by inositol 1,4,5-trisphosphate (IP3), ryanodine, or caffeine, indicating that both the IP3-sensitive and IP3-insensitive receptors of the oocyte's calcium release channels could be stimulated to mobilize calcium ions. Fertilization also triggered a global calcium wave that appeared to travel faster around the cortex than through the center of the oocyte, and maturing oocytes developed normally after their fertilization-induced calcium waves had been imaged. Prophase-arrested specimens, on the other hand, did not undergo germinal vesicle breakdown or cleavage after displaying a fertilization-induced calcium transient throughout their cytoplasm and nucleus, confirming previous observations that calcium spikes are not sufficient to induce development in immature oocytes. In addition, although the calcium spikes triggered by sperm or caffeine reached similar normalized peak heights, fertilization-induced calcium waves in maturing oocytes tended to be more prolonged than the fertilization waves observed in prophase-arrested oocytes or the caffeine-triggered spikes elicited at any stage of maturation. Collectively, such findings suggest that the total amount of releasable calcium does not vary appreciably during maturation, but the patterns of the calcium transients can differ depending on the stage of maturation and/or the type of calcium-releasing agent. Possible artifacts affecting these findings are assessed, and the results are discussed relative to the functioning of calcium release pathways during starfish oocyte maturation and fertilization.