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ECB-ART-32994
Dev Biol 1985 Aug 01;1102:338-45. doi: 10.1016/0012-1606(85)90093-4.
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High pH-induced acrosome reaction and Ca2+ uptake in sea urchin sperm suspended in Na+-free seawater.

García-Soto J , Darszon A .


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The egg jelly-induced acrosome reaction of sea urchin sperm requires the presence of Ca2+ and Na+ in seawater at its normal pH 8. Sperm suspended in seawater at pH 9 undergo the acrosome reaction in the absence of jelly. We have attempted to understand the role of external Na+ in this reaction. Sperm were suspended in Na+-free seawater and the percentage of acrosome reaction and the amount of Ca2+ uptake were determined as a function of external pH. High pH (9.0) in Na+-free medium without jelly triggered a high percentage (above 65%) of sperm acrosome reactions and a two to fourfold increase in Ca2+ uptake. Both the percentage of acrosome reactions and the amount of Ca2+ uptake were similar to those induced by either jelly or pH 9 in Na+-containing seawater. On the other hand, the absence of Na+ in seawater inhibits jelly from inducing Ca2+ uptake and acrosome reactions at pH 8.0 and even at pH 8.5. These results indicate that the Na+ requirement for the acrosome reaction induced by jelly is lost when triggering is by high pH. In contrast, Ca2+ was strictly required since sperm did not react in Ca2+-free seawater at pH 9. We also found that like the jelly-induced acrosome reaction the high-pH-induced acrosome reaction and Ca2+ uptake in complete and Na+-free seawater were inhibited by D600. This finding suggests that the same transport system for Ca2+ uptake associated with the acrosome reaction operates at both triggering conditions, i.e., jelly or pH 9. Although D600 is not now considered a specific blocker, its effect has suggested the involvement of Ca2+ channels in the acrosome reaction. This proposal is supported by our results with nisoldipine, a highly specific inhibitor of calcium channels. The drug inhibited both the sperm acrosome reaction and Ca2+ uptake induced by jelly or pH 9 in complete seawater.

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Genes referenced: LOC100887844 srpl