Internal pH can regulate Ca2+ uptake and the acrosome reaction in sea urchin sperm.

The egg jelly-induced acrosome reaction of sea urchin sperm is accompanied by intracellular alkalinization and Ca2+ entry. We have previously shown that in the absence of egg jelly, NH4Cl, which increases intracellular pH (pHi), induces Ca2+ uptake and the acrosome reaction in sperm of the sea urchin, Strongylocentrotus purpuratus. Here we show that at a constant concentration of NH4Cl (20 mM) in seawater, sperm react less as external pH is lowered from the normal 8 to 7.25. The pH dependence of the NH4Cl response is not very sensitive to temperatures between 12 and 17 degrees C. NH4Cl (15-50 mM) stimulates Ca2+ uptake and acrosome reactions in sperm suspended in Na+-free seawater, a condition known to inhibit the inductive effect of jelly. Jelly does not further stimulate Ca2+ uptake of sperm preincubated in NH4Cl, indicating that once the permeability to Ca2+ is increased by raising the pHi, the jelly has no further effect. We have used the membrane potential-sensitive dye 3,3'-dipropylthiadicarbocyanine iodide to follow the membrane potential change that occurs when NH4Cl is added. Depolarization (25 mV) is associated with the acrosome reaction when either the natural inducer, egg jelly, or NH4Cl is added to sperm. Response to both inducers is inhibited under conditions known to abolish the acrosome reaction, i.e., low-pH seawater and nisoldipine. These results indicate that the NH4Cl-induced depolarization that accompanies the reaction is probably due to the opening of channels that allow Ca2+ to enter the cell and not to the depolarization by NH4+ ions. High-K+ seawater, which depolarizes sperm, and tetraethylammonium, a K+ channel blocker, inhibit the jelly-induced depolarization and the acrosome reaction, but do not inhibit NH4Cl-induced changes. It has already been shown that nigericin promotes Ca2+ entry and the acrosome reaction in sea urchin sperm. We found that the action of this ionophore depends on the pH of normal seawater. In the absence of external Na+ (replaced by choline), nigericin does not induce the reaction and does not stimulate Ca2+ uptake.