Elsevier

Developmental Biology

Volume 75, Issue 1, 1 March 1980, Pages 187-198
Developmental Biology

Full paper
A fast block to polyspermy in frogs mediated by changes in the membrane potential

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Abstract

The role of the egg membrane potential in the prevention of polyspermy in Rana pipiens was studied with intracellular microelectrodes and ion-substituted media. At fertilization, the egg membrane potential shifts from a resting value of −28 to +8 mV in a single step of less than 1 sec. A second, slower shift reaches a maximum amplitude of +17 mV; the membrane potential is positive for a total of 21 min. When the membrane potential of unfertilized eggs exposed to sperm was held at +1 to +22 mV for 30 min by injecting current through a second intracellular electrode, the initiation of the first cleavage furrow was delayed about 20 min, suggesting that the eggs were not fertilized while the membrane potential was positive. Injection of a similar amount of current after fertilization did not delay cleavage. Furthermore, fertilization in ion-substituted media suggests a correlation between the maximum amplitude of the positive-going shift and the incidence of polyspermy. Up to 25% of eggs were polyspermic when inseminated in the presence of NaI, and the maximum amplitude was reduced to −20 mV when eggs were fertilized in 40 mM NaI. In contrast, fertilization in 40 mM NaCl reduced the maximum amplitude only to +6 mV, and produced no polyspermy. In solutions of NaBr, intermediate effects on the membrane potential and polyspermy were seen. Comparable results were obtained with the toad, Bufo americanus. We conclude that the membrane potential shift prevents polyspermy.

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  • Cited by (0)

    Much of this work was done in the laboratory of Dr. Meredith Gould-Somero. This work was supported by USPHS Grant GM-07169 and by grants from the National Research Council, Canada and NSF.

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