Calcium oscillations and protein synthesis inhibition synergistically activate mouse oocytes

Abstract

We have examined the ability of the two parthenogenetic agents, strontium (Sr²⁺) and cycloheximide, to activate mouse oocytes. We demonstrate that Sr²⁺ and cycloheximide act synergistically to promote parthenogenetic activation up to the pronuclear stage in oocytes collected immediately after ovulation. These two agents appeared to act independently, since incubation in Sr²⁺ media triggered a series of intracellular Ca²⁺ rises without affecting protein synthesis and cycloheximide inhibited protein synthesis without causing any intracellular Ca²⁺ changes. In addition, cycloheximide did not alter the pattern of Ca²⁺ oscillations induced by Sr²⁺. In contrast, we show that another commonly used parthenogenetic activation treatment, the Ca²⁺ ionophore A23187, has dual effects. Exposure of oocytes to the Ca²⁺ ionophore, A 23187, in Ca²⁺‐ and Mg²⁺‐free medium leads to the activation of young oocytes. However, as well as generating a Ca²⁺ increase, the treatment of mouse oocytes with A23187 and Ca²⁺‐ and Mg²⁺‐free media led to a marked inhibition of protein synthesis. Our data show that parthenogenetic agents may have two important loci for activating mammalian oocytes and that the combined effect on Ca²⁺ release and protein synthesis is most effective.