Mechanism of Ca2+ release at fertilization in mammals

Abstract

At fertilization in mammals the sperm triggers a series of oscillations in intracellular Ca²⁺ within the egg. These Ca²⁺ oscillations activate the development of the egg into an embryo. It is not known how the sperm triggers these Ca²⁺ oscillations. There are currently three different theories for Ca²⁺ signaling in eggs at fertilization. One idea is that the sperm acts as a conduit for Ca²⁺ entry into the egg after membrane fusion. Another idea is that the sperm acts upon plasma membrane receptors to stimulate a phospholipase C (PLC) within the egg which generates inositol 1,4,5‐trisphosphate (InsP₃). We present a third idea that the sperm causes Ca²⁺ release by introducing a soluble protein factor into the egg after gamete membrane fusion. In mammals this sperm factor is also referred to as an oscillogen because, after microinjection, the factor causes sustained Ca²⁺ oscillations in eggs. Our recent data in sea urchin egg homogenates and intact eggs suggests that this sperm factor has phospholipase C activity that leads to the generation of InsP₃. We then present a new version of the soluble sperm factor theory of signaling at fertilization. J. Exp. Zool. (Mol. Dev. Evol.) 285:267–275, 1999.