Sandrine Chiri scite author profile

Interaction of sperm and egg at fertilization induces well-coordinated molecular events including specific recognition between species, adhesion and fusion, that lead to the formation of a zygote, a totipotent cell that develops into a new individual. A calcium signal, common to a great number of species, from marine invertebrates to mammals, is essential to activate the metabolism of the unfertilized oocyte. However, how fertilization triggers this calcium signal and initiates development of the early embryo is far from understood. The signaling pathways activated in eggs may be similar to those described in somatic cells, since changes in intracellular free calcium and in mitosis activating protein (MAP) kinase activity occur in both systems after activation. Several hypotheses are currently proposed, implying a spermatic ligand binding to a specific receptor expressed at the egg surface, or where the fused sperm either allows the transit of external calcium into the egg or injects one (or several) activating factor(s). It is still not known which of these ideas is true. We concentrate in this review on the possible signaling pathways involving IP3 (inositol trisphosphate), since its production is involved in most species to generate the fertilization calcium wave.

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Inactivation of MAPK in mature oocytes triggers progression into mitosis via a Ca2+-dependent pathway but without completion of S phase

Zhang

Huitorel

Genevière

et al. 2006

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Unfertilized sea urchin eggs that are arrested at G1 phase after completion of meiosis contain a highly phosphorylated mitogen-activated protein (MAP) kinase (MAPK), the ERK-like protein (ERK-LP). Several data including our previous results show that ERK-LP is inactivated after fertilization, which agrees with results obtained in other species including Xenopus, starfish and mammals. The question is to elucidate the function of a high MAPK activity in sea urchin eggs. We report here that dephosphorylation of ERK-LP with very low concentrations of two MEK inhibitors, PD98059 or U0126, triggers entry into mitosis. Under these conditions, recurrent oscillations of the phosphorylation of ERK-LP and of a tyrosine residue in Cdc2 occur, and the intracellular Ca2+ level (Ca2+i) progressively and slowly increases. Nuclear envelope breakdown and all mitotic events initiated after dephosphorylation of ERK-LP are inhibited when changes in Ca2+i are prevented; however, they are independent of the intracellular pH. These results suggest that inactivation of a MEK-ERK pathway, normally induced after fertilization of sea urchin eggs, triggers entry into mitosis by altering Ca2+i but cannot trigger full DNA replication. We discuss the hypothesis that neither inactivation nor activation of a MEK-ERK pathway is required for S phase completion in sea urchin egg.

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A MAPK pathway is involved in the control of mitosis after fertilization of the sea urchin egg

Zhang

Huitorel

Glaß

et al. 2005

Developmental Biology

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Activation and role of mitogen-activated protein (MAP) kinase (MAPK) during mitosis are still matters of controversy in early embryos. We report here that an ERK-like protein is present and highly phosphorylated in unfertilized sea urchin eggs. This MAPK becomes dephosphorylated after fertilization and a small pool of it is transiently reactivated during mitosis. The phosphorylated ERK-like protein is localized to the nuclear region and then to the mitotic poles and the mitotic spindle. Treatment of eggs after fertilization with two different MEK inhibitors, PD 98059 and U0126, at low concentrations capable to selectively induce dephosphorylation of this ERK-like protein, or expression of a dominant-negative MEK1/2, perturbed mitotic progression. Our results suggest that an ERK-like cascade is part of a control mechanism that regulates mitotic spindle formation and the attachment of chromosomes to the spindle during the first mitosis of the sea urchin embryo.

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Sandrine Chiri

Egg activation: Upstream of the fertilization calcium signal

Inactivation of MAPK in mature oocytes triggers progression into mitosis via a Ca2+-dependent pathway but without completion of S phase

A MAPK pathway is involved in the control of mitosis after fertilization of the sea urchin egg

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