Brigitte Ciapa scite author profile

Transient changes in intracellular calcium ([Ca2+]i) have been shown to punctuate the cell cycle in various types of cells in culture and in early embryos. The [Ca2+]i transients are correlated with cell-cycle events: pronuclear migration, nuclear envelope breakdown, the metaphase-anaphase transition of mitosis, and cytokinesis. Mitotic events can be induced by injecting calcium and prevented by injecting calcium chelators into the sea urchin embryo. Cell-cycle calcium transients differ from the transients linked to membrane signal transduction pathways: they are generated by an endogenous mechanism, not by plasma membrane receptor complexes, and their trigger is unknown. We report here that the phosphoinositide messenger system oscillates during the early embryonic cell cycle in the sea urchin, leading to cyclic increases in inositol trisphosphate that trigger cell-cycle [Ca2+]i transients and mitosis by calcium release from intracellular stores.

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Two phases of inositol polyphosphate and diacylglycerol production at fertilisation

Ciapa

Whitaker

1986

FEBS Letters

142

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[3H]Inositol and [3H]arachidonic acid were used to label polyphosphoinositide phospholipids in sea urchin eggs. Both [3H]inositol polyphosphate (InsP3 and [3H]diacylglycerol (DAG) increase at fertilisation. An early increase in InsP, occurs as the sperm-induced calcium transient crosses the egg and exocytosis occurs; a later increase in InsP, as calcium declines and the protein kinase C-dependent Na/H antiporter causes the cytoplasmic pH to increase. These results support suggestions that a calcium-induced hydrolysis of phosphatidylinositol bisphosphate occurs at fertilisation, that the production of diacylglycerol may be essential for exocytosis and that diacylglycerol production at fertilisation stimulates the Na/H antiporter. The increase in [3H]inositol polyphosphate as calcium declines indicates that this second messenger may have some function later in the cell cycle.

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A rapid change in phosphorylation on tyrosine accompanies fertilization of sea urchin eggs

Ciapa

Epel

1991

FEBS Letters

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Mechanisms regulating intracellular pH in sea urchin eggs

Payan

Girard

Ciapa

1983

Developmental Biology

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Egg activation: Upstream of the fertilization calcium signal

Ciapa

Chiri

2000

Biology of the Cell

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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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Brigitte Ciapa

Cell-cycle calcium transients driven by cyclic changes in inositol trisphosphate levels

Two phases of inositol polyphosphate and diacylglycerol production at fertilisation

A rapid change in phosphorylation on tyrosine accompanies fertilization of sea urchin eggs

Mechanisms regulating intracellular pH in sea urchin eggs

Egg activation: Upstream of the fertilization calcium signal

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