Author:
Tóth Szabolcs,Huneau Daniel,Banrezes Bernadette,Ozil Jean-Pierre
Abstract
Egg activation in mammals is caused by cytosolic Ca2+oscillations that are essential for development. However, despite increasing knowledge about signal transduction mechanisms, the functional linkage between frequency number, amplitude and duration of the Ca2+signal and the kinetics of pronucleus formation has not yet been defined. While a wide range of Ca2+signal parameters are efficient in causing egg activation, the basic rules governing how the egg integrates these signalling events are not yet clear. Thus, in the perspective of better understanding how the egg processes Ca2+signalling events, the objective of this study was to determine experimentally whether the efficiency of egg activation and the subsequent early developmental stages rely on Ca2+signalling summation. Non-fertilized, but freshly ovulated mouse eggs, were subjected to a series of repetitive Ca2+influxes of various patterns modulated by a non-invasive membrane electropermeabilization method. Using a combination of two suboptimal treatments we have shown that mouse eggs can sum up the effects caused by various patterns of intracellular Ca2+concentrations transient during the period of egg activation. In addition, overloading the intracellular milieu by repetitive Ca2+influxes did not seem to inhibit the process of activation. The kinetics of pronuclear formation among a population of eggs treated in the same conditions became accelerated when the total dose of Ca2+signal ‘experienced’ by the eggs was increased. The results suggested that summation of the biological effects of all Ca2+signals constitutes an important mode of Ca2+signal integration.
Subject
Cell Biology,Obstetrics and Gynecology,Endocrinology,Embryology,Reproductive Medicine
Cited by
90 articles.
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