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. 2024 Feb 2;167(3):e230360.
doi: 10.1530/REP-23-0360. Print 2024 Mar 1.

Oocyte activation is a cytoplasm-confined event so far: what about the nucleus?

Luisa Gioia  1 Luca Palazzese  2 Marta Czernik  2 Domenico Iuso  2 Helena Fulka  3 Josef Fulka Jr  3 Pasqualino Loi  2
Affiliations

Oocyte activation is a cytoplasm-confined event so far: what about the nucleus?

Luisa Gioia et al. Reproduction. .

Abstract

The fertilizing spermatozoa induce a Ca2+ oscillatory pattern, the universal hallmark of oocyte activation, in all sexually reproducing animals. Assisted reproductive technologies (ARTs) like intracytoplasmic sperm injection (ICSI) bypass the physiological pathway; however, while a normal Ca2+ release pattern occurs in some species, particularly humans, artificial activation is compulsory for ICSI-fertilized oocytes to develop in most farm animals. Unlike the normal oscillatory pattern, most artificial activation protocols induce a single Ca2+ spike, undermining proper ICSI-derived embryo development in these species. Curiously, diploid parthenogenetic embryos activated by the same treatments develop normally at high frequencies and implant upon transfer in the uterus. We hypothesized that, at least in ruminant embryos, the oscillatory calcium waves late in the first cell cycle target preferentially the paternal pronucleus and are fundamentally important for paternal nuclear remodeling. We believe that Ca2+ signaling is central to full totipotency deployment of the paternal genome. Research in this area could highlight the asymmetry between the parental genome reprogramming timing/mechanisms in early development and impact ARTs like ICSI and cloning.

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Conflict of interest statement

The authors declare that there is no conflict of interest that could be perceived as prejudicing the impartiality of the study reported.

Figures

Figure 1
Figure 1
Ca2+ and nuclear dynamics in sheep IVF (upper row) and ICSI (middle row) oocytes. The paternal pronucleus size in ICSI embryo is smaller than the IVF one, particularly in androgenetic zygotes (bottom row).
See this image and copyright information in PMC

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