Abstract
Previously, we reported that the Polo-like kinase PLK-1 phosphorylates the single Caenorhabditis elegans lamin (LMN-1) to trigger lamina depolymerization during mitosis. We showed that this event is required to form a pronuclear envelope scission event that removes membranes on the juxtaposed oocyte and sperm pronuclear envelopes in the zygote, allowing the parental chromosomes to merge in a single nucleus after segregation (Velez-Aguilera et al., 2020). Here, we show that cortical microtubule pulling forces contribute to pronuclear envelopes scission by promoting mitotic spindle elongation, and conversely, nuclear envelopes remodeling facilitates spindle elongation. We also demonstrate that weakening the pronuclear envelopes via PLK-1-mediated lamina depolymerization, is a prerequisite for the astral microtubule pulling forces to trigger pronuclear membranes scission. Finally, we provide evidence that PLK-1 mainly acts via lamina depolymerization in this process. These observations thus indicate that temporal coordination between lamina depolymerization and mitotic spindle elongation facilitates pronuclear envelopes scission and parental genomes unification.
Highlights
Parental chromosomes are first replicated in distinct pronuclei, each surrounded by a nuclear envelope, and meet for the first time during the first mitosis
The mechanisms promoting nuclear envelope breakdown and remodeling for the subsequent unification of two parental genomes in the first mitosis of the zygote remain poorly understood and are the focus of this study. 68 The nuclear envelope consists of two lipid bilayers: the inner nuclear membrane (INM) and outer nuclear membrane (ONM), separated by the perinuclear space (PNS) (Cohen-Fix and Askjaer, 2017)
The pronuclear envelopes appeared deformed toward the centrosomes, with the appearance of protrusions, suggesting that microtubules, emanating from the centrosomes were pulling on the pronuclear envelopes
Summary
The life of sexually reproducing organisms starts with joining two haploid genomes. Parental chromosomes are first replicated in distinct pronuclei, each surrounded by a nuclear envelope, and meet for the first time during the first mitosis. We hypothesized that by pulling on nuclear envelopes and membranes, and by tearing apart the lamina and by elongating the mitotic spindle, astral microtubule pulling forces might contribute to pronuclear envelopes breakdown, and to the unification of the parental chromosomes in the early C. elegans embryo.
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