WAVE2 regulates meiotic spindle stability, peripheral positioning and polar body emission in mouse oocytes

WAVE2 regulates meiotic spindle stability, peripheral positioning and polar body emission in mouse oocytes

During oocyte meiotic maturation, meiotic spindles form in the central cytoplasm and then migrate to the cortex to extrude a small polar body, forming a highly polarized cell through a process involving actin and actin-related molecules. The mechanisms underlying oocyte polarization are still unclea...

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Bibliographic Details
Published in:Cell cycle (Georgetown, Tex.) Vol. 10; no. 11; pp. 1853 - 1860
Main Authors: Sun, Shao-Chen, Xu, Yong-Nan, Li, Ying-Hua, Lee, Seung-Eun, Jin, Yong-Xun, Cui, Xiang-Shun, Kim, Nam-Hyung
Format: Journal Article
Language:English
Published: United States Taylor & Francis 01-06-2011
Subjects:
Actins - physiology
Animals
Binding
Biology
Bioscience
Calcium
Cancer
Cell
Cell Polarity
Chromosomes - metabolism
Cycle
Cytoskeleton - physiology
Landes
Meiosis
Mice
Oocytes - cytology
Organogenesis
Proteins
Wiskott-Aldrich Syndrome Protein Family - physiology
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Summary:During oocyte meiotic maturation, meiotic spindles form in the central cytoplasm and then migrate to the cortex to extrude a small polar body, forming a highly polarized cell through a process involving actin and actin-related molecules. The mechanisms underlying oocyte polarization are still unclear. The Arp2/3 complex regulates oocyte polarization but it is not known whether the WASP family of proteins, a known regulator of the Arp2/3 complex, is involved in this context. In the present study, the role of WASP family member WAVE2 in mouse oocyte asymmetric division was investigated. (1) WAVE2 mRNA and protein were detected during mouse oocyte meiosis. (2) siRNA-mediated and antibody-mediated disruption of WAVE2 resulted in the failure of chromosome congression, spindle formation, spindle positioning and polar body extrusion. (3) WAVE2 regulated actin-driven chromosome migration since chromosomes were arrested in the central cytoplasm by WAVE2 RNAi in the absence of microtubules. (4) Localization of γ-tubulin and MAPK was disrupted after RNAi, confirming the effect of WAVE2 on spindle formation. (5) Actin cap and cortical granule-free domain (CGFD) formation was also disrupted, further confirming the failure of oocyte polarization. Our data suggest that WAVE2 regulates oocyte polarization by regulating meiotic spindle, peripheral positioning, probably via an actin-mediated pathway, and is involved in polar body emission during mouse oocyte meiotic maturation.
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ISSN:1538-4101
1551-4005
DOI:10.4161/cc.10.11.15796