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Mutation of the SUMOylation site of Aurora-B disrupts spindle formation and chromosome alignment in oocytes

Authors :
Shan-Shan Chen
Li Li
Bo Yao
Jia-Lun Guo
Ping-Shuang Lu
Hao-Lin Zhang
Kun-Huan Zhang
Yuan-Jing Zou
Nan-Jian Luo
Shao-Chen Sun
Lin-Lin Hu
Yan-Ping Ren
Source :
Cell Death Discovery, Vol 10, Iss 1, Pp 1-11 (2024)
Publication Year :
2024
Publisher :
Nature Publishing Group, 2024.

Abstract

Abstract Aurora-B is a kinase that regulates spindle assembly and kinetochore-microtubule (KT-MT) attachment during mitosis and meiosis. SUMOylation is involved in the oocyte meiosis regulation through promoting spindle assembly and chromosome segregation, but its substrates to support this function is still unknown. It is reported that Aurora-B is SUMOylated in somatic cells, and SUMOylated Aurora-B contributes the process of mitosis. However, whether Aurora-B is SUMOylated in oocytes and how SUMOylation of Aurora-B impacts its function in oocyte meiosis remain poorly understood. In this study, we report that Aurora-B is modified by SUMOylation in mouse oocytes. The results show that Aurora-B colocalized and interacted with SUMO-2/3 in mouse oocytes, confirming that Aurora-B is modified by SUMO-2/3 in this system. Compared with that in young mice, the protein expression of SUMO-2/3 decreased in the oocytes of aged mice, indicating that SUMOylation might be related to mouse aging. Overexpression of Aurora-B SUMOylation site mutants, Aurora-BK207R and Aurora-BK292R, inhibited Aurora-B recruitment and first polar body extrusion, disrupting localization of gamma tubulin, spindle formation and chromosome alignment in oocytes. The results show that it was related to decreased recruitment of p-HDAC6 which induces the high stability of whole spindle microtubules including the microtubules of both correct and wrong KT-MT attachments though increased acetylation of microtubules. Therefore, our results corroborate the notion that Aurora-B activity is regulated by SUMO-2/3 in oocytes, and that SUMOylated Aurora B plays an important role in spindle formation and chromosome alignment.

Details

Language :
English
ISSN :
20587716
Volume :
10
Issue :
1
Database :
Directory of Open Access Journals
Journal :
Cell Death Discovery
Publication Type :
Academic Journal
Accession number :
edsdoj.4606e9c82b46ac93e929af583c4147
Document Type :
article
Full Text :
https://doi.org/10.1038/s41420-024-02217-7