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- Title
Effect of Aurora kinase B on polyploidy and decidualization in mouse uterus.
- Authors
Wang, Peng‐Chao; Yang, Zhen‐Shan; Gu, Xiao‐Wei
- Abstract
Research question: Decidualization is critical to the establishment of mouse normal pregnancy. The fibroblast‐like stromal cells in the process form polyploid multinucleated cells. Aurora kinase B (Aurora B) has previously been shown to regulate polyploidy in various cells. However, whether Aurora B regulates the formation of decidual cell polyploidization and its regulatory mechanisms remain poorly understood. Design: Establish decidualization model of mouse primary endometrial stromal cells in vitro. Construct pseudopregnancy mouse models and delayed‐activation mouse models. Detect Aurora B and polyploidization related genes in mouse uteri treated by Aurora B specific inhibitor Barasertib and CPT. Results: In this study, we found that Aurora B was strongly expressed in endometrial stromal cells after implantation. Additionally, Aurora B was remarkably up regulated in the stromal cells of oil‐induced deciduomoa and in vitro decidualization. As an Aurora B specific inhibitor, Barasertib significantly inhibits the mRNA expression of Prl8a2, a marker of mouse decidualization. Furthermore, the protein levels of p‐Plk1, Survivin and p‐Cdk1 were inhibited by Barasertib. CPT‐induced DNA damage suppressed Aurkb (encodes Aurora B) expression, thus resulting in polyploidization. Conclusion: Our data shows that Aurora B is expressed in decidual stromal cells of implantation sites and plays a key role for mouse decidualization. The protein of Plk1, Survivn, and Cdk1 may participate in formation of decidual cell polyploidization during mouse decidualization.
- Subjects
AURORA kinases; POLYPLOIDY; UTERUS; STROMAL cells; RESEARCH questions
- Publication
American Journal of Reproductive Immunology, 2023, Vol 90, Issue 5, p1
- ISSN
1046-7408
- Publication type
Article
- DOI
10.1111/aji.13793