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KIF2A regulates the spindle assembly and the metaphase I-anaphase I transition in mouse oocyte.

Scientific reports (2016-12-20)
Ming-Huang Chen, Yu Liu, Ya-Long Wang, Rui Liu, Bai-Hui Xu, Fei Zhang, Fei-Ping Li, Lin Xu, Yan-Hong Lin, Shu-Wen He, Bao-Qiong Liao, Xian-Pei Fu, Xiao-Xue Wang, Xiang-Jun Yang, Hai-Long Wang
ABSTRACT

KIF2A, a member of the kinesin-13 family, has been reported to play a role in spindle assembly in mitosis. However, its function in mammalian meiosis remains unknown. In this research, we examined the expression, localization and function of KIF2A during mouse oocyte meiosis. KIF2A was expressed in some key stages in mouse oocyte meiosis. Immunofluorescent staining showed that KIF2A distributed in the germinal vesicle at the germinal vesicle stage and as the spindle assembling after meiosis resumption, KIF2A gradually accumulated to the entire spindle. The treatment of oocytes with taxol and nocodazole demonstrated that KIF2A was co-localized with α-tubulin. Depletion of KIF2A by specific short interfering (si) RNA injection resulted in abnormal spindle assembly, failure of spindle migration, misaligned chromosomes and asymmetric cell division. Meanwhile, SKA1 expression level was decreased and the TACC3 localization was disrupted. Moreover, depletion of KIF2A disrupted the actin cap formation, arrested oocytes at metaphase I with spindle assembly checkpoint protein BubR1 activated and finally reduced the rate of the first polar body extrusion. Our data indicate that KIF2A regulates the spindle assembly, asymmetric cytokinesis and the metaphase I-anaphase I transition in mouse oocyte.

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Sigma-Aldrich
Nocodazolo, ≥99% (TLC), powder
Sigma-Aldrich
MISSION® esiRNA, targeting human KIF2A