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The critical role of polo-like kinase 1 in the development of somatic cell nuclear transfer murine embryos
Polo-like kinase 1 (plk1) shows multiple events of somatic cell and mammalian oocyte division. In mice, Plk1 distributes to the centromeres from prophase to anaphase and compose spindle apparatus at different stages of mitosis in spindle organization. Somatic cell nuclear transfer (SCNT) has a number of advantages however it is difficult to apply to basic or translational researches due to its low cloning efficiency. The causes of this low cloning efficiency are unclear. However, they are attributed to the cumulative results of several biological and technical factors. In this study, a biological factor plk1 was investigated. B6D2F1 mice (7–8 weeks old) were superovulated with 10 IU of pregnant mare’s serum gonadotropin and 9 U of human chorionic gonadotropin (HCG) 48 hr later. The oocytes were then collected 14 hr after HCG injection and cultured on potassium simplex optimized medium (KSOM). The plk1-specific inhibitor BI2536 was used to understand the influence of plk1. The 2-cell stage embryos were assessed by fluorescence immunoassay. In consequence, all BI2536-treated embryos failed in the first mitotic division which showed plk1 have critical role in the first mitotic division of the mouse embryo. SCNT requires enucleation of oocyte and injecting a donor cell into the enucleated cytoplast. In this process, a respectable amount of plk1 that co-localize with nucleus may be removed together. Fluorescence immunoassay and qPCR were used to monitor the change of plk1 level during SCNT. There was significant difference between the control and enucleated embryos in the level of plk1. In all division-failure 2-cell embryos, incorrect positioning of plk1 was found. Taken together, this results demonstrate that plk1 is critical for successful mitotic division of mouse SCNT 1-cell embryos.
