Aneuploid Abortion Positively Correlate With MAD1 Overexpression and mir125b Depression
Abstract Background: Aneuploid is the most frequent cause of early embryo abortion, and any defect in chromosome segregation would fail to satisfy spindle assembly checkpoint (SAC) during mitosis, which could lead to the halted metaphase and aneuploid occurrence. Mitotic checkpoint complex(MCC), a complex compound of MAD1、MAD2、Cdc20、BUBR1 and BUB3, plays an important role in SAC activation. Studies have confirmed that the overexpression of MAD2 and BUBR1 can facilitate the correct chromosome segregation and embryo stability. Research identifications also proved that miR-125b negatively regulated MAD1 expression by binding to its 3’UTR. However, the expression of mir125b, MAD1 and BUB3 genes in aneuploidy embryos of spontaneous abortion has not been reported.Methods: In this study, embryonic villi from miscarriage pregnant women were collected and divided into two groups (aneuploidy and euploidy) by HLPA and FISH analysis. The RNA levels of mir125b, MAD1 and BUB3 were detected through QRT-PCR, while Western blot was further used to analyze the protein levels of MAD1 and BUB3.Results: SPSS 17.0 statistical analysis(P<0.05) showed that mir125b and BUB3 were significantly down-regulated in aneuploidy group compared to the control group, MAD1 was significantly up-regulated in RNA level; Additionally, MAD1 protein level was also significantly higher while BUB3 was mildly increased in aneuploidy abortion villus. Correlation analysis revealed that the expression of MAD1 was negatively correlated with Mir125b.Conclusion: these results suggested that aneuploid abortion was positively correlated with MAD1 overexpression which might be caused by insufficient mir125b.