GSK-3β protects fetal oocytes from premature death via modulating TAp63 expression in mice.
Jia WenHao YanMeina HeTuo ZhangXinyi MuHaibin WangHua ZhangGuoliang XiaChao WangPublished in: BMC biology (2019)
In summary, GSK-3β was essential for sustaining fetal oocyte survival and folliculogenesis via fine-tuning the cytoplasmic-nuclear translocation of β-catenin, which in turn modulates timely TAp63 expression during meiotic prophase I in mice. Our study provides a perspective on the physiological regulatory role of DNA damage checkpoint signaling in fetal oocyte guardianship and female fertility.