FoxO1 Deficiency Enhances Cell Proliferation and Survival Under Normoglycemia and Promotes Angiogenesis Under Hyperglycemia in the Placenta.

FoxO1 is an important transcriptional factor that regulates cell survival and metabolism in many tissues. Deleting FoxO1 results in embryonic death due to failure of chorioallantoic fusion at E8.5; however, its role in placental development during mid-late gestation is unclear. In both human patients with gestational diabetes and pregnant mice with hyperglycemia, placental FoxO1 expression was significantly increased. Using FoxO1+/- mice, the effects of FoxO1 haploinsufficiency on placental development under normoglycemia and hyperglycemia were investigated. With FoxO1 haploinsufficiency, the term placental weight increased under both normal and hyperglycemic conditions. Under normoglycemia, this weight change was associated with a general enlargement of the labyrinth, along with increased cell proliferation, decreased cell apoptosis, and decreased expression of p21, p27, Casp3, Casp8, and Rip3. However, under hyperglycemia, the placental weight change was associated with increased fetal blood space, VEGFA overexpression, and expression changes of the angiogenic markers, Eng and Tsp1. In conclusion, FoxO1 plays a role in regulating cell proliferation, cell survival, or angiogenesis, depending on blood glucose levels, during placenta development.

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