Role of EBAF/Nodal/p27 signaling pathway in development of placenta in normal and diabetic rats.
2022
Placentas control the maternal-fetal transport of nutrients and gases. Placental reactions to adverse intrauterine conditions affect fetal development. Such adverse conditions occur in pregnancies complicated by diabetes, leading to alterations in placental anatomy and physiology. In this study, streptozocin (STZ) injection produced sustained hyperglycemia during pregnancy in rats. Hyperglycemic pregnant rats had gained significantly less weight than normal pregnant rats on embryonic day 15.5. We investigated the influence of diabetes on placental anatomy and physiology. Compared with controls, the diabetic group had a markedly thicker junctional zone at embryonic day 15.5. To explore a mechanism for this abnormality, we examined Nodal expression in the junctional zone of control and diabetic groups. We found lower expression of Nodal in the diabetic group. We then investigated the expression of its target gene p27Kip1 (p27), which is related to cell proliferation. In vitro, Nodal overexpression up-regulated p27 protein levels while interfered EBAF up-regulated p27. In vivo, the expression of p27 was lower in diabetic compared with normal rats, and localization was similar between the two groups. In contrast, a higher expression of PCNA was found in diabetic versus normal placenta. Endometrial bleeding associated factor (EBAF), an up-stream molecular regulator of Nodal, was expressed at higher levels in placenta from diabetic versus normal rats. Based on these results, we speculate that the EBAF/Nodal/p27 signaling pathway plays a role in morphological change of diabetic placenta.
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