Abstract
Primordial follicles (PF) are formed when somatic cells differentiate into flattened pregranulosa cells, invaginate into the oocyte nests and encircle individual oocytes. We hypothesize that BMP2 regulates PF formation by promoting the transition of germ cells into oocytes and somatic cells into pregranulosa cells. E15 hamster ovaries were cultured for 8 days corresponding to postnatal day 8 (P8) in vivo, with or without BMP2, and the formation of PF was examined. BMP2 was expressed in the oocytes as well as ovarian somatic cells during development. BMP2 exposure for the first two days or the last two days or the entire 8 days of culture led to increase in PF formation suggesting that BMP2 affected both germ cell transition and somatic cell differentiation. Whereas an ALK2/3 inhibitor completely blocked BMP2-induced PF formation, an ALK2-specific inhibitor was partially effective, suggesting that BMP2 affected PF formation via both ALK2 and ALK3. BMP2 also reduced apoptosis in vitro. Further, more meiotic oocytes were present in BMP2 exposed ovaries. In summary, the results provide the first evidence that BMP2 regulates primordial follicle formation by promoting germ cell to oocyte transition and somatic cell to pre-granulosa cells formation and it acts via both ALK2 and ALK3.
Highlights
Primordial follicle (PF) formation in the mammalian ovary occurs during fetal or postnatal period
To determine whether BMP2 was expressed in the developing ovary and if the expression would correlate with the time of Primordial follicles (PF) formation, total RNA from embryonic day 14 (E14) through postnatal day 8 (P8) ovaries were analyzed by qPCR for BMP2 and β -Actin mRNA
The present study indicates that developmentally regulated BMP2 mRNA is spatiotemporally expressed in the developing hamster ovary both in vivo and in vitro
Summary
Primordial follicle (PF) formation in the mammalian ovary occurs during fetal or postnatal period. ALK2 and ALK3 null mutation is embryo lethal[17,18], while ALK6 null female mice show infertility due to a failure in ovarian cumulus cell expansion[14] Because of these limitations, null mutations of BMP2-BMPR system cannot be used to reveal the role of BMP2 and its receptors in perinatal folliculogenesis. We hypothesize that BMP2 regulates PF formation by promoting germ cell to oocyte transition and differentiation of ovarian somatic cells into preGCs leading to the formation of primordial follicles. The objective of the present study was to determine whether BMP2 stimulated primordial follicle formation in the developing hamster ovary by supporting the transition of germ cells to oocytes, and somatic cells to pregranulosa cells. We selected to examine the effect of BMP2 on primordial follicle formation in the hamster
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