Abstract
Differentiation of germ cells into male gonocytes or female oocytes is a central event in sexual reproduction. Proliferation and differentiation of fetal germ cells depend on the sex of the embryo. In male mouse embryos, germ cell proliferation is regulated by the RNA helicase Mouse Vasa homolog gene and factors synthesized by the somatic Sertoli cells promote gonocyte differentiation. In the female, ovarian differentiation requires activation of the WNT/β-catenin signaling pathway in the somatic cells by the secreted protein RSPO1. Using mouse models, we now show that Rspo1 also activates the WNT/β-catenin signaling pathway in germ cells. In XX Rspo1−/− gonads, germ cell proliferation, expression of the early meiotic marker Stra8, and entry into meiosis are all impaired. In these gonads, impaired entry into meiosis and germ cell sex reversal occur prior to detectable Sertoli cell differentiation, suggesting that β-catenin signaling acts within the germ cells to promote oogonial differentiation and entry into meiosis. Our results demonstrate that RSPO1/β-catenin signaling is involved in meiosis in fetal germ cells and contributes to the cellular decision of germ cells to differentiate into oocyte or sperm.
Highlights
Germ cells have the unique capacity to ensure the propagation of genetic information between generations
RSPO1 has been shown to regulate proliferation [40]. This signaling protein was found bound to the cellular membrane of the germ cells and somatic cells of the ovaries [10,41,42] suggesting that RSPO1 plays a role in somatic and in germ cell proliferation
In XX Rspo12/2 gonads, the percentage of germ cells that incorporated BrdU was significantly reduced compared to XX controls (31% in XX Rspo12/2 gonads versus 48% in XX controls), suggesting a decrease in germ cell proliferation
Summary
Germ cells have the unique capacity to ensure the propagation of genetic information between generations Once they are sex determined, they become competent for sexual reproduction by undergoing meiosis [1,2]. RSPO1 can compete with DKK1, a negative regulator of the WNT/bcatenin signalling pathway, by binding to Kremen and triggering the release of LRP6 [14]. It has been shown that RSPO1 binds directly to LRP6 [11,12] suggesting that this interaction is involved in transduction of the signal This signal promotes stabilization of b-catenin which can interact with the transcription factors LEF/TCF to induce expression of downstream target genes [16]. RSPO1 activates the b-catenin signaling pathway, promoting the upregulation of Wnt and differentiation of follicular cells [6]
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