Abstract

Apoptosis is responsible for primordial germ cell (PGC) attrition in the developing fetal ovary. In monolayer cultures of murine PGC, stem cell factor (SCF) and leukemia inhibitory factor (LIF) independently promote survival in vitro; however, the relevance of these data to fetal ovarian oogonium and oocyte survival, as well as the intracellular events involved in transducing the antiapoptotic actions of these cytokines in germ cells, remain to be elucidated. In this report, we investigated the effects of SCF and LIF, alone and in combination, on the survival of oogonia and oocytes, and elaborated on components of the signal transduction pathway used by these molecules, after validating a method of culturing fetal mouse ovaries. We further employed this system to also test the hypothesis that insulin-like growth factor-I (IGF-I), a classic antiapoptotic molecule, and transforming growth factor-beta (TGF-beta), a classic pro-apoptotic molecule, interact with the SCF/LIF pathway and function in a reciprocal fashion to precisely regulate germ cell numbers during fetal oogenesis. Freshly isolated embryonic day 13.5 ovaries contained nonapoptotic germ cells, as determined by histologic analysis of cellular morphology and in situ 3'-end-labeling of DNA integrity. In vitro culture of fetal ovaries without tropic support for 24, 48, and 72 h resulted in a time-dependent induction of germ cell apoptosis, such that most oogonia and oocytes present after 72 h were apoptotic. Morphometric analysis of serially sectioned ovaries indicated that the numbers of nonapoptotic germ cells remaining after 24, 48, and 72 h of culture were 78%, 38%, and 10%, respectively, of the number present before culture (P < 0.05 for all time points vs. 0 h). Inclusion of SCF (100 ng/ml) together with LIF (100 ng/ml) in the culture medium significantly attenuated germ cell apoptosis, with the SCF/LIF-treated ovaries retaining 5.5-fold more oogonia and oocytes after 72 h of culture as compared with control ovaries deprived of tropic support (P < 0.05). However, SCF or LIF, when added separately, had no (SCF) or little (LIF) inhibitory effect on germ cell apoptosis. Provision of 50 ng/ml IGF-I maintained survival of approximately two-thirds of the germ cells in cultured ovaries (P < 0.05), whereas a combination of all three growth factors (SCF, LIF, IGF-I) completely preserved the fetal ovary in culture to that resembling a freshly-isolated gonad. Cotreatment with 25 ng/ml TGF-beta partially reversed the survival actions of IGF-I or SCF/LIF, such that only one-third of the starting number of oogonia/oocytes remained after 72 h of culture (P < 0.05). Lastly, the antiapoptotic effects of SCF/LIF or IGF-I were almost entirely eliminated by cotreatment of fetal ovaries with either one of two inhibitors of phosphatidylinositol-3'-kinase (PI3K), LY294002 (5 microM) or wortmannin (50 nM), whereas cotreatment with an inhibitor of p70 S6 kinase (rapamycin, 25 ng/ml) was without effect. These data indicate that the combined actions of SCF, LIF, and IGF-I are required for maximal inhibition of apoptosis in germ cells of fetal mouse ovaries, and that the PI3K signaling pathway is an essential component of cytokine-mediated female germ cell survival. Moreover, TGF-beta can partially override the antiapoptotic actions of SCF/LIF or IGF-I in oogonia and oocytes, suggesting the existence of a complex signaling network that ultimately determines fetal ovarian germ cell fate.

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