Dallas A Vanorny scite author profile

Ovarian follicles form through a process in which somatic pregranulosa cells encapsulate individual germ cells from germ cell syncytia. Complementary expression of the Notch ligand, Jagged1, in germ cells and the Notch receptor, Notch2, in pregranulosa cells suggests a role for Notch signaling in mediating cellular interactions during follicle assembly. Using a Notch reporter mouse, we demonstrate that Notch signaling is active within somatic cells of the embryonic ovary, and these cells undergo dramatic reorganization during follicle histogenesis. This coincides with a significant increase in the expression of the ligands, Jagged1 and Jagged2; the receptor, Notch2; and the target genes, Hes1 and Hey2. Histological examination of ovaries from mice with conditional deletion of Jagged1 within germ cells (J1 knockout [J1KO]) or Notch2 within granulosa cells (N2 knockout [N2KO]) reveals changes in follicle dynamics, including perturbations in the primordial follicle pool and antral follicle development. J1KO and N2KO ovaries also contain multi-oocytic follicles, which represent a failure to resolve germ cell syncytia, and follicles with enlarged oocytes but lacking somatic cell growth, signifying a potential role of Notch signaling in follicle activation and the coordination of follicle development. We also observed decreased cell proliferation and increased apoptosis in the somatic cells of both conditional knockout lines. As a consequence of these defects, J1KO female mice are subfertile; however, N2KO female mice remain fertile. This study demonstrates important functions for Jagged1 and Notch2 in the resolution of germ cell syncytia and the coordination of somatic and germ cell growth within follicles of the mouse ovary.

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The role of Notch signaling in the mammalian ovary

Vanorny

Mayo

2017

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The Notch pathway is a contact-dependent, or juxtacrine, signaling system that is conserved in metazoan organisms and is important in many developmental processes. Recent investigations have demonstrated that the Notch pathway is active in both the embryonic and postnatal ovary and plays important roles in events including follicle assembly and growth, meiotic maturation, ovarian vasculogenesis, and steroid hormone production. Ovarian pathologies resulting from disruption of the Notch pathway in mice affect meiotic spindle assembly, follicle histogenesis, granulosa cell proliferation and survival, corpora luteal function, and ovarian neovascularization. These aberrations result in abnormal folliculogenesis and reduced fertility. Knowledge of the cellular interactions facilitated by the Notch pathway is an important area for continuing research and future studies are expected to enhance our understanding of ovarian function and provide critical insights for improving reproductive health. This review focuses on the expression of Notch pathway components in the ovary, and on the multiple functions of Notch signaling in follicle assembly, maturation, and development. We focus on the mouse, where genetic investigations are possible, and relate this information to the human ovary.

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Germ-Cell-Specific Deletion of Jagged1, a Notch Ligand, Leads to the Formation of Multi-Oocytic Follicles in the Mouse Ovary

Vanorny¹,

Kilen²,

Mayo³

2011

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Dallas A Vanorny

Notch Signaling Regulates Ovarian Follicle Formation and Coordinates Follicular Growth

The role of Notch signaling in the mammalian ovary

Germ-Cell-Specific Deletion of Jagged1, a Notch Ligand, Leads to the Formation of Multi-Oocytic Follicles in the Mouse Ovary

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