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Review
. 2020 Aug;87(8):843-856.
doi: 10.1002/mrd.23401. Epub 2020 Jul 27.

Pathways coordinating oocyte attrition and abundance during mammalian ovarian reserve establishment

Kathryn J Grive  1   2
Affiliations
Review

Pathways coordinating oocyte attrition and abundance during mammalian ovarian reserve establishment

Kathryn J Grive. Mol Reprod Dev. 2020 Aug.

Abstract

The mammalian ovarian reserve is comprised of a finite pool of primordial follicles, representing the lifetime reproductive capacity of females. In most mammals, the reserve is produced during embryonic and early postnatal development with oocyte numbers peaking during mid-to-late gestation, and then experiencing a dramatic decline continuing until shortly after birth. Oocytes remaining after the bulk of this attrition are subsequently surrounded by a layer of somatic pre-granulosa cells with these units then referred to as "primordial follicles." The complex and varied cell death mechanisms intrinsic to this process are not only characteristic of, but also essential for, the proper formation of this pool of follicles, and as a result must be immaculately balanced to ensure long-term fertility and reproductive health. Too few follicles can lead to Primary Ovarian Insufficiency, resulting in fertility loss and other features of aging, such as an overall shorter lifespan. On the other hand, whereas an excess of follicles might extend reproductive lifespan, this might also be the underlying etiology of other ovarian pathologies. The last decade, in particular, has vastly expanded our understanding of oocyte attrition and determinants of ovarian reserve abundance. By continuing to decipher the intricacies underlying the cell death processes and development of the initial primordial follicle pool, we may be in a much better position to understand idiopathic cases of premature follicle depletion and improve ovarian health in reproductive-age women.

Keywords: apoptosis; developmental biology; follicle; germ cells; ovary.

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References

REFERENCES

    1. Adhikari, D., & Liu, K. (2010). mTOR signaling in the control of activation of primordial follicles. Cell Cycle, 9(9), 1673-1674.
    1. Aitken, R. J., Findlay, J. K., Hutt, K. J., & Kerr, J. B. (2011). Apoptosis in the germ line. Reproduction, 141(2), 139-150.
    1. Ajmal, N., Khan, S. Z., & Shaikh, R. (2019). Polycystic ovary syndrome (PCOS) and genetic predisposition: A review article. European Journal of Obstetrics & Gynecology and Reproductive Biology: X, 3, 100060.
    1. Albamonte, M. I., Albamonte, M. S., Bou-Khair, R. M., Zuccardi, L., & Vitullo, A. D. (2019). The ovarian germinal reserve and apoptosis-related proteins in the infant and adolescent human ovary. Journal of Ovarian Research, 12(1), 22.
    1. Albamonte, M. I., Albamonte, M. S., Stella, I., Zuccardi, L., & Vitullo, A. D. (2013). The infant and pubertal human ovary: Balbiani's body-associated VASA expression, immunohistochemical detection of apoptosis-related BCL2 and BAX proteins, and DNA fragmentation. Human Reproduction, 28(3), 698-706.

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