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Review
. 2022 Feb;237(2):1157-1170.
doi: 10.1002/jcp.30613. Epub 2021 Oct 20.

Role of autophagy in follicular development and maintenance of primordial follicular pool in the ovary

Jitender K Bhardwaj  1 Aakansha Paliwal  1 Priyanka Saraf  1 Som N Sachdeva  2
Affiliations
Review

Role of autophagy in follicular development and maintenance of primordial follicular pool in the ovary

Jitender K Bhardwaj et al. J Cell Physiol. 2022 Feb.

Abstract

The reproductive life span of the organism mainly depends on follicular development that maintains the primordial follicle pool in the cohort of follicles within the ovary. The total count of primordial follicles decreases with age due to ovulation and follicular atresia. Follicular atresia, a process of ovarian follicles degradation, mainly occurs via apoptosis, but recent studies also favor autophagy existence. Autophagy is a cellular and energy homeostatic response that helps to maintain the number of healthy primordial follicles, germ cell survival, and removal of corpus luteum remnants. But the excessive autophagic cell death changes both the quality and quantity of oocytes that ultimately affect female reproductive health. Autophagy regulation occurs by various autophagy-regulated genes like BECN1 and LC3-II (autophagy marker genes). Their abnormal regulation or mutation highly influences follicular development by alteration of primordial follicles formation, the decline in oocytes count, and germ cell loss. Various classical signaling pathways such as PI3K/AKT/mTOR, MAPK/ERK1/2, AMPK, and IRE1 are involved in granulosa and oocytes autophagy, while mTOR signaling is the primary mechanism. Along with basal level autophagy, chemical/hormone/stress-mediated autophagy also affects follicular development and female reproduction. In this review, we have primarily focused on granulosa cell and oocytes' autophagy, mechanism, and the role of autophagy determining marker genes in follicular development.

Keywords: apoptosis; autophagy; cell death; follicular development; marker genes; ovary.

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References

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