Autophagy participates in cyst breakdown and primordial folliculogenesis by reducing reactive oxygen species levels in perinatal mouse ovaries

The reserve of primordial follicles, which serves all oocytes for the female reproductive lifespan, is established a few days after birth in mice. During this process, more than half of the oocytes are primarily eliminated by apoptosis. Autophagy, the conserved intracellular process maintaining cell...

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Bibliographic Details
Published in:Journal of cellular physiology 2019-05, Vol.234 (5), p.6125-6135
Main Authors: Zhihan, Tu, Xinyi, Mu, Qingying, Li, Rufei, Gao, Yan, Zhang, Xuemei, Chen, Yanqing, Geng, Yingxiong, Wang, Junlin, He
Format: Article
Language:English
Subjects:
Acetylcysteine
Animals
Apoptosis
atophagy
Autophagy
Autophagy - physiology
Breakdown
Cysts
cysts breakdown
Female
Follicles
Folliculogenesis
Growth differentiation factor 9
Growth factors
Homeostasis
Life span
Mice
Oocytes
Ovarian Follicle - embryology
Ovaries
Ovary - embryology
Oxidizing agents
Parturition
Phagocytosis
primordial follicle assembly
Reactive oxygen species
Reactive Oxygen Species - metabolism
ROS
Sexual intercourse
Transforming growth factor
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Summary:The reserve of primordial follicles, which serves all oocytes for the female reproductive lifespan, is established a few days after birth in mice. During this process, more than half of the oocytes are primarily eliminated by apoptosis. Autophagy, the conserved intracellular process maintaining cellular homeostasis, serves as a protective mechanism for oocyte survival. In the current study, we speculate a new role for autophagy during primordial folliculogenesis. Active autophagy was observed in perinatal ovaries from 16.5 days post coitus to 3 days post parturition. The inhibition of autophagy by 3‐methyladenine (3‐MA) increased the number of cyst oocytes and delayed follicle formation in vivo and in organ cultures. Furthermore, the reactive oxygen species (ROS) level was elevated in ovaries treated with 3‐MA, while N‐acetylcysteine, an oxidant, alleviated the inhibitory effect of 3‐MA on primordial folliculogenesis. Additionally, the expression of growth differentiation factor 9 and transforming growth factor β1, which regulates follicle activation, was decreased after 3‐MA treatment. These data suggest that the physiological level of autophagy in perinatal ovaries regulates germ cell cyst breakdown and primordial follicle assembly by ROS clearance and exerts extensive effects on further follicular development. Active autophagy was observed in perinatal ovaries from 16.5 dpc to 3 dpp, and the physiological level of autophagy in perinatal ovaries regulates germ cell cyst breakdown and primordial follicle assembly by ROS clearance and exerts extensive effects on further follicular development.
ISSN:0021-9541
1097-4652
DOI:10.1002/jcp.27367