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- Title
Intraovarian, Isoform-Specific Transcriptional Roles of Progesterone Receptor in Ovulation.
- Authors
Smith, Kirsten M.; Dinh, Doan T.; Akison, Lisa K.; Nicholls, Matilda; Dunning, Kylie R.; Morimoto, Atsushi; Lydon, John P.; Russell, Darryl L.; Robker, Rebecca L.
- Abstract
Progesterone receptor (PGR) activity is obligatory for mammalian ovulation; however, there is no established direct functional pathway explaining how progesterone receptor completely and specifically regulates oocyte release. This study examined the overarching cell- and isoform-specific effects of the PGR within each cellular compartment of the ovary, using mice null for the PGR (PRKO), as well as isoform-specific null mice. The PGR was expressed in ovarian granulosa and stromal cells and although PRKO ovaries showed no visible histological changes in preovulatory ovarian morphology, follicle rupture did not occur. Reciprocal ovarian transplant experiments established the necessity of ovarian PGR expression for ovulation. Cumulus–oocyte complexes of PRKO mice exhibited normal morphology but showed some altered gene expression. The examination of mitochondrial activity showed subtle differences in PRKO oocytes but no differences in granulosa cell respiration, glycolysis or β-oxidation. Concurrently, RNA-seq identified novel functional pathways through which the PGR may regulate ovulation. PGR-A was the predominant transcriptionally active isoform in granulosa cells and 154 key PGR-dependent genes were identified, including a secondary network of transcription factors. In addition, the PGR regulated unique gene networks in the ovarian stroma. Collectively, we establish the effector pathways activated by the PGR across the ovarian cell types and conclude that PGR coordinates gene expression in the cumulus, granulosa and stromal cells at ovulation. Identifying these networks linking the PGR to ovulation provides novel targets for fertility therapeutics and nonhormonal contraceptive development.
- Subjects
PROGESTERONE receptors; OVULATION; GRANULOSA cells; CELL respiration; OVARIAN follicle; GENE regulatory networks; STROMAL cells
- Publication
Cells (2073-4409), 2022, Vol 11, Issue 9, pN.PAG
- ISSN
2073-4409
- Publication type
Article
- DOI
10.3390/cells11091563