Period circadian regulator 2-mediated steroid hormone synthesis by regulating transcription of steroidogenic acute regulatory protein in porcine granulosa cells.

ABSTRACT

Steroidogenesis is associated with circadian clock genes. However, the regulation of steroid hormone production in sow granulosal cells by Per2, a crucial circadian regulator, remains unexplored. In this study, we have identified the presence of Per2 in ovarian granulosa cells and have observed its circadian expression pattern. Employing siRNA to interfere with Per2 expression, our investigation revealed that Per2 knockdown notably elevated progesterone (P4) levels along with increasing the expression of StAR but interference of Per2 did not alter the rhythm of clock-related gene (Bmal1, Clock, Per1, and Cry1) in granulosa cells. Subsequent mechanistic analysis showed that Per2 formed complexes with PPARγ and interference with Per2 promoted the formation of the PPARγRXRα heterodimer. Importantly, we uncovered that PPARγRXRα heterodimer could control the expression of StAR via direct peroxisome proliferator response element binding to its promoter to regulate its activity, and knockdown of Per2 promoted the transcription of StAR via increasing the binding of PPARγRXRα ligands. Altogether, these findings indicated a noncanonical role of Per2 in controlling PPARγRXRα binding to regulate transcription of StAR and progesterone synthesis, thus revealing potential avenues of pharmacological and therapeutic intervention.

The circadian clock can regulate ovarian function, and disruption of the circadian clock caused by environmental factors can seriously affect the reproductive capacity of female animals, leading to ovarian diseases. Therefore, it is necessary to investigate the relationship between clock genes and ovarian function. In this study, Per2, a key gene for the circadian clock, was expressed in ovarian granulosa cells according to a rhythmic pattern, but knocking out Per2 did not alter the circadian rhythm in granulosa cells. Interference of Per2 notably elevated progesterone (P4) levels along with increasing the expression of StAR (a key gene for P4 synthesis) in granulosa cells. Subsequent mechanistic analysis showed that knockdown of Per2 enhanced transcription of StAR by promoting the formation of the PPARγRXRα heterodimer. These results indicated a noncanonical role of Per2 in regulating PPARγRXRα binding to control transcription of StAR and P4 production.