MiR-375 potentially enhances GnRH expression by targeting Sp1 in GT1-7 cells.

Gonadotropin-releasing hormone (GnRH) is the initial central regulator of the animal reproduction system, which is crucial for puberty onset and fertility. However, the mechanisms regulating GnRH production and release remain unclear. In addition, few studies reported that miR-375 expressed in mouse hypothalamus, but up to now there are limited functional studies of miR-375 in regulating GnRH secretion. According to our recent findings that miR-375 was involved in regulating the synthesis and secretion of pituitary hormones, thus, we aimed to identify the role of miR-375 in regulating GnRH production in GT1-7 cells. Immunofluorescence results demonstrated that miR-375 was expressed in all of the GT1-7 cells. The functional studies showed that miR-375 overexpression enhanced GnRH mRNA expression level, but decreased the mRNA expressions of Sp1, Cebpb, Msx1, and Tle4. Transcriptomics analysis demonstrated Sp1 and Tle4 acted as the targeting genes of miR-375, and Sp1 negatively regulated Gnrh mRNA expression by binding to the Gnrh promoter. Thus, we conclude that miR-375 potentially enhances GnRH expression by targeting Sp1 and Tle4 in GT1-7 cells. Our results highlight a critical role of miR-375 in regulating GnRH production, which may provide a novel potential therapeutic approach to neuroendocrine-disorder-related dysfunctions.