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Regulation mechanism of miR-494-3p on endometrial receptivity in mice via PI3K/AKT/mTOR pathway

Lan Yuan, Feng Fen, Zhu Mao, Jinzhu Huang, Yi Liu, Yulin Li, Rongxing Jiang

2021General Physiology and Biophysics11 citationsDOIOpen Access PDF

Abstract

Successful implantation requires endometrial receptivity. To investigate the mechanisms of miR-494-3p on endometrial receptivity, GnRHa's superovulation scheme was designed to reduce endometrial receptivity, and the pregnant mice were injected with miR-494-3p antagomir. The regulatory role of miR-494-3p was identified by RT-qPCR, uterine blastocyst count, scanning electron microscopy, hematoxylin-eosin (HE) staining, and Western blot. Results indicated that miR-494-3p antagomir increased uterine blastocysts numbers, promoted the pinocytosis expressions, and increased endometrial thickness. Besides, miR-494-3p antagomir significantly increased leukemia inhibitory factor (LIF), Ang-2 and VEGF protein expressions, and up-regulated p-AKT/AKT and p-mTOR/mTOR protein ratios in endometrium. Luciferase assay confirmed that LIF was a potential target of miR-494-3p. Subsequently, human endometrial epithelial cells (hEECs) were transfected with miR-494-3p inhibitor and PI3K inhibitor (LY294002). The role of miR-494-3p was identified by RT-qPCR, CCK-8 assay, transwell assay and flow cytometry. Results indicated that miR-494-3p inhibitor significantly increased proliferation and invasion, and significantly inhibited apoptosis in hEECs, while LY294002 reversed its biological function. Overall, these results suggested that miR-494-3p is the key regulator of endometrial receptivity in mice, regulating this complex process through the PI3K/AKT/mTOR pathway. Understanding the role of miR-494-3p in endometrial receptivity is of great significance for exploring new targets for the diagnosis and treatment of early pregnancy failure, and improving the success rates of artificial reproduction.

Topics & Concepts

PI3K/AKT/mTOR pathwayMechanism (biology)Protein kinase BRPTORChemistryCell biologyAndrologyBiologyMedicineSignal transductionPhysicsQuantum mechanicsReproductive System and PregnancyEndometriosis Research and TreatmentMicroRNA in disease regulation
Regulation mechanism of miR-494-3p on endometrial receptivity in mice via PI3K/AKT/mTOR pathway | Litcius