Exosome-shuttled miR-7162-3p from human umbilical cord derived mesenchymal stem cells repair endometrial stromal cell injury by restricting APOL6

Abstract

BackgroundRecent studies have shown that exosomes (Exos) derived from stem cells can be used as paracrine factors to regenerate cells and tissues via shuttling miRNAs. Exos derived from human umbilical cord derived mesenchymal stem cells (UCMSCs) have been found to alleviate mifepristone-induced endometrial stromal cell (ESC) injury in vitro. Information on the functions and mechanisms of Exos from UCMSC-induced endometrial repair is limited and requires more study. MethodsUCMSC-Exos were isolated and identified by Transmission Electron Microscopy, Nanoparticle Tracking Analysis software, and western blot assays. The damaged-ESC model and the UCMSC co-culture system were established, while GW4869, a noncompetitive neutral sphingomyelinase (N-SMase) inhibitor, was used to investigate the effects of UCMSC-Exos on mifepristone-induced ESC injury. Cell apoptosis of damaged ESCs treated with UCMSCs was detected using the TUNEL assay and flow cytometry analysis. Then, miRNA microarrays were performed to detect differentially expressed miRNA profiles in both UCMSCs and ESCs after co-culturing. A subset of upregulated miRNAs was validated by qRT-PCR, and miRNA mimics/inhibitor were used to investigate the functions of miR-7162-3p. The miRNA-mRNA interactions were predicted by Targetscan software, while the miRNA binding sites were predicted by miRcode software. Moreover, dual-luciferase reporter, western blot assays and qPCR were conducted to identify the regulatory mechanisms between miR-7162-3p and APOL6. ResultsUCMSCs attenuated mifepristone-induced endometrial stromal cell apoptosis by Exos, while three miRNAs (miR-6831-5p, miR-4669, and miR-7162-3p) were both upregulated in UCMSCs and ESCs after co-culture, and were candidate effectors of UCMSC-Exos-mediated endometrial repair. We showed that miR-7162-3p was shuttled by Exos from UCMSCs and regulated the expression of APOL6 by targeting its 3ʹ-UTR in ESCs. ConclusionsThese results showed UCMSC-Exos protected ESCs from mifepristone-induced apoptosis and played an active role in repairing the damaged ESCs by in vitro shuttling of miR-7162-3p. The miR-7162-3p-overexpressed UCMSC-Exos may therefore be used in cell-free therapy of endometrial injury.