MiR-136 contributes to pre-eclampsia through its effects on apoptosis and angiogenesis of mesenchymal stem cells

Abstract

IntroductionMesenchymal stem cells (MSCs) play an important role in the pathology of preeclampsia (PE). The survival of MSCs and angiogenesis in the maternal-fetal interface are important for a successful pregnancy. MicroRNA-136 (miR-136) is highly expressed in decidua-derived MSCs (MSCs) from PE compared with healthy donors (NC). The role of the MSCs aberrant expressed miR-136 in PE development is still unclear. In the present study, we examined the impact of miR-136 on the survival of MSCs and angiogenesis in the maternal-fetal interface. MethodsMSCs were extracted and transfected with miR-136 mimic and interfering RNAs using lipofectamine-2000. Then cell apoptosis were tested using flow cytometry. HUVEC tube formation ability was tested on Matrigel co-cultured with conditioned MSCs supernatants. ResultsHigh level of miR-136 could suppress cell proliferation and promote apoptosis of MSCs through targeting BCL2. It could also impairs HUVEC capillary formation by suppressing VEGF. DiscussionMiR-136 significantly increase the apoptosis and suppress the proliferation of MSCs. It could also inhibit the capillary formation and trophoblast cell invasion. These data suggest that decidua-derived miR-136 that is increased in PE is a potential causal factor of PE.