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miR-31 promotes neural stem cell proliferation and restores motor function after spinal cord injury
Authors:Xiao Li  Yuantao Gao  Feng Tian  Ruochen Du  Yitong Yuan  Pengfei Li  Fang Liu  Chunfang Wang
Affiliation:1.Laboratory Animal Research Center of Shanxi Medical University, Shanxi Key Laboratory of Animal and Animal Model of Human Diseases, Taiyuan 030001, China;2.Queen Mary School, Nanchang University, Nanchang 330000, China
Abstract:This study aims to examine whether miR-31 promotes endogenous NSC proliferation and be used for spinal cord injury management. In the present study, the morpholino knockdown of miR-31 induced abnormal neuronal apoptosis in zebrafish, resulting in impaired development of the tail. miR-31 agomir transfection in NSCs increased Nestin expression and decreased ChAT and GFAP expression levels. miR-31 induced the proliferation of mouse NSCs by upregulating the Notch signaling pathway, and more NSCs entered G1; Notch was inhibited by miR-31 inactivation. Injection of a miR-31 agomir into mouse models of spinal cord injury could effectively restore motor functions after spinal cord injury, which was achieved by promoting the proliferation of endogenous NSCs. After the injection of a miR-31 agomir in spinal cord injury mice, the expression of Nestin and GFAP increased, while GFAP expression decreased. In conclusion, the zebrafish experiments prove that a lack of miR-31 will block nervous system development. In spinal cord injury mouse models, miR-31 overexpression might promote spinal cord injury repair.
Keywords:Spinal cord injury   miR-31   zebrafish   neural stem cells   NOTCH   cell proliferation
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