MiR-410-3p overexpression ameliorates neurological deficits in rats with hypoxic-ischemic brain damage

•The level of miR-410-3p was significantly reduced after HIBD.•Overexpressed miR-410-3p increased the number of PC12, SY5Y cells and neurons post OGD.•MiR-410-3p overexpression prevented the neurons apoptosis and promoted neurons viability.•MiR-410-3p overexpression improved long-term motor and cogn...

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Published in:Brain research bulletin 2020-09, Vol.162, p.218-230
Main Authors: Xiao, Qiu-Xia, Wen, Song, Zhang, Xue-Rong, Xue, Lu-Lu, Zhang, Zi-Bin, Tan, Ya-Xin, Du, Ruo-Lan, Zhu, Zhao-Qiong, Zhu, Yu-Hang, Wang, Ting-Hua, Yu, Chang-Yin, Xiong, Liu-Lin
Format: Article
Language:English
Subjects:
Cognitive function
Hypoxic-ischemic encephalopathy
MiR-410-3p
Motor function
Neuroprotective effects
Over-expression
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Summary:•The level of miR-410-3p was significantly reduced after HIBD.•Overexpressed miR-410-3p increased the number of PC12, SY5Y cells and neurons post OGD.•MiR-410-3p overexpression prevented the neurons apoptosis and promoted neurons viability.•MiR-410-3p overexpression improved long-term motor and cognitive function. Neonatal hypoxic-ischemic encephalopathy (HIE) is major cause of neonatal death or long-term neurodevelopmental disabilities, which becomes a major practical problem currently in clinic. Whereas, its pathophysiology and underlying molecular mechanism is not clear. MicroRNAs are involved in the normal growth and development of neuronal cells. Herein, the objective of this research was to examine the roles of miR-410-3p in neurological deficits, neuronal injury and neuron apoptosis after hypoxic-ischemic and to explore its associated mechanisms. We established the hypoxic-ischemic brain damage (HIBD) model and oxygen glucose deprivation (OGD) model. Zea-longa score and TTC staining were used to detect the acute cerebral dysfunction after HIBD. QPCR verification exhibited notable downregulation of miR-410-3p expression at 24 h in rats after HIBD as well as that in PC12, SY5Y cells and primary cortical neurons post OGD. To further determine the function of miR-410-3p, lentivirus-mediated overexpression virus was applied in vivo and in vitro. Behavioral tests, including Morris water maze, open field test, Y maze test, neurological severity score and rotating rod test, were performed to evaluate long-term behavioral changes of rats at 1 month post HIBD. The results showed that the number of cells together with the axonal length were reduced post OGD. While the increase of cells number and the axonal length was measured after upregulating miR-410-3p. Meanwhile, miR-410-3p overexpression inhibited neuron apoptosis and enhanced neuronal survival. In addition, long-term motor and cognitive functions were remarkably recovered in HIBD rats with miR-410-3p overexpression. Together, miR-410-3p exerts a critical role in protecting neuronal growth as well as promoting motor and cognitive function recovery in neonatal rats subjected to HIBD. The current study therefore provides critical insights to develop the activator of miR-410-3p for the clinical treatment of HIBD in future clinic trial.
ISSN:0361-9230
1873-2747
DOI:10.1016/j.brainresbull.2020.06.011