MicroRNA-34a Modulates Neural Stem Cell Differentiation by Regulating Expression of Synaptic and Autophagic Proteins
2015
We have previously demonstrated the involvement of specific apoptosis-associated microRNAs (miRNAs), including miR-34a, in mouse neural stem cell (NSC) differentiation. In addition, a growing body of evidence points to a critical role for autophagy during neuronal differentiation, as a response-survival mechanism to limit oxidative stress and regulate synaptogenesis associated with this process. The aim of this study was to further investigate the precise role of miR-34a during NSC differentiation. Our results showed that miR-34a expression was markedly downregulated during neurogenesis. Neuronal differentiation and cell morphology, synapse function, and electrophysiological maturation were significantly impaired in miR-34a-overexpressing NSCs. In addition, synaptotagmin 1 (Syt1) and autophagy-related 9a (Atg9a) significantly increased during neurogenesis. Pharmacological inhibition of autophagy impaired both neuronal differentiation and cell morphology. Notably, we showed that Syt1 and Atg9a are miR-34a targets in neural differentiation context, markedly decreasing after miR-34a overexpression. Syt1 overexpression and rapamycin-induced autophagy partially rescued the impairment of neuronal differentiation by miR-34a. In conclusion, our results demonstrate a novel role for miR-34a regulation of NSC differentiation, where miR-34a downregulation and subsequent increase of Syt1 and Atg9a appear to be crucial for neurogenesis progression.
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