CircRNA_01477 influences axonal growth via regulating miR-3075/FosB/Stat3 axis.

Circular RNAs (circRNAs) are important for the development and regeneration of the nervous system. We investigated the differential expression profiles of circRNA induced by spinal cord injury and reported that circRNA_01477 facilitates spinal astrocyte proliferation and migration after injury in rats. In this study, we further clarified the function and possible mechanism of action of circRNA_01477 in neurons. Fluorescence in situ hybridization assay revealed that circRNA_01477 is mainly localized in the neuronal cytoplasm. Knockdown of circRNA_01477 significantly increased axonal length. The circRNA_01477/microRNAs (miRNA)/messenger RNA (mRNA) interaction network was investigated using RNA sequencing. miRNA-3075 showed a remarkable increase after circRNA_01477 depletion, and either overexpression of miRNA-3075 or downregulation of its target gene FosB significantly promoted axonal growth. Luciferase reporter assay showed that miRNA-3075 could directly bind to the 3'UTR of FosB and negatively regulated FosB transcription. Dual silencing of circRNA_01477 and miR-3075 revealed that miR-3075 inhibition rescued the increased axon length caused by siCircRNA_01477. Finally, we verified that the Stat3 pathway was activated after FosB protein depletion in rat spinal neurons, while the NF-κB pathway was not altered. In summary, our study is the first to report that circRNA_01477 contributes to axon growth by functioning as miRNA sponge by regulating the miRNA-3075/FosB/Stat3 axis.