Peripheral nerve injury (PNI) is encountered relatively commonly in the clinic and often results in long-term functional deficits. Research to develop methods to improve regeneration following nerve injury is ongoing. Numerous studies have shown that adipose-derived stem cells (ADSCs) promote the regeneration of peripheral nerve injury; however, the mechanism is unclear. Autophagy, a highly conserved intracellular process responsible for maintaining cellular homeostasis, and Schwann cells (SCs), play important roles in regeneration after PNI. In the present study, we explored the effect and mechanism of exosomes produced by adipose-derived stem cells (ADSC-Exos) on autophagy of SCs in PNI, as well as their effect on the regeneration of the nerve myelin sheath. The levels of autophagy and the expression of karyopherin subunit alpha 2 (Kpna2) in SCs increased markedly after the sciatic nerve was injured in SCs (SNI-SCs). The enhanced autophagy and the upregulated Kpna2 in SNI-SCs were inhibited after treatment with ADSC-Exos in vivo and in vitro. The effect of ADSC-Exos on inhibiting SC autophagy was blocked by overexpression of Kpna2 in SNI-SCs. Using quantitative real-time reverse transcription PCR, ADSC-Exos were demonstrated to contain a large amount of miRNA-26b, which was predicted to regulate Kpna2 on the TargetScan website. The effect of ADSC-Exos on inhibiting SCs autophagy was blocked after the silencing of miRNA-26b. Moreover, ADSC-Exos promoted the regeneration of the myelin sheath by inhibiting SC autophagy in rat SNI models. In conclusion, our results indicated that ADSC-Exos promote the regeneration of the myelin sheath by moderately reducing autophagy of injured SCs via miRNA-26b downregulation of Kpna2.
Keywords: Adipose-derived stem cells; Autophagy; Exosomes; KPNA2; Myelin sheath; miRNA-26b.
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