Molecular Mechanism of MiR-136-5p Targeting NF-?oB/A20 in the IL-17-Mediated Inflammatory Response after Spinal Cord Injury

摘要

>Background/Aims: The pathophysiology of spinal cord injury (SCI) results in serious damage to the human body via an increase in the secondary biological processes imposed by activated astrocytes. Abnormal expression of microRNAs after SCI has become a potential research focus. However, the underlying mechanisms are poorly understood. Methods: SCI models were established in rats using Allena€?s method, and the BBB scoring method was employed to assess locomotor function. Lentivirus was used to infect rat astrocytes and SCI rats. Real-time PCR and antibody chip were used to measure gene expression and cytokine secretion. Western blot analysis was employed to detect protein expression. HE staining was used to assess the histological changes in SCI. The immunohistochemical staining of A20 and p-NF-?oB in SCI was also analyzed. Results: The in vitro experiment showed that miR-136-5p up-regulated the expression of p-NF-?oB by down-regulating the expression of A20 so that astrocytes produced inflammatory factors and chemokines. The in vivo experiment indicated that overexpressed miR-136-5p promoted the production of inflammatory factors, chemokines and p-NF-?oB in SCI rats, whereas it inhibited the expression of A20 protein and increased inflammatory cell infiltration and injuries in the spinal cord. Conclusion: The current findings indicate that silencing miR-136-5p effectively decreased inflammatory factors and chemokines and protected the spinal cord via NF-?oB/A20 signaling in vivo and in vitro. In contrast, overexpression of miR-136-5p had the opposite effect.