VEGF overexpression in transplanted NSCs promote recovery of neurological function in rats with cerebral ischemia by modulating the Wnt signal transduction pathway.

Neural stem cell transplantation is a good method to treat stroke, but the mechanism is still unclear. Therefore, this study aims to explore the regulatory mechanism of VEGF overexpression in transplanted NSCs to promote the recovery of neural function in ischemic rats by regulating Wnt signal transduction pathways. We amplified VEGF gene fragments by PCR and transfected them into NSCs with Ad5 adenovirus. Rat brain IRI model was established by MCAO method, and VEGF transfected NSCs (VEGF-NSCs) were transplanted 24 h after successful IRI model. One week after the transplant, cognitive function was assessed using a neurological deficit score; Brain injury was assessed by histopathology; Photochemical and ELISA methods were used to detect oxidative stress markers and inflammatory factors, respectively. Western blotting has been detected in molecules of the Wnt signaling pathway. The results showed that the transduced NSCs express VEGF at least for 14 days. VEGF-NSCs transplantation (VNT) improved spatial learning and memory in rats, and inhibited oxidative stress injury, inflammatory response, and histopathological injury. VNT also resulted in significant changes in the phosphorylation levels of β-catenin and GSK-3β proteins, ultimately triggering activation of the Wnt signal transduction pathway. These results suggest that the neuroprotective effects of VNT may be related to the regulation of the Wnt signal transduction pathway.