Neural Stem Cell Transplantation Improves Locomotor Function in Spinal CordTransection Rats Associated with Nerve Regeneration and IGF-1 R Expression

摘要

Transplantation of neural stem cells (NSCs) is a potential strategy for the treatment of spinal cord transection (SCT). Here we investigated whether transplanted NSCs would improve motor function of rats with SCT and explored the underlying mechanism. First, the rats were divided into sham, SCT, and NSC groups. Rats in the SCT and NSC groups were all subjected to SCT in T10, and were administered with media and NSC transplantation into the lesion site, respectively. Immunohistochemistry was used to label Nestin-, TUNEL-, and NeuN-positive cells and reveal the expression and location of type I insulin-like growth factor receptor (IGF-1 R). Locomotor function of hind limbs was assessed by Basso, Beattie, Bresnahan (BBB) score and inclined plane test. The conduction velocity and amplitude of spinal nerve fibers were measured by electrophysiology and the anatomical changes were measured using magnetic resonance imaging. Moreover, expression of IGF-1 R was determined by real-time polymerase chain reaction and Western blotting. The results showed that NSCs could survive and differentiate into neurons in vitro and in vivo. SCT-induced deficits were reduced by NSC transplantation, including increase in NeuN-positive cells and decrease in apoptotic cells. Moreover, neurophysiological profiles indicated that the latent period was decreased and the peak-to-peak amplitude of spinal nerve fibers conduction was increased in transplanted rats, while morphological measuresindicated that fractional anisotropy and the number of nerve fibers in the site of spinalcord injury were increased after NSC transplantation. In addition, mRNA and protein levelof IGF-1 R were increased in the rostral segment in the NSC group, especially in neurons.Therefore, we concluded that NSC transplantation promotes motor function improvement ofSCT, which might be associated with activated IGF-1 R, especially in the rostral site. Allof the above suggests that this approach has potential for clinical treatment of spinalcord injury.