Effect of Schwann cell-derived neural cell adhesion molecule L_1 on axon regeneration of injured spinal cord
- VernacularTitle:雪旺细胞源性神经细胞黏附分子L_1对脊髓轴突再生作用的研究
- Author:
Haifeng WEI
;
Li CAO
;
Jianru XIAO
- Publication Type:Journal Article
- Keywords:
NCAM;
Schwann cells;
Axons;
Nerve regeneration;
Spinal cord injuries
- From:
Chinese Journal of Orthopaedics
2001;0(03):-
- CountryChina
- Language:Chinese
-
Abstract:
Objective To study the effect of Schwann cell enclosed by antibody of neural cell adhesion molecule L1 on injured spinal cord. Methods Over 98% of the purity of Schwann cells obtained from bilateral sciatic nerves of 2 days newborn SD rats, the concentration of Schwann cells was about 2.5?104 /?l. The Schwann cells were enclosed by the antibody of neural cell adhesion molecule L1 using co-culture. The adult SD rats (weight 200-250 g) were used to establish the model of spinal cord injury by hemi-transection at the left side of T10 level. The animals were divided into three groups; the SC group was transplanted with 20 ?l suspension Schwann cells; the anti-L1 group with 20 ?l Schwann cells enclosed by antibody of neural cell adhesion molecule L1; and the control group was injected solely with normal saline to the injured cord. Eight weeks later regenerated neural axons were investigated through horseradish peroxiase HRP retrograde trace immunohistochemistry of neurofilament and Western blot. Results Few regenerated neural axons appeared in the control group; some of regenerated neural axons could be observed in anti-L1 group; plentiful and bulky regenerated neural axons were found in SC group. The group with antibody had significant less HRP positive neurons and neural axons than the group without antibody. Western blot showed that the quantity of neurofilament in the anti-L1 group was only two thirds of the SC group. Conclusion Schwann cell-derived neural cell adhesion molecule L1 is able to enhance the neural axon regeneration of injured spinal cord.
