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Changes in Glial Cell Line-derived Neurotrophic Factor Expression in the Rostral and Caudal Stumps of the Transected Adult Rat Spinal Cord
Authors:Hao-Li Zhou  Hui-Juan Yang  Yong-Mei Li  Ying Wang  Ling Yan  Xi-Liang Guo  Ying-Chun Ba  Su Liu  Ting-Hua Wang
Affiliation:(1) Institute of Neurological Disease, West China Hospital, Sichuan University, Chengdu, 610041, China;(2) Institute of Neuroscience, Kunming Medical College, Kunming, 650031, China;(3) Nursing Department, Weifang Medical College, Weifang, 261042, China;(4) Department of Histology, Embryology and Neurobiology, College of Preclinical and Forensic Medicine, Sichuan University, Chengdu, 610041, China
Abstract:Limited information is available regarding the role of endogenous Glial cell line-derived neurotrophic factor (GDNF) in the spinal cord following transection injury. The present study investigated the possible role of GDNF in injured spinal cords following transection injury (T9–T10) in adult rats. The locomotor function recovery of animals by the BBB (Basso, Beattie, Bresnahan) scale score showed that hindlimb support and stepping function increased gradually from 7 days post operation (dpo) to 21 dpo. However, the locomotion function in the hindlimbs decreased effectively in GDNF-antibody treated rats. GDNF immunoreactivty in neurons in the ventral horn of the rostral stump was stained strongly at 3 and 7 dpo, and in the caudal stump at 14 dpo, while immunostaining in astrocytes was also seen at all time-points after transection injury. Western blot showed that the level of GDNF protein underwent a rapid decrease at 7 dpo in both stumps, and was followed by a partial recovery at a later time-point, when compared with the sham-operated group. GDNF mRNA-positive signals were detected in neurons of the ventral horn, especially in lamina IX. No regenerative fibers from corticospinal tract can be seen in the caudal segment near the injury site using BDA tracing technique. No somatosensory evoked potentials (SEP) could be recorded throughout the experimental period as well. These findings suggested that intrinsic GDNF in the spinal cord could play an essential role in neuroplasticity. The mechanism may be that GDNF is involved in the regulation of local circuitry in transected spinal cords of adult rats.
Keywords:GDNF  Spinal cord transection  Immunohistochemistry  In situ hybridization  Western blot  Antibody  Rats
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