LIN Jianhua , WANG Changsheng , WU Zhaoyang.
  • Department of Orthopedics, the First Affiliated Hospital of Fujian Medical University, Fuzhou Fujian, 350005, P.R.China.;
Bone marrow mesenchymal stem cells; Human brain-derived neurotrophic factor; Spinal cord injury; Gene modification; Intravenous transplantation; Rat
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Objective To transplant intravenously human brain-derived neurotrophic factor (hBDNF) genemodified bone marrow mesenchymal stem cells (BMSCs) marked with enhanced green fluorescent protein (EGFP) to injured spinal cord of adult rats, then to observe the viabil ity of the cells and the expressions of the gene in spinal cord, as well as the
influence of neurological morphological repairing and functional reconstruction. Methods Ninety-six male SD rats weighing (250 ± 20) g were randomly divided into 4 groups: hBDNF-EGFP-BMSCs transplantation group (group A, n=24), Ad5-EGFPBMSCs transplantation group (group B, n=24), control group (group C, n=24), and sham operation group (group D, n=24). In groups A, B, and C, the spinal cord injury models were prepared according to the modified Allen method at the level of T10 segment, and after 3 days, 1 mL hBDNF-EGFP-BMSCs suspension, 1 mL Ad5-EGFP-BMSCs suspension and 1 mL 0.1 mol/L phosphate buffered sal ine (PBS) were injected into tail vein, respectively; in group D, the spinal cord was exposed without injury and injection. At 24 hours after injury and 1, 3, 5 weeks after intravenous transplantation, the structure and neurological function of rats were evaluated by the Basso-Beattie-Bresnahan (BBB) score, cortical somatosensory evoked potential (CSEP) and transmission electron microscope. The viabil ity and distribution of BMSCs in the spinal cord were observed by fluorescent inverted phase contrast microscope and the level of hBDNF protein expression in the spinal cord was observed and analyzed with Western blot. Meanwhile, the expressions of neurofilament 200 (NF-200) and synaptophysin I was analyzed with immunohi stochemistry. Results After intravenous transplantation, the neurological function was significantly improved in group A. The BBB scores and CSEP in group A were significantly higher than those in groups B and C (P  lt; 0.05) at 3 and 5 weeks. The green fluorescence expressions were observed at the site of injured spinal cord in groups A and B at 1, 3, and 5 weeks. The hBDNF protein
expression was detected after 1, 3, and 5 weeks of intravenous transplantation in group A, while it could not be detected in groups B, C, and D by Western blot. The expressions of NF-200 and synaptophysin I were ber and ber with transplanting time in groups A, B, and C. The expressions of NF-200 and synaptophysin I were best at 5 weeks, and the expressions in group A were ber than those in groups B and C (P  lt; 0.05). And the expressions of NF-200 in groups A, B, and C were significantly ber than those in group D (P  lt; 0.05), whereas the expressions of synaptophysin I in groups A, B, and C were significantly weaker than those in group D (P  lt; 0.05). Ultramicrostructure of spinal cords in group A was almost normal. Conclusion Transplanted hBDNF-EGFP-BMSCs can survive and assemble at the injured area of spinal cord, and express hBDNF. Intravenous implantation of hBDNF-EGFP-BMSCs could promote the restoration of injured spinal cord and improve neurological functions.

Citation: LIN Jianhua,WANG Changsheng,WU Zhaoyang.. PRELIMINARY STUDY ON EFFECTS OF HUMAN BRAIN-DERIVED NEUROTROPHIC FACTOR GENE-MODIFIED BONE MARROW MESENCHYMAL STEM CELLS BY INTRAVENOUS TRANSPLANTATION ON STRUCTURE AND FUNCTION OF RAT INJURED SPINAL CORD. Chinese Journal of Reparative and Reconstructive Surgery, 2010, 24(8): 982-987. doi: Copy