摘要
Objective To investigate the possibility of the transfection of glial-cell line derived neurotro-phic factor (GDNF) gene into Schwann cells (SCs). Methods SCs cultures from sciatic nerves of neonatal rats were established. A recombinant retrovirus vector containing GDNF gene was constructed and transferred into SCs. Expression levels of GDNF mRNA and protein were respectively identified with reverse transcriptase-polymerase chain reaction (RT-PCR) and immunocytochemistry. Determination of GDNF synthesis rates from Retro. pLNCX2-GDNF-transduced SCs (GDNF-SCs) in vitro by enzyme-linked immunoassay sensitive assay (ELISA). Biololgical activity of conditioned medium from GENF-SCs was analysed by co-culture with rat motoneurons. Results Transfection of GDNF gene into SCs lead to significantly enhanced expression of GDNF mRNA and protein. The rate of GDNF secreted by GDNF-SCs was also enhanced(5. 1-fold) ,and more motoneurons survived co-cultured with conditioned medium of GNDF-SCs than with that of normal SCs. Conclusion GNDF gene transfection may be a better way to graft SCs promoting regeneration and repairing demyelination in PNS and CNS.
To investigate the possibility of the transfection of glial-cell line derived neurotrophic factor (GDNF) gene into Schwann cells(SCs). Methods SCs cultures from sciatic nerves of neonatal rats were established. A recombinant retrovirus vector containing GDNF gene was constructed and transferred into SCs.Expression levels of GDNF mRNA and protein were respectively identified with reverse transcriptase-polymerase chain reaction (RT-PCR) and immunocytochemistry. Determination of GDNF synthesis rates from Retro. pLNCX2-GDNF-transduced SCs (GDNF-SCs) in vitro by enzyme-linked immunoassay sensitive assay ( EL1SA ). Biololgical activity of conditioned medium from GENF-SCs was analysed by co-culture with rat motoneurons. Results Transfection of GDNF gene into SCs lead to significantly enhanced expression of GDNF mRNA and protein. The rate of GDNF secreted by GDNF-SCs was also enhanced (5. 1-fold), and more motoneurons survived co-cultured with conditioned medium of GNDF-SCs than with that of normal SCs. Conclusion GNDF gene transfection may be a better way to graft SCs promoting regeneration and repairing demyelination in PNS and CNS.
