1. Sonoporation-mediated gene transfer into adult rat dorsal root ganglion cells
- Author
-
Wei Dih Sy, Chih Hsien Wu, Shyr Ming Sheen-Chen, Chung Ren Lin, Yi Shen Chen, Kuan Hung Chen, Jiin Tsuey Cheng, and Chien Hui Yang
- Subjects
Programmed cell death ,Cell type ,Cell Survival ,Endocrinology, Diabetes and Metabolism ,Clinical Biochemistry ,Genetic Vectors ,Green Fluorescent Proteins ,lcsh:Medicine ,Biology ,Transfection ,Viral vector ,Dorsal root ganglion ,Tubulin ,Ganglia, Spinal ,medicine ,Animals ,Pharmacology (medical) ,Ultrasonics ,Molecular Biology ,Cells, Cultured ,Biochemistry, medical ,Neurons ,Liposome ,Research ,lcsh:R ,Biochemistry (medical) ,fungi ,Lentivirus ,Gene Transfer Techniques ,General Medicine ,Cell Biology ,Molecular biology ,Recombinant Proteins ,Rats ,medicine.anatomical_structure ,Liposomes ,biology.protein ,Sonoporation - Abstract
Background Gene transfer into many cell types has been successfully used to develop alternative and adjunct approaches to conventional medical treatment. However, effective transfection of postmitotic neurons remains a challenge. The aim of this study was to develop a method for gene transfer into rat primary dorsal root ganglion neurons using sonoporation. Methods Dissociated cells from adult rat dorsal root ganglion (DRG) cells were sonicated for 1-8 s at 2.5-10 W to determine the optimal ultrasound duration and power for gene transfection and cell survival. Transfection efficiency was compared between sonoporation, liposome and lentiviral vector gene transfer techniques. Results The optimum ultrasound intensity was 5 W for 2 s and yielded an efficiency of gene transfection of 31% and a survival rate of 35%. Conclusions Sonoporation can be optimized to minimize cell death and yield a high percentage of transfected neurons and that this technique can be easily applied to primary cultures of rat dorsal root ganglion neurons.
- Published
- 2010