TY - JOUR
T1 - Highly efficient gene delivery into transfection-refractory neuronal and astroglial cells using a retrovirus-based vector
AU - Kim, Byung Oh
AU - Pyo, Suhkneung
PY - 2005/4
Y1 - 2005/4
N2 - Introduction of foreign genes into brain cells, such as neurons and astrocytes, is a powerful approach to study the gone function and regulation in the neuroscience field. Calcium phosphate precipitates have been shown to cause cytotoxicity in some mammalian cells and brain cells, thus leading to low transfection efficiency. Here, we describe a retrovirus-mediated gone delivery method to transduce foreign genes into brain cells. In all attempt to achieve higher gene delivery efficiency in these cells, we made several changes to the original method, including (1) use of a new packaging cell line, Phoenix ampho cells, (2) transfection of pMX retroviral DNA, (3) inclusion of 25 mM chloroquine in the transduction, and (4) 3-5 h incubation of retroviruses with target cells. The results showed that the modified protocol resulted in a range of 40-60% clene delivery efficiency in neurons and astrocytes. Furthermore, these results suggest the potential of the retrovirus-mediated gene delivery protocol being modified and adapted for other transfection-refractory cell lines and primary cells.
AB - Introduction of foreign genes into brain cells, such as neurons and astrocytes, is a powerful approach to study the gone function and regulation in the neuroscience field. Calcium phosphate precipitates have been shown to cause cytotoxicity in some mammalian cells and brain cells, thus leading to low transfection efficiency. Here, we describe a retrovirus-mediated gone delivery method to transduce foreign genes into brain cells. In all attempt to achieve higher gene delivery efficiency in these cells, we made several changes to the original method, including (1) use of a new packaging cell line, Phoenix ampho cells, (2) transfection of pMX retroviral DNA, (3) inclusion of 25 mM chloroquine in the transduction, and (4) 3-5 h incubation of retroviruses with target cells. The results showed that the modified protocol resulted in a range of 40-60% clene delivery efficiency in neurons and astrocytes. Furthermore, these results suggest the potential of the retrovirus-mediated gene delivery protocol being modified and adapted for other transfection-refractory cell lines and primary cells.
KW - Astroglial cells
KW - Neuronal cell
KW - Retrovirus-based vector
KW - Retrovirus-mediated gene delivery
UR - http://www.scopus.com/inward/record.url?scp=18144404695&partnerID=8YFLogxK
M3 - Article
AN - SCOPUS:18144404695
SN - 1017-7825
VL - 15
SP - 451
EP - 454
JO - Journal of Microbiology and Biotechnology
JF - Journal of Microbiology and Biotechnology
IS - 2
ER -