RNA interference mediated in human primary cells via recombinant baculoviral vectors
RNA interference mediated in human primary cells via recombinant baculoviral vectors
The success of RNA interference (RNAi) in mammalian cells, mediated by siRNAs or shRNA-generating plasmids, is dependent, to an extent, upon transfection efficiency. This is a particular problem with primary cells, which are often difficult to transfect using cationic lipid vehicles. Effective RNAi in primary cells is thus best achieved with viral vectors, and retro-, adeno-, and lentivirus RNAi systems have been described. However, the use of such human viral vectors is inherently problematic, e.g., Class 2 status and requirement of secondary helper functions. Although insect cells are their natural host, baculoviruses also transduce a range of vertebrate cell lines and primary cells with high efficiency. The inability of baculoviral vectors to replicate in mammalian cells, their Class 1 status, and the simplicity of their construction make baculovirus an attractive alternative gene delivery vector. We have developed a baculoviral-based RNAi system designed to express shRNAs and GFP from U6 and CMV promoters, respectively. Transduction of Saos2, HepG2, Huh7, and primary human hepatic stellate cells with a baculoviral construct expressing shRNAs targeting lamin A/C resulted in effective knockdown of the corresponding mRNA and protein. Development of this baculoviral-based system provides an additional shRNA delivery option for RNAi-based investigations in mammalian cells.
rna interference, gene silencing, baculovirus, human cell lines, hepatic stellate cells
638-644
Nicholson, Linda J.
1466a38c-99dc-4ae2-9a75-fbd4e7da1176
Philippe, Marie
d078ac3e-ca37-49ee-9a94-bd5d06a9d506
Paine, Alan J.
a7dfb128-ceab-48b2-9dc8-39c604b7c978
Mann, Derek A.
7a0eb3d7-c2ca-432f-82a0-f4b0df08755d
Dolphin, Colin T.
193c54e6-8ebd-4036-9a5a-6b35f2f83d41
2005
Nicholson, Linda J.
1466a38c-99dc-4ae2-9a75-fbd4e7da1176
Philippe, Marie
d078ac3e-ca37-49ee-9a94-bd5d06a9d506
Paine, Alan J.
a7dfb128-ceab-48b2-9dc8-39c604b7c978
Mann, Derek A.
7a0eb3d7-c2ca-432f-82a0-f4b0df08755d
Dolphin, Colin T.
193c54e6-8ebd-4036-9a5a-6b35f2f83d41
Nicholson, Linda J., Philippe, Marie, Paine, Alan J., Mann, Derek A. and Dolphin, Colin T.
(2005)
RNA interference mediated in human primary cells via recombinant baculoviral vectors.
Molecular Therapy, 11 (4), .
(doi:10.1016/j.ymthe.2004.12.010).
Abstract
The success of RNA interference (RNAi) in mammalian cells, mediated by siRNAs or shRNA-generating plasmids, is dependent, to an extent, upon transfection efficiency. This is a particular problem with primary cells, which are often difficult to transfect using cationic lipid vehicles. Effective RNAi in primary cells is thus best achieved with viral vectors, and retro-, adeno-, and lentivirus RNAi systems have been described. However, the use of such human viral vectors is inherently problematic, e.g., Class 2 status and requirement of secondary helper functions. Although insect cells are their natural host, baculoviruses also transduce a range of vertebrate cell lines and primary cells with high efficiency. The inability of baculoviral vectors to replicate in mammalian cells, their Class 1 status, and the simplicity of their construction make baculovirus an attractive alternative gene delivery vector. We have developed a baculoviral-based RNAi system designed to express shRNAs and GFP from U6 and CMV promoters, respectively. Transduction of Saos2, HepG2, Huh7, and primary human hepatic stellate cells with a baculoviral construct expressing shRNAs targeting lamin A/C resulted in effective knockdown of the corresponding mRNA and protein. Development of this baculoviral-based system provides an additional shRNA delivery option for RNAi-based investigations in mammalian cells.
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Published date: 2005
Additional Information:
Short Communication
Keywords:
rna interference, gene silencing, baculovirus, human cell lines, hepatic stellate cells
Identifiers
Local EPrints ID: 27290
URI: http://eprints.soton.ac.uk/id/eprint/27290
ISSN: 1525-0016
PURE UUID: d383b36e-7cee-4a0a-98d0-a0e58f5a97ae
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Date deposited: 25 Apr 2006
Last modified: 15 Mar 2024 07:17
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Contributors
Author:
Linda J. Nicholson
Author:
Marie Philippe
Author:
Alan J. Paine
Author:
Derek A. Mann
Author:
Colin T. Dolphin
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