High efficiency gene transfer into cultured primary rat and human hepatic stellate cells using baculovirus vectors
High efficiency gene transfer into cultured primary rat and human hepatic stellate cells using baculovirus vectors
Background/aims: Gene transfer into hepatic stellate cells (HSC) is inefficient when using plasmid-based transfection methods; viral-based systems are therefore being developed. A baculovirus system has recently been shown to be useful for expressing genes in mammalian cells. The aim of this study was to determine if baculovirus vectors can infect and express target genes in rat and human HSC and to assess potential cytotoxic and modulatory effects of infection.
Methods: A recombinant baculovirus vector (AcCALacZ) carrying the LacZ gene was used to infect HSC. ?-Galactosidase assays and electron microscopy were used to determine efficiency of infection and gene expression. Counting of trypan blue negative cells was used to assess cytotoxic/cytostatic effects of infection. Measurement of protein content of cells and ?-smooth muscle actin expression were performed to assess the effects of baculovirus on cell function/phenotype.
Results: Baculovirus infection of activated HSC was highly efficient (> 90%) and provided long-term LacZ gene expression (15 days) in the absence of cytotoxic, cytostatic or modulatory effects. Infection of freshly isolated cells was also observed but at lower levels (20%).
Conclusions: Baculovirus vectors can therefore be used to deliver target genes to cultured rat and human HSC with high efficiency and longevity in the absence of detrimental effects on cell function.
baculovirus, gene transfer, hepatic stellate cell, liver fibrosis
15-22
Gao, Runping
c55da89c-c7ae-4bdb-a2e6-a9ccc1e4db9b
McCormick, Christopher J.
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Arthur, Michael J.
0f430e69-59fb-401a-8aa5-343998f47887
Ruddell, Richard
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Oakley, Fiona
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Smart, David E.
fcac679f-6eab-4df5-81da-be0017b87984
Murphy, Frank R.
c7ab04b9-0d49-412e-b9b7-402b151c0acf
Harris, Mark P.
c059a59e-7432-4ca9-89f5-e535a591873e
Mann, Derek A.
5e23982a-c36d-4c5e-8614-806b00ff4255
2002
Gao, Runping
c55da89c-c7ae-4bdb-a2e6-a9ccc1e4db9b
McCormick, Christopher J.
0e4e0dd5-c6f0-409e-84ec-de7926f78964
Arthur, Michael J.
0f430e69-59fb-401a-8aa5-343998f47887
Ruddell, Richard
197b0854-c215-4372-830e-f636dcbf127c
Oakley, Fiona
f5f32319-966d-46b1-b774-bd7548022ff3
Smart, David E.
fcac679f-6eab-4df5-81da-be0017b87984
Murphy, Frank R.
c7ab04b9-0d49-412e-b9b7-402b151c0acf
Harris, Mark P.
c059a59e-7432-4ca9-89f5-e535a591873e
Mann, Derek A.
5e23982a-c36d-4c5e-8614-806b00ff4255
Gao, Runping, McCormick, Christopher J., Arthur, Michael J., Ruddell, Richard, Oakley, Fiona, Smart, David E., Murphy, Frank R., Harris, Mark P. and Mann, Derek A.
(2002)
High efficiency gene transfer into cultured primary rat and human hepatic stellate cells using baculovirus vectors.
Liver International, 22 (1), .
(doi:10.1046/j.0106-9543.2001.01555.x).
Abstract
Background/aims: Gene transfer into hepatic stellate cells (HSC) is inefficient when using plasmid-based transfection methods; viral-based systems are therefore being developed. A baculovirus system has recently been shown to be useful for expressing genes in mammalian cells. The aim of this study was to determine if baculovirus vectors can infect and express target genes in rat and human HSC and to assess potential cytotoxic and modulatory effects of infection.
Methods: A recombinant baculovirus vector (AcCALacZ) carrying the LacZ gene was used to infect HSC. ?-Galactosidase assays and electron microscopy were used to determine efficiency of infection and gene expression. Counting of trypan blue negative cells was used to assess cytotoxic/cytostatic effects of infection. Measurement of protein content of cells and ?-smooth muscle actin expression were performed to assess the effects of baculovirus on cell function/phenotype.
Results: Baculovirus infection of activated HSC was highly efficient (> 90%) and provided long-term LacZ gene expression (15 days) in the absence of cytotoxic, cytostatic or modulatory effects. Infection of freshly isolated cells was also observed but at lower levels (20%).
Conclusions: Baculovirus vectors can therefore be used to deliver target genes to cultured rat and human HSC with high efficiency and longevity in the absence of detrimental effects on cell function.
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Published date: 2002
Keywords:
baculovirus, gene transfer, hepatic stellate cell, liver fibrosis
Identifiers
Local EPrints ID: 27068
URI: http://eprints.soton.ac.uk/id/eprint/27068
ISSN: 1478-3223
PURE UUID: b97d46fc-7f6f-4c25-9fff-fe91b9cdd639
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Date deposited: 28 Apr 2006
Last modified: 15 Mar 2024 07:15
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Contributors
Author:
Runping Gao
Author:
Christopher J. McCormick
Author:
Michael J. Arthur
Author:
Richard Ruddell
Author:
Fiona Oakley
Author:
David E. Smart
Author:
Frank R. Murphy
Author:
Mark P. Harris
Author:
Derek A. Mann
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