Yi-Chen Ho scite author profile

Although baculovirus-mediated gene delivery into mammalian cells has been documented in a wealth of the literature, systematic investigation of the optimal transduction conditions remains unavailable. In this work, a transduction protocol using unconcentrated baculovirus is proposed for simple and efficient gene delivery into HeLa cells. We found that approximately 75-85% of the cells could be readily transduced and express the reporter protein when virus transduction occurred for 4 h at 25 degrees C using Dulbecco's phosphate-buffered saline (D-PBS) as the surrounding solution. This method contrasts with previous protocols in which transduction occurs for 1 h at 37 degrees C using growth medium (e.g., DMEM) as the surrounding solution. Investigation of the physical parameters led to the findings that: 1) baculovirus uptake by HeLa cells continued for at least 4 h in the event of high virus dosage, which led to higher gene expression; 2) the half-life of baculovirus dramatically decreased at 37 degrees C; 3) EGTA pretreatment did not apparently facilitate the gene delivery when the cells grew to multilayers; and 4) lower transduction efficiency and gene expression were obtained when DMEM was used (in comparison with D-PBS and TNM-FH), suggesting that DMEM contains certain inhibitory factors for baculovirus transduction. Our data uncovered several aspects that were not investigated before and the optimized transduction conditions allowed for gene delivery as efficient as that by the protocols commonly employed by others, but eliminated the need for virus ultracentrifugation. The protocol not only represented a simpler approach, but also considerably reduced possible virus inactivation during ultracentrifugation, thus making it easier to convert the baculovirus/mammalian cell system to a tool for eukaryotic protein production on a larger scale.

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Highly efficient baculovirus‐mediated gene transfer into rat chondrocytes

Chen

Wang

et al. 2004

Biotech & Bioengineering

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To explore the potential of baculovirus serving as a gene delivery vector in tissue engineering of articular cartilage, the efficiencies of baculovirus-mediated gene delivery into primary rat chondrocytes were evaluated and the transduction protocol commonly employed by others (using concentrated virus at multiplicity of infection [MOI] 200 for 1 h) was found to be ineffective (<1%). Therefore, a modified protocol was adopted, which markedly enhanced the efficiency (68%). Optimization of the transduction parameters, such as incubation time (8 h), temperature (25 degrees C), and surrounding solutions (PBS), further increased the efficiency to 88% and prolonged the duration of expression to 21 days, suggesting that the cells previously considered nonpermissive to baculovirus transduction may be reexamined for their permissiveness using alternative transduction protocols. The elevated efficiency correlated well with increased virus uptake upon extended incubation time, as demonstrated by quantitative real-time polymerase chain reaction (Q-PCR). The Q-PCR also revealed the degradation of viral DNA over culture time. Although the virus transduction somewhat hindered the cell proliferation, growth rate could be restored in the long-term culture. More importantly, transduced cells could secrete articular cartilage-specific type II collagen and glycosaminoglycan as well as mock-transduced cells, confirming that normal differentiation state of rat chondrocytes is retained upon baculovirus transduction. Taken together, these data indicate that baculovirus is a safe and highly efficient gene delivery vehicle into rat chondrocytes.

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Transgene expression and differentiation of baculovirus‐transduced human mesenchymal stem cells

Chung

Hwang

et al. 2005

The Journal of Gene Medicine

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Yi-Chen Ho

Investigation of optimal transduction conditions for baculovirus‐mediated gene delivery into mammalian cells

Highly efficient baculovirus‐mediated gene transfer into rat chondrocytes

Transgene expression and differentiation of baculovirus‐transduced human mesenchymal stem cells

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