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Optimization of environmental factors for the production and handling of recombinant retrovirus

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Abstract

Certain steps from the production to infection of the amphotrophic retroviral vector, MFG-LacZ, were optimized and the factors that affect retroviral titers were analyzed. Retroviral vector titers were highest when the culture supernatant was harvested 3 days after the producer cells had reached confluence. About a 2-fold increase in vector production was achieved at 32°C compared to that at 37°C. Low serum concentrations had no significant effect on the titers of virus produced by the CRIP cell line. Retroviral vectors were stable at 4°C but very unstable at 37°C and were quite sensitive to freezing and thawing. About 30%–50% of viral infectivity was lost during the thawing step and the loss was not recovered by the addition of commonly used cryoprotectants. Increase in viral exposure time for infection to target NIH3T3 cells was linearly proportional to the retroviral titer for up to 15 h. In addition, using DEAE-dextran in place of polybrene as a polycation during infection enhanced infection efficiency about 3-fold. The retrovirus was robust to simple ultrafiltration and its titer could be easily concentrated 16-fold. Taken together, our data suggest that at least a 100-fold increase in titer can be achieved with simple optimization.

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References

  • Dranoff G, Jaffee EM, Lazenby A, Golumbeck P, Levitsky H, Brose K, Jackson V, Hamada H, Pardoll DM, Mulligan RC (1993) Vaccination with irradiated tumor cells engineered to secrete murine GMCSF stimulates potent, specific and long lasting antitumor immunity. Proc Natl Acad Sci USA 90:3539–3543

    Google Scholar 

  • Grubb BR, Pickies RJ, Ye Hong, Yankaskas JR, Vick RN, Engelhardt JF, Willson JM, Johnson LG, Boucher RC (1994) Inefficient gene transfer by adenovirus vector to cystic fibrosis airway epithelia of mice and humans. Nature 371:802–806

    Google Scholar 

  • Kotani H, Newton P, Chiang YL, Otto E, Weaver L, Blease RM, Anderson WF, Mcgarrity GJ (1994) Improved methods of retroviral vector transduction and production for gene therapy. Hum Gene Ther 5:19–28

    Google Scholar 

  • Mannino RJ (1988) Liposome-mediated gene transfer. Biotechniques 6:682–684

    Google Scholar 

  • Miller AD, Buttimore C (1986) Redesign of retrovirus packaging cell lines to avoid recombination leading to helper virus production. Mol Cell Biol 6:2895–2902

    Google Scholar 

  • Miller AD, Rosman GJ (1989) Improved retroviral vectors for gene transfer and expression. Biotechniques 7:980–990

    Google Scholar 

  • Ohashi T, Boggs S, Robbins P (1992) Efficient transfer and sustained high expression to the human glucocerebrosidase gene in mice and their functional macrophages following transplantation of bone marrow transduced by a retroviral vector. Proc Natl Acad Sci USA 89:11332–11336

    Google Scholar 

  • Paul RW, Morris D, Hess BW, Dunn J, Overell RW (1993) Increased viral titer through concentration of viral harvests from retroviral packaging cell lines. Hum Gene Ther 4:609–615

    Google Scholar 

  • Pear WS, Nolan GP, Scott ML, Baltimore D (1993) Production of high titer helper-free retroviruses by transient transfection. Proc Natl Acad Sci USA 90:8392–8396

    Google Scholar 

  • Sanes JR, Rubenstein JLR, Nicolas J (1986) Use of a recombinant retrovirus to study post-implantation cell lineage in mouse embryos. EMBO J 5:3133–3142

    Google Scholar 

  • Sap J, Munoz A, Schmit J, Stunnenberg H, Vennstrom B (1989) Repression of transcription mediated at a thyroid hormone response element by the v-erb-A oncogene product. Nature 340:242–244

    Google Scholar 

  • Zhu N, Liggitt D, Liu Y, Debs R (1993) Systematic gene expression after intravenous DNA delivery into adult mice. Science 261:209–211

    Google Scholar 

  • Zitvogel L, Tahara H, Cai Q, Storkus WJ, Muller G, Wolf SF, Gately M, Robbins PD, Lotze MT (1994) Construction and characterization of retroviral vectors expressing biologically active human interleukin-12. Hum Gene Ther 5:1493–1506

    Google Scholar 

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Authors and Affiliations

  1. Institute for Molecular Biology and Genetics, Seoul National University, 151-742, Seoul, Korea

    S. Kim

  2. Department of Chemical Technology, Seoul National University, 151-742, Seoul, Korea

    S. -G. Lee & B. -G. Kim

  3. Department of Molecular Genetics and Biochemistry, University of Pittsburgh, School of Medicine, 15261, PA, USA

    P. D. Robbins

Authors
  1. S. -G. Lee
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  2. S. Kim
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  3. P. D. Robbins
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  4. B. -G. Kim
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Lee, S.G., Kim, S., Robbins, P.D. et al. Optimization of environmental factors for the production and handling of recombinant retrovirus. Appl Microbiol Biotechnol 45, 477–483 (1996). https://doi.org/10.1007/BF00578459

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  • DOI: https://doi.org/10.1007/BF00578459

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