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Quantitative analysis of lentivirus incorporation of heterologous viral and non-viral proteins for lung gene therapyJung, Cindy 12 November 2007 (has links)
Gene therapy is the delivery of genetic material to cells for a therapeutic effect. Retroviruses are one of the most common viral vectors used for gene therapy, especially lung gene therapy. However the lung has many physical and immunological barriers to gene transfer vectors, and currently, too few cells are genetically modified for the effective treatment of lung diseases such as cystic fibrosis. One of the main reasons for low cell transduction is the lack of commonly-used receptors for gene therapy vectors on the apical surface of polarized epithelial cells. The objective of this project was to determine how to incorporate proteins into the lentiviral lipid bilayer in order to develop a recombinant retrovirus that can efficiently deliver genes to polarized epithelial cells via their apical membranes. We analyzed the process of incorporating heterologous viral and non-viral proteins into lentiviruses and determined key factors that allowed for successful protein incorporation into the lentiviral lipid bilayer. We found that lipid rafts segregated raft proteins, and for a protein to be incorporated into virus particles, it must be colocalized with lentivirus-associated rafts. When cells were treated with the cholesterol-extracting compound, methyl-beta-cyclodextrin, previously sequestered viral and non-viral raft proteins were then colocalized and non-viral proteins were incorporated into lentiviruses. We also created a lentivirus pseudotyped with envelope proteins from human parainfluenza type 3 (HPIV3), which naturally targets polarized epithelial cells of the lung. Lentiviruses were able to incorporate HPIV3 glycoproteins, hemagglutinin-neuraminidase (HN) and fusion (F), and were able to transduce polarized cells in a manner consistent with lentiviral-mediated transduction via sialated receptors for HPIV3, however titers were too low for clinical use. We increased protein expression of HN and found that while expression, envelope incorporation, and titer increased, lentiviruses still incorporated too few envelope proteins for efficient transduction. We determined low envelope incorporation rates were due to lack of interactions with Gag, and increasing active and passive interactions with Gag enhanced HN and F incorporation into lentiviruses. Overall, this research is significant because it provides insight into viral assembly and protein incorporation for the generation of pseudotyped lentiviruses for human gene transfer.
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