Abstract
SV40 was used to transduce gene expression in vitro and in vivo. Using cloned SV40 genome, we replaced large T antigen gene (Tag) with a polylinker, and inserted firefly luciferase, controlled by SV40 early promoter. Transfection into Tag-expressing cells yielded Tag-deficient virus, SVluc. SVluc was Tag-deficient and therefore replication-deficient in cells that did not supply Tag. SVluc transduced functional luciferase expression in vitro. BALB/c mice were inoculated with SVluc, and their tissues were assayed 3-21 days post-inoculation (dpi) for luciferase protein production and enzyme activity. Luciferase protein was detected by immunohistochemistry throughout the experiment, from 3 to 21 dpi. There was no inflammatory reaction against SVluc-infected cells at any time, in any tissue studied. Luciferase activity was first detected by luminometry 14 dpi, and remained level through day 21. Thus, replication-deficient recombinant SV40 can mediate gene transfer in vitro and in vivo.
Highlights
Available viral gene transduction agents have both strengths and weaknesses
We devised a gene transfer system based on simian virus-40 (SV40)1 as a vector
T antigen (Tag) expressed by packaging cell lines can support virus replication in trans [20]
Summary
Available viral gene transduction agents have both strengths and weaknesses. They are potentially useful for gene transfer to dividing cells, but are limited by their loss of activity on concentration, inability to infect resting cells and other undesired side effects [1,2,3,4,5]. The former problem may be addressed in part by altering retroviral packaging [6]. Tag expressed by packaging cell lines can support virus replication in trans [20]
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