Increased duration of transgene expression in the lung with plasmid DNA vectors harboring adenovirus E4 open reading frame 3.

For gene therapy to be effective in the treatment of chronic diseases, plasmid DNA (pDNA) vectors that provide persistent expression of therapeutic levels of the transgene product are desirable. Studies in the lung with adenovirus vectors showed that products of the adenovirus E4 region can act both in cis and in trans to increase the duration of expression when transcription of the transgene was under the control of the human cytomegalovirus (CMV) promoter. To determine if these E4-encoded proteins could also effect greater persistence of expression from a nonviral vector, a complex composed of cationic lipid GL-67, a CMV promoter plasmid (pCF1-CAT), and an E4-containing adenovirus vector (Ad2/betagal-4) was instilled into the lungs of BALB/c nu/nu mice. Significant increases in the duration of transgene expression were observed for up to 10 weeks postinstillation compared with expression from mice instilled with control complexes containing an adenovirus vector deleted of most of E4 (Ad2/betagal-2). This effect could also be observed in immunodeficient NIH-rnu rats as well as in immunocompetent BALB/c mice. Studies with CMV promoter mutants indicated that a region proximal to the promoter was necessary for the E4-mediated increase in longevity of expression. In addition to the CMV promoter, a CMV enhancer-human mucin I (MUC-I) hybrid promoter also responded to these E4-encoded proteins with increased persistence of transgene expression, but a human interleukin 8 (IL-8) promoter did not. Ad2/betagal-4 could be replaced by a pDNA vector expressing only the E4 region, indicating that products of the E4 region alone were sufficient in the absence of expression from the rest of the adenovirus genome. Further analysis indicated that the protein encoded by open reading frame 3 (ORF3) alone was sufficient for conferring the increase in persistence of expression. These data indicate that expression of a single protein from the adenovirus genome can significantly improve the duration of transgene expression from pDNA vectors, and increases the feasibility of using nonviral vectors for the treatment of chronic diseases.

Optimization of plasmid vectors for high-level expression in lung epithelial cells.

Nonviral gene therapy approaches use a plasmid vector to express the desired transgene. We have systematically examined several regulatory elements within plasmid vectors that govern gene expression, e.g., the promoter, enhancer, intron, and polyadenylation signal, by constructing a series of plasmids that differed only in the particular sequence element being evaluated. Of the several promoters and polyadenylation signal sequences that were tested, the human cytomegalovirus (CMV) immediate early gene promoter and the addition of polyadenylation signal sequences from the bovine growth hormone (BGH) gene or rabbit beta-globin gene produced the highest levels of expression in vitro. The inclusion of a hybrid intron 3 to the promoter further increased expression 1.6-fold. The addition of a region of the CMV enhancer 5' to several weak promoters increased expression 8- to 67-fold, and co-transfection with a second plasmid encoding a chimeric transcription factor also enhanced expression. On the basis of these results, the CMV promoter, the hybrid intron, and the BGH polyadenylation signal were selected for consistent high level expression in vitro and in the mouse lung. However, expression was transient, with greater than 60% loss of activity in the first 7 days. This transient expression was not specific to CMV promoter-containing plasmids, because plasmids containing other heterologous promoters showed a similar profile of transient expression in vivo. These comparative analyses begin to provide a basis for the development of optimized expression plasmids for gene therapy of lung diseases.