Despite decades of research in adeno-associated virus (AAV) and the role of adenovirus in production, the interplay of AAV and adenovirus is not fully understood. Specific regions of the adenoviral genome containing E1, E2a, E4 open reading frame (ORF), and VA RNA have been demonstrated as necessary for AAV production; however, incorporating these regions into either a producer cell line or subcloning into an Ad helper plasmid may lead to inclusion of neighboring adenoviral sequence or ORFs with unknown function. Because AAV is frequently used in gene therapies, removing excessive adenovirus sequences improves the Ad helper plasmid size and manufacturability, and may lead to safer vectors for patients. Furtherm... More
Despite decades of research in adeno-associated virus (AAV) and the role of adenovirus in production, the interplay of AAV and adenovirus is not fully understood. Specific regions of the adenoviral genome containing E1, E2a, E4 open reading frame (ORF), and VA RNA have been demonstrated as necessary for AAV production; however, incorporating these regions into either a producer cell line or subcloning into an Ad helper plasmid may lead to inclusion of neighboring adenoviral sequence or ORFs with unknown function. Because AAV is frequently used in gene therapies, removing excessive adenovirus sequences improves the Ad helper plasmid size and manufacturability, and may lead to safer vectors for patients. Furthermore, deepening our understanding of the helper virus genes required for recombinant AAV (rAAV) production has the potential to increase yields and manufacturability of rAAV for clinical and commercial applications. One region continuously included in various Ad helper plasmid iterations is the adenoviral E2a promoter region that appears to be necessary for E2a expression. Due to the compact nature of viral genomes, the E2a promoter region overlaps with the Hexon Assembly/100K protein and the L4 region. The L4 region, which contains the coding sequences for 22K and 33K proteins, had not been thought to be necessary for AAV production. Through molecular techniques, this study demonstrates that the adenoviral 22K protein is essential for rAAV production in HEK293 cells by triple transfection and that the 33K protein synergistically increases rAAV yield.