Wild type AAV, recombinant AAV, and Adenovirus super infection impact on AAV vector mobilization

Author:

Song Liujiang,Samulski R. Jude,Hirsch Matthew L.

Abstract

AbstractRecombinant Adeno-associated viral vector (rAAV) mobilization is a largely theoretical process in which intact AAV vectors spread or “mobilize” from transduced cells and infect additional cells within, or external, of the initial host. This process can be replication independent (vector alone), or replication-dependent (de novo rAAV production facilitated by super-infection of both wild-type AAV (wtAAV) and Ad helper virus). Herein, rAAV production and mobilization with and without wtAAV were analyzed following plasmid transfection or viral transduction utilizing well established in vitro conditions and analytical measurements. During in vitro production, wtAAV produced the highest titer with rAAV-luc (4.1 Kb), rAAV-IDUA (3.7 Kb), and rAAV-NanoDysferlin (4.9 Kb) generating 2.5-, 5.9-, or 10.7-fold lower amounts, respectively. Surprisingly, cotransfection of a wtAAV and a rAAV plasmid resulted in a uniform decrease in production of wtAAV in all instances with a concomitant increase of rAAV such that wtAAV:rAAV titers were at a ratio of 1:1 for all constructs investigated. These results were shown to be independent of the rAAV transgenic sequence, size, transgene, or promoter choice and point to novel aspects of wtAAV complementation that enhance current vector production systems yet to be de fined. In a mobilization assay, a sizeable amount of rAAV recovered from infected 293 cell lysate remained intact and competent for a secondary round of infection (termed non-replicative mobilization). In rAAV infected cells co-infected with Ad5 and wtAAV, rAAV particle production was increased > 50-fold compared to non-replicative conditions. In addition, replicative dependent rAAV vectors mobilized and resulted in >1,000 -fold transduction upon a subsequent 2nd round infection, highlighting the reality of these theoretical safety concerns that can be manifested under various conditions. Overall, these studies document and signify the need for mobilization resistant vectors and the opportunity to derive better vector production systems.

Publisher

Cold Spring Harbor Laboratory

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