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Use of synthetic vectors to deliver genomes of conditionally replicating lytic viruses combines the strengths of viral and non-viral approaches by enabling neutralising antibody resistant deployment of cancer virotherapy. Adenovirus is particularly suitable for this application since all proteins essential for replication can be expressed from the input DNA, although the presence of terminal protein (TP) covalently linked to the 5' termini of the input virus genomes both improves expression of transgenes encoded in the input DNA and also enhances replication. These roles of TP were distinguished in experiments where E1-deleted Ad(GFP)DNA bearing TP (Ad(GFP)DNA-TP), delivered with DOTAP, gave a two-fold greater frequency of transduction than Ad(GFP)DNA(without TP) in non-complementing A549 cells, while in 293 cells (which support replication of E1-deleted viruses) the presence of TP mediated a much greater differential transgene expression, commensurate with its ability to promote replication. Subsequent studies using AdDNA for virotherapy, therefore, included covalently linked TP. AdDNA-TP delivered to A549 cells using a synthetic polyplex vector was shown to be resistant to levels of neutralising antisera that completely ablated infection by wild-type adenovirus, enabling polyplex/Ad(wild type)DNA-TP to mediate a powerful cytopathic effect. Similarly in vivo, direct injection of a polyplex/Ad(wild type)DNA-TP into A549 tumours was neutralising antibody-resistant and enabled virus replication, whereas intact virus was neutralised by the antibody and failed to infect. The delivery of adenovirus genomes-TP using synthetic vectors should provide a strategy to bypass neutralising antibodies and facilitate clinical application of replicating adenovirus for cancer virotherapy.

Original publication

DOI

10.1038/sj.gt.3302814

Type

Journal article

Journal

Gene Ther

Publication Date

11/2006

Volume

13

Pages

1579 - 1586

Keywords

Adenoviridae, Animals, Antibodies, Viral, Antigen-Antibody Reactions, DNA, Viral, Genetic Engineering, Genetic Therapy, Mice, Mice, SCID, Neoplasm Transplantation, Neoplasms, Transduction, Genetic, Transfection, Vaccines, Synthetic