Original Article
Subject Category: Vector Toxicology, Immunogenicity and Safety
Molecular Therapy (2007) 15 8, 1522–1530. doi:10.1038/sj.mt.6300179
Ras Transformation Mediates Reovirus Oncolysis by Enhancing Virus Uncoating, Particle Infectivity, and Apoptosis-dependent Release
Paola Marcato1, Maya Shmulevitz1, Da Pan1, Don Stoltz1 and Patrick WK Lee1
1Department of Microbiology and Immunology, Dalhousie University, Halifax, Nova Scotia, Canada
Correspondence: Patrick W.K. Lee, Department of Microbiology and Immunology, Dalhousie University, Halifax, Nova Scotia, B3H 1X5, Canada. E-mail: patrick.lee@dal.ca
The first two authors contributed equally to this work and should be recognized as co–first authors.
Received 21 February 2007; Accepted 21 March 2007; Published online 24 April 2007.
Abstract
Reovirus, a potential cancer therapy, replicates more efficiently in Ras-transformed cells than in non-transformed cells. It was presumed that increased translation was the mechanistic basis of reovirus oncolysis. Analyses of each step of the reovirus life cycle now show that cellular processes deregulated by Ras transformation promote not one but three viral replication steps. First, in Ras-transformed cells, proteolytic disassembly (uncoating) of the incoming virions, required for onset of infection, occurs more efficiently. Consequently, threefold more Ras-transformed cells become productively infected with reovirus than non-transformed cells, which accounts for the observed increase of reovirus proteins in Ras-transformed cells. Second, Ras transformation increases the infectious-to-noninfectious virus particle ratio, as virions purified from Ras-transformed cells are fourfold more infectious than those purified from non-transformed cells. Progeny assembled in non- and Ras-transformed cells appear similar by electron microscopy and sodium dodecyl sulfate polyacrylamide gel electrophoresis (SDS-PAGE) analysis, suggesting that Ras transformation introduces a subtle change necessary for virus infectivity. Finally, reovirus release, mediated by caspase-induced apoptosis, is ninefold more efficient in Ras-transformed cells. The combined effects of enhanced virus uncoating, infectivity, and release result in >100-fold differences in virus titers within one round of replication. Our analysis reveals previously unrecognized mechanisms by which Ras transformation mediates selective viral oncolysis.
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