Adenovirus-Mediated Expression of the p14 Fusion-Associated Small Transmembrane Protein Promotes Cancer Cell Fusion and Apoptosis In Vitro but Does Not Provide Therapeutic Efficacy in a Xenograft Mouse Model of Cancer.

Carmen M Wong,Theresa Falls,Michael A Kennedy,Robin J Parks,Kathy L Poulin,Grace Tong,John C Bell,Carin Christou,Vincenzo Cerullo

doi:10.1371/journal.pone.0151516

Carmen M Wong, Theresa Falls + Show 7 more

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https://doi.org/10.1371/journal.pone.0151516

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Journal: PloS one	Publication Date: Mar 17, 2016
Citations: 6	License type: CC BY 4.0

Affiliation: University of Ottawa, Ottawa Hospital

Abstract

Adenoviruses (Ads) are used in numerous preclinical and clinical studies for delivery of anti-cancer therapeutic genes. Unfortunately, Ad has a poor ability to distribute throughout a tumor mass after intratumoral injection, and infects cells primarily within the immediate area of the injection tract. Thus, Ad-encoded transgene expression is typically limited to only a small percentage of cells within the tumor. One method to increase the proportion of the tumor impacted by Ad is through expression of fusogenic proteins. Infection of a single cell with an Ad vector encoding a fusogenic protein should lead to syncytium formation with adjacent cells, effectively spreading the effect of Ad and Ad-encoded therapeutic transgenes to a greater percentage of the tumor mass. Moreover, syncytium formation can be cytotoxic, suggesting that such proteins may be effective sole therapeutics. We show that an early region 1 (E1)-deleted Ad expressing reptilian reovirus p14 fusion-associated small transmembrane (FAST) protein caused extensive cell fusion in the replication-permissive 293 cell line and at high multiplicity of infection in non-permissive human lung adenocarcinoma A549 cells in vitro. FAST protein expression in the A549 cancer cell line led to a loss of cellular metabolic activity and membrane integrity, which correlated with induction of apoptosis. However, in an A549 xenograft CD-1 nude mouse cancer model, Ad-mediated FAST gene delivery did not induce detectable cell fusion, reduce tumor burden nor enhance mouse survival compared to controls. Taken together, our results show that, although AdFAST can enhance cancer cell killing in vitro, it is not effective as a sole therapeutic in the A549 tumor model in vivo.

Highlights

Approximately 50% of all cancer patients will succumb to the disease, clearly illustrating the need for new therapeutics
The fusion-associated small transmembrane (FAST) cDNA was removed from plasmid pVSV-FAST [8] by digestion with NcoI/NheI, and cloned into NcoI/SpeI digested pPOLY [24], generating pRP2868. pRP2868 was digested with EagI, and the fragment was cloned into NotI digested pRP2645, an Ad left end shuttle plasmid containing the CMV enhancer/promoter, a multiple cloning site and bovine growth hormone polyadenylation sequence (BGHpA), generating pRP2870. pRP2870 was recombined into an Ad genomic plasmid, pRP2014 [25], generating pRP2872 and the resulting virus AdFAST
AdFAST-HA produced a protein of appropriate size in both 293 and A549 cells, the level of FAST protein expression was higher in 293 cells

Summary

Introduction

Approximately 50% of all cancer patients will succumb to the disease, clearly illustrating the need for new therapeutics. In the context of oncolytic virus (OV), in addition to normal tumor cell lysis resulting in release of virus, an infected cell can “spread” its infectious payload through direct cell-cell fusion. In studies using such diverse OV as vesicular stomatitis virus (VSV), herpes simplex virus, and vaccinia virus [6,7,8], and fusogenic proteins from human immunodeficiency virus, Newcastle disease virus and gibbon-ape leukemia virus (GALV) [6,9,10], improved efficacy has been achieved

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