A Rapid and Quantitative Assay for Measuring Neighboring Gene Activation by Vector Proviruses

A simple, quantitative assay for measuring the oncogenic potential of integrating vectors is needed in order to improve vector design and safety. In this study, we have developed a transient plasmid‐based assay to measure the activation of a reporter gene by an adjacent vector provirus. Plasmid pACT contains a luciferase cassette driven by a minimal, enhancerless promoter, into which vector proviruses are inserted upstream for evaluation by luciferase assays and northern blots. In a comparison of analogous vectors based on murine leukemia virus (MLV), human immunodeficiency virus (HIV), and foamy virus (FV), we observed significant enhancer activity and read‐through transcription from MLV proviruses, and significant read‐through transcription from HIV proviruses. HIV and FV proviruses containing an internal MLV long‐terminal repeat (LTR) promoter also had significant enhancer activity, which was not observed with an internal promoter from the murine phosphoglycerate kinase‐1 gene, PGK . These results demonstrate that neighboring gene activation can be limited by using internal promoter(s) lacking enhancer activity, especially when present in an FV vector backbone that prevents read‐through transcription. Although the pACT assay does not measure oncogenesis directly, it should be useful for screening vectors before more time‐consuming and costly animal studies are undertaken.