We recently identified a Transposase domain protein called Metnase, which assists in repairing DNA double-strand breaks (DSB) via non-homologous end-joining (NHEJ), and is important for foreign DNA integration into a host cell genome. Since integration is essential for productive lentiviral infection we examined whether Metnase expression levels could have an influence on lentiviral genomic integration. Using cells stably transduced to either over-or under-express Metnase we determined that the expression level of Metnase did indeed correlate with live lentiviral integration. Changes in Metnase levels were accompanied by changes in the number of copies of integrated lentiviral cDNA. While Metnase levels affecte... More
We recently identified a Transposase domain protein called Metnase, which assists in repairing DNA double-strand breaks (DSB) via non-homologous end-joining (NHEJ), and is important for foreign DNA integration into a host cell genome. Since integration is essential for productive lentiviral infection we examined whether Metnase expression levels could have an influence on lentiviral genomic integration. Using cells stably transduced to either over-or under-express Metnase we determined that the expression level of Metnase did indeed correlate with live lentiviral integration. Changes in Metnase levels were accompanied by changes in the number of copies of integrated lentiviral cDNA. While Metnase levels affected lentiviral integration, it had no effect on the amount of either total cellular viral RNA, cDNA or 2-LTR circles. Therefore, Metnase enhances the integration of lentivirus DNA into the host cell genome.
