BACKGROUND: RNA interference based therapeutic approaches hold promise for the treatment of patients chronically infected with hepatitis B virus (HBV). To conquer HBV infection, long-term suppression of target transcripts in all hepatocytes without toxic effects may be required. The present study explored gene-deleted adenoviral vectors (GD-AdV) lacking all viral coding sequences for delivery of the previously described short hairpin RNA (shRNA) HBVU6no.2, which was demonstrated to result in post-transcriptional knock-down of HBV transcripts. METHODS: We established conditions for shRNA delivery expressed from GD-AdV in vitro and in vivo and observed up to 96% shRNA-mediated knockdown of luciferase expressed in mouse liver. To investigate in vivo efficacy of HBVU6no.2 expressed from a GD-AdV, we explored a transient and a transgenic mouse model for HBV infection. RESULTS: We observed an up to 68% drop in serum HBV surface antigen (HBsAg) levels in the transient and the transgenic mouse model for HBV infection, respectively. Interestingly, we detected an up to 86% drop in HBsAg levels in both animal models after administration of a control GD-AdV encoding beta-galactosidase. In concordance with reduced serum HBsAg levels, we observed reduced HBV replication as demonstrated by Southern blot analysis of HBV genomes. CONCLUSIONS: The present study demonstrates that GD-AdV can be used against HBV infection but the design of DNA sequences including shRNAs contained in the vector and virus-host interactions during superinfection needs to be carefully considered. (c) 2008 John Wiley & Sons, Ltd.
BACKGROUND: RNA interference based therapeutic approaches hold promise for the treatment of patients chronically infected with hepatitis B virus (HBV). To conquer HBV infection, long-term suppression of target transcripts in all hepatocytes without toxic effects may be required. The present study explored gene-deleted adenoviral vectors (GD-AdV) lacking all viral coding sequences for delivery of the previously described short hairpin RNA (shRNA) HBVU6no.2, which was demonstrated to result in post-transcriptional knock-down of HBV transcripts. METHODS: We established conditions for shRNA delivery expressed from GD-AdV in vitro and in vivo and observed up to 96% shRNA-mediated knockdown of luciferase expressed in mouse liver. To investigate in vivo efficacy of HBVU6no.2 expressed from a GD-AdV, we explored a transient and a transgenic mouse model for HBV infection. RESULTS: We observed an up to 68% drop in serum HBV surface antigen (HBsAg) levels in the transient and the transgenic mouse model for HBV infection, respectively. Interestingly, we detected an up to 86% drop in HBsAg levels in both animal models after administration of a control GD-AdV encoding beta-galactosidase. In concordance with reduced serum HBsAg levels, we observed reduced HBV replication as demonstrated by Southern blot analysis of HBV genomes. CONCLUSIONS: The present study demonstrates that GD-AdV can be used against HBV infection but the design of DNA sequences including shRNAs contained in the vector and virus-host interactions during superinfection needs to be carefully considered. (c) 2008 John Wiley & Sons, Ltd.
Authors: Lorenz Jager; Martin A Hausl; Christina Rauschhuber; Nicola M Wolf; Mark A Kay; Anja Ehrhardt Journal: Nat Protoc Date: 2009 Impact factor: 13.491
Authors: Joshua T Schiffer; Martine Aubert; Nicholas D Weber; Esther Mintzer; Daniel Stone; Keith R Jerome Journal: J Virol Date: 2012-06-20 Impact factor: 5.103
Authors: Nan Jiang; Xusheng Zhang; Xiufen Zheng; Di Chen; Kingsun Siu; Hongmei Wang; Thomas E Ichim; Douglas Quan; Vivian McAlister; Guihua Chen; Wei-Ping Min Journal: PLoS One Date: 2012-09-06 Impact factor: 3.240