Background: Efficient and continuous expression of a therapeutic transgene is a key factor for improving the efficacy of gene therapy. Some insulators are known to contribute to continuous high-level expression of a therapeutic transgene.
Methods: Using the human AAVS1 insulator (DHS) found in the AAVS1 DNase I hypersensitive site, chicken beta-globin insulator (cHS4) and sea urchin arylsufatase insulator (Ars), we newly constructed three recombinant adeno-associated virus vectors (rAAV) and examined their capability of transducing the mouse quadriceps muscle.
Results: DHS increased transgene expression from the human elongation factor 1alpha promoter (EF) by 1000-fold, up to the high level achieved by the human cytomegalovirus immediate early promoter/enhancer (CMV), which comprises an extremely strong promoter for driving a transgene. cHS4 enhanced the expression by 100-fold, whereas Ars did not. The enhanced expression was maintained for at least 24 weeks. Vector copy numbers were similar with and without DHS or cHS4; thus, the enhancement is most likely due to up-regulated transcription. Neither DHS, nor cHS4 affected transgene expression from CMV. DHS enhanced expression from the human muscle creatine kinase promoter/enhancer by 100-fold in mice, as did DHS from EF.
Conclusions: Although DHS was unable to further enhance high expression from the strong viral enhancer/promoter, it enhanced low expression from the human promoters by 100- to 1000-fold. Thus, DHS may be useful for constructing rAAVs that express a therapeutic transgene from less efficient, tissue specific promoters.
2009 John Wiley & Sons, Ltd.