Abstract
BackgroundBoth adenoviral and lentiviral vectors have been successfully used to induce bone repair by over-expression of human bone morphogenetic protein 2 (BMP-2) in primary rat bone marrow stromal cells in pre-clinical models of ex vivo regional gene therapy. Despite being a very efficient means of gene delivery, there are potential safety concerns that may limit the adaptation of these viral vectors for clinical use in humans. Recombinant adeno-associated viral (rAAV) vector is a promising viral vector without known pathogenicity in humans and has the potential to be an effective gene delivery vehicle to enhance bone repair. In this study, we investigated gene transfer in rat and human bone marrow stromal cells in order to evaluate the effectiveness of the self-complementary AAV vector (scAAV) system, which has higher efficiency than the single-stranded AAV vector (ssAAV) due to its unique viral genome that bypasses the rate-limiting conversion step necessary in ssAAV.MethodsSelf-complementaryAAV2 encoding GFP and BMP-2 (scAAV2-GFP and scAAV2-BMP-2) were used to transduce human and rat bone marrow stromal cells in vitro, and subsequently the levels of GFP and BMP-2 expression were assessed 48 hours after treatment. In parallel experiments, adenoviral and lentiviral vector mediated over-expression of GFP and BMP-2 were used for comparison.ResultsOur results demonstrate that the scAAV2 is not capable of inducing significant transgene expression in human and rat bone marrow stromal cells, which may be associated with its unique tropism.ConclusionsIn developing ex vivo gene therapy regimens, the ability of a vector to induce the appropriate level of transgene expression needs to be evaluated for each cell type and vector used.
Highlights
Both adenoviral and lentiviral vectors have been successfully used to induce bone repair by overexpression of human bone morphogenetic protein 2 (BMP-2) in primary rat bone marrow stromal cells in preclinical models of ex vivo regional gene therapy
GFP expression in the human and rat bone marrow stromal cells transduced with AAV2-GFP, LV-GFP and AdGFP 293T cells were used as a control for GFP expression in transduced human and rat bone marrow stromal cells
BMP-2 production by the rat bone marrow stromal cells transduced with the associated viral (AAV)-BMP-2, LV-BMP-2 and Ad-BMP-2 BMP-2 production in 1 million transduced 293T or rat bone marrow stromal cells was quantified by enzyme linked immunosorbent assay (ELISA) using the culture supernatants harvested 24 hours after addition of fresh medium
Summary
Both adenoviral and lentiviral vectors have been successfully used to induce bone repair by overexpression of human bone morphogenetic protein 2 (BMP-2) in primary rat bone marrow stromal cells in preclinical models of ex vivo regional gene therapy. The use of viral vectors that over-express BMP-2 has been successful in promoting bone repair in a variety of pre-clinical animal models of bone defect healing [7,8,9,10]. In previous studies of ex vivo gene therapy in our laboratory, lentiviral and adenoviral mediated over-expression of BMP-2 in rat bone marrow stromal cells successfully healed a critical sized rat femoral defect [11,12,13]. Overexpression of BMP-2 by lentiviral transduction induced superior quality of bone repair compared to adenoviral transduced cells as noted in biomechanical testing and u-CT bone volumetric data [13]
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