Poly-L-lysine-based molecular conjugate vectors: a high efficiency gene transfer system for human progenitor and leukemia cells.

BACKGROUND: Targeted, specific receptor mediated gene transfer is a major goal of gene therapy research to accomplish gene transfer exclusively to the desired cell population.
METHODS: First, the use of natural receptor for stem cell factor and transferrin receptor-targeted gene transfer using poly-L-lysine-based molecular conjugate vectors was evaluated in a panel of hematopoietic progenitor cell lines. Second, the ability of poly-L-lysine to enhance adenovirus mediated gene transfer efficiency was examined in different cell lines by using recombinant adenovirus-poly-L-lysine molecular conjugate conglomerates (recMCVEGFP).
RESULTS: Despite effective ligand internalization receptor, gene expression amplification in receptor positive cell lines was not uniformly observed. Therefore, using a poly-L-lysine-based, receptor-targeted vector, neither transferrin nor natural receptor for stem cell factor mediated gene transfer can be considered a universally applicable procedure that exclusively depends on the presence of receptors on the cell surface; rather, it is a cell specific phenomenon. In our model, poly-L-lysine is the major contributor for gene transfer to hematopoietic progenitor cells, mediating the initial vector-cell binding. Human progenitor cell lines are poorly transduceable with recombinant adenovirus vectors. This new poly-L-lysine-modified, adenovirus-based vector could overcome virus tropism restrictions and consistently achieve very high transduction efficiency (>90%) in cells otherwise refractory to adenovirus gene transfer.
CONCLUSIONS: Polylysine-based adenovirus vectors may have promise for situations in which high-efficiency gene transfer with transient high level transgene expression in hematopoietic cells is needed, such as leukemia vaccine protocols or for purging strategies in leukemia cell contaminated stem cell preparations.