Gene therapy is an attractive approach for the treatment of liver disease. We demonstrate that a so-called third-generation human immunodeficiency virus (HIV)-derived vector system can govern the efficient delivery, integration, and stable expression of a transgene into primary human hepatocytes in the complete absence of cell division. We also show that rodent hepatocytes exhibit a significant degree of resistance to HIV vector-mediated transduction, a phenotype that is particularly pronounced in murine hepatocytes and that results from a block in the immediate-early phase of infection. We finally describe a methodology, that allows very high rates of transduction through minimal in vitro manipulation, in which hepatocytes are kept in suspension and reimplanted within a few hours of harvest with a fully preserved engraftment potential. These results have immediate implications for the treatment of liver diseases by the transplantation of genetically modified hepatocytes, an approach that could be applied to a number of hereditary and acquired hepatic disorders.
Patrick Aebischer, Bernard Schneider, Marc Moniatte, Aurélien Lathuilière
Didier Trono, Matthias Lütolf, Evaristo Jose Planet Letschert, Marc Samuel Friedli, Nathalie Brandenberg, Marco Cassano, Carmen Maria Unzu Ezquerro