In vivo gene targeting of IL-3 into immature hematopoietic cells through CD117 receptor mediated antibody gene delivery |
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Authors: | Alain Chapel Olivier Deas Morad Bensidhoum Sabine François Moubarak Mouiseddine Pascal Poncet Antoine Dürrbach Jocelyne Aigueperse Patrick Gourmelon Norbert C Gorin François Hirsch Dominique Thierry |
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Affiliation: | 1. Nucléaire, Département de Protection et de santé de l'Homme et de Dosimétrie, Section Autonome de Radiobiologie Appliquée à la Médecine, Institut de Radioprotection et de S?reté, Fontenay aux roses, France 2. Laboratoire de Thérapie Cellulaire et de Radioprotection Accidentelle, LTCRA, UPRES 1632, CHU Saint Antoine, Paris, France 3. Inserm U542 and Paris XI University, Villejuif, France 4. Institut Pasteur, Paris, France
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Abstract: | BACKGROUND: Targeted gene transfection remains a crucial issue to permit the real development of genetic therapy. As such, in vivo targeted transfection of specific subsets of hematopoietic stem cells might help to sustain hematopoietic recovery from bone marrow aplasia by providing local production of growth factors. METHODS: Balb/C mice were injected intravenously, with an anti-mouse c-kit (CD117) monoclonal antibody chemically coupled to a human IL-3 gene-containing plasmid DNA. Mice were sacrificed for tissue analyses at various days after injection of the conjugates. RESULTS: By ELISA, the production of human IL-3 was evidenced in the sera of animals 5 days after treatment. Cytofluorometric analysis after in vivo transfection of a reporter gene eGFP demonstrated transfection of CD117+/Sca1+ hematopoietic immature cells. By PCR analysis of genomic DNA and RNA using primer specific pIL3 sequences, presence and expression of the human IL-3-transgene were detected in the bone marrow up to 10 days in transfected mice but not in control animals. CONCLUSIONS: These data clearly indicate that antibody-mediated endocytosis gene transfer allows the expression of the IL-3 transgene into hematopoietic immature cells, in vivo. While availability of marketed recombinant growth factors is restricted, this targeting strategy should permit delivery of therapeutic genes to tissues of interest through systemic delivery. In particular, the ability to specifically target growth factor expression into repopulating hematopoietic stem cells may create new opportunities for the treatment of primary or radiation-induced marrow failures. |
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