Genetic correction of canine dystrophic epidermolysis bullosa mediated by retroviral vectors

doi:10.1093/hmg/ddg200

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Human Molecular Genetics, 2003, Vol. 12, No. 15 1897-1905
DOI: 10.1093/hmg/ddg200
© 2003 Oxford University Press

Genetic correction of canine dystrophic epidermolysis bullosa mediated by retroviral vectors

Christine Baldeschi¹, Yannick Gache¹, Anke Rattenholl², Pascale Bouillé³, Olivier Danos³, Jean-Paul Ortonne¹, Leena Bruckner-Tuderman² and Guerrino Meneguzzi¹^,*

¹INSERM U385, Faculty of Medicine, Nice, France, ²Department of Dermatology, University of Freiburg, Germany and ³Genethon-CNRS UMR 8115, Evry, France

Received March 21, 2003; Revised May 9, 2003; Accepted June 3, 2003

We have assessed the suitability of retroviral vectors for genetherapy of recessive dystrophic epidermolysis bullosa (RDEB)in dogs expressing a mutated collagen type VII. Isolation andanalysis of the 9 kb dog collagen type VII cDNA identifiedthe causative genetic mutation G1906S and disclosed the interspeciesconservation of collagen type VII. Highly efficient transferof the wild-type collagen type VII cDNA to both dog RDEB andhuman primary RDEB collagen type VII-null keratinocytes usingrecombinant vectors derived from LZRS-Ires-zeo and MSCV retrovirusesachieved sustained and permanent expression of the transgeneproduct. The expression and post-translational modificationprofile of the recombinant collagen type VII was comparableto that of the wild-type counterpart. The recombinant caninecollagen type VII in human RDEB keratinocytes and dog cellscorrected the observable defects caused by RDEB keratinocytesin cell cultures and in vitro reconstructed skin. Hypermotilitywas fully reverted in human RDEB keratinocytes, and stronglyreduced in the dog RDEB cells. This observation suggests thatnot only infection efficiency but also high expression levelsare required to ensure therapeutic efficacy in the presenceof mutated gene products. Our results set the basis for preclinicalgene therapy assays in the first immune-competent large animalmodel for an inherited skin disease and broaden the spectrumof preclinical and clinical applications of retroviral vectorsin the transfer of large recombinant genes in epithelial cells.

^* To whom correspondence should be addressed at: INSERM U385,UFR de Médecine, Av. de Valombrose, 06107 Nice cedex2, France. Email: meneguzz{at}unice.fr

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