BACKGROUND: The muscular dystrophies exemplify a class of systemic disorders for which widespread protein replacement in situ is essential for treatment of the underlying genetic disorder. Somatic gene therapy will require efficient, scale-independent transport of DNA-containing macromolecular complexes too large to cross the continuous endothelia under physiological conditions. Previous studies in large-animal models have revealed a trade-off between the efficiency of gene transfer and the inherent safety of the required surgical and pharmacological interventions to achieve this. METHODS AND RESULTS: Rats and dogs underwent limb or hemibody isolation via atraumatic tourniquet placement or myocardial isolation via heterotopic transplantation. Recombinant adenovirus (10(13) particles per kilogram) or recombinant adeno-associated virus (10(14) genome copies/kg) encoding the lacZ transgene was delivered through pressurized venous infusion without pharmacological mediators. Muscle exhibited almost 100% myofiber transduction in rats and dogs by X-galactosidase staining and significantly higher beta-galactosidase levels compared with nonpressurized delivery. No significant difference was seen in beta-galactosidase levels between 100- or 400-mm Hg groups. The <50-mm Hg group yielded inhomogeneous and significantly lower transgene expression. CONCLUSIONS: Uniform scale- and vector-independent skeletal and cardiac myofiber transduction is facilitated by pressurized venous infusion in anatomic domains isolated from the central circulation without pharmacological interference with cardiovascular homeostasis. We provide the first demonstration of uniform gene transfer to muscle fibers of an entire extremity in the dog, providing a firm foundation for further translational studies of efficacy in canine models for human diseases.
BACKGROUND: The muscular dystrophies exemplify a class of systemic disorders for which widespread protein replacement in situ is essential for treatment of the underlying genetic disorder. Somatic gene therapy will require efficient, scale-independent transport of DNA-containing macromolecular complexes too large to cross the continuous endothelia under physiological conditions. Previous studies in large-animal models have revealed a trade-off between the efficiency of gene transfer and the inherent safety of the required surgical and pharmacological interventions to achieve this. METHODS AND RESULTS:Rats and dogs underwent limb or hemibody isolation via atraumatic tourniquet placement or myocardial isolation via heterotopic transplantation. Recombinant adenovirus (10(13) particles per kilogram) or recombinant adeno-associated virus (10(14) genome copies/kg) encoding the lacZ transgene was delivered through pressurized venous infusion without pharmacological mediators. Muscle exhibited almost 100% myofiber transduction in rats and dogs by X-galactosidase staining and significantly higher beta-galactosidase levels compared with nonpressurized delivery. No significant difference was seen in beta-galactosidase levels between 100- or 400-mm Hg groups. The <50-mm Hg group yielded inhomogeneous and significantly lower transgene expression. CONCLUSIONS: Uniform scale- and vector-independent skeletal and cardiac myofiber transduction is facilitated by pressurized venous infusion in anatomic domains isolated from the central circulation without pharmacological interference with cardiovascular homeostasis. We provide the first demonstration of uniform gene transfer to muscle fibers of an entire extremity in the dog, providing a firm foundation for further translational studies of efficacy in canine models for human diseases.
Authors: Valder R Arruda; Hansell H Stedman; Virginia Haurigot; George Buchlis; Stefano Baila; Patricia Favaro; Yifeng Chen; Helen G Franck; Shangzhen Zhou; J Fraser Wright; Linda B Couto; Haiyan Jiang; Glenn F Pierce; Dwight A Bellinger; Federico Mingozzi; Timothy C Nichols; Katherine A High Journal: Blood Date: 2010-03-24 Impact factor: 22.113
Authors: Julia O Hegge; Christine I Wooddell; Guofeng Zhang; James E Hagstrom; Serge Braun; Thierry Huss; Magdolna G Sebestyén; Marina E Emborg; Jon A Wolff Journal: Hum Gene Ther Date: 2010-07 Impact factor: 5.695
Authors: Naoto Miyagi; Vinay P Rao; Davide Ricci; Zeji Du; Guerard W Byrne; Kent R Bailey; Hiroyuki Nakai; Stephen J Russell; Christopher G A McGregor Journal: J Heart Lung Transplant Date: 2008-05 Impact factor: 10.247
Authors: Michael G Katz; JaBaris D Swain; Jennifer D White; David Low; Hansell Stedman; Charles R Bridges Journal: Hum Gene Ther Date: 2010-04 Impact factor: 5.695
Authors: Yongping Yue; Arkasubhra Ghosh; Chun Long; Brian Bostick; Bruce F Smith; Joe N Kornegay; Dongsheng Duan Journal: Mol Ther Date: 2008-09-30 Impact factor: 11.454