Abstract
Primary skin fibroblasts are an attractive target tissue for retroviral-mediated gene therapy; however, transient expression of therapeutic genes has been a recurrent problem in several rodent models. The gradual decrease in gene expression could be tissue or species specific. To investigate the phenomenon further, human adenosine deaminase (ADA) expression was monitored in genetically modified skin fibroblasts transplanted in beagle dogs. In culture, transduced canine fibroblasts expressed high levels of human ADA activity (33.6 mumoles adenosine metabolized per hour per milligram of soluble protein) in comparison to canine ADA in untreated control cells (1.3 mumol/hr.mg protein) and for 2 weeks following transplantation, the graft contained up to four-fold more enzyme activity from human ADA than the endogenous canine enzyme. However, by 10 weeks, human ADA expression was undetectable. At the time when human ADA expression was greatly reduced, DNA analysis showed the presence of vector sequences. These results directly parallel those observed in rodent models and suggest retroviral vector inactivation is a tissue-specific rather than species-specific mechanism.
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