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  • Title: Partial correction of the alpha-galactosidase A deficiency and reduction of glycolipid storage in Fabry mice using synthetic vectors.
    Author: Przybylska M, Wu IH, Zhao H, Ziegler RJ, Tousignant JD, Desnick RJ, Scheule RK, Cheng SH, Yew NS.
    Journal: J Gene Med; 2004 Jan; 6(1):85-92. PubMed ID: 14716680.
    Abstract:
    BACKGROUND: Fabry disease is a recessive, X-linked disorder caused by a deficiency of the lysosomal enzyme alpha-galactosidase A, leading to an accumulation of the glycosphingolipid globotriaosylceramide (GL-3) in most tissues of the body. The goal of this study was to determine if systemic delivery of a nonviral vector could correct the enzyme deficiency and reduce the levels of GL-3 in different tissues of a transgenic knockout mouse model of the disease. METHODS: Cationic lipid was complexed with a CpG-depleted plasmid DNA vector and then injected intravenously into Fabry mice. The levels of alpha-galactosidase A and GL-3 in different tissues were assayed at various time points after injection. RESULTS: Expression of alpha-galactosidase A was detected in the different tissues of Fabry mice for up to 3 months after complex administration, but resulted in minimal reductions in GL-3 levels. However, the use of the anti-inflammatory drug dexamethasone and multiple dosing increased alpha-galactosidase A expression and resulted in significant reductions of GL-3 in all the organs with the exception of the kidney. In addition, injecting complex into young Fabry mice partially prevented the normal accumulation of GL-3 in the heart, lung, and liver. CONCLUSIONS: Systemic delivery of a cationic lipid-pDNA complex partially corrected the enzyme deficiency and reduced glycolipid storage in a mouse model of Fabry disease. The results are one of the few demonstrations of long-term efficacy in a genetic disease model using nonviral vectors. However, substantial improvements in expression, especially in critical organs such as the kidney, are required before these vectors can become a viable approach to treat Fabry disease and other lysosomal storage disorders.
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