Correction of cardiac abnormalities in fabry mice by direct intraventricular injection of a recombinant lentiviral vector that engineers expression of α-galactosidase A

Abstract

Background: Recombinant lentiviral vectors (LVs) offer the possibility of stable, long-term expression of transgenes even in non-dividing cells. In the present study this vector system was applied to a clinically relevant cardiovascular problem. Methods and Results: Fabry disease results from deficient activity of α-galactosidase A (α-gal A) and cardiac abnormalities are a common and an important cause of death in patients with the disease. A therapeutic LV that delivers the α-gal A cDNA has been synthesized. In vitro studies established efficient transduction of the H9c2 rat cardiomyocytes and showed overexpression of enGFP (control) and α-gal A. In in vivo studies, the enGFP cDNA was transferred into C57BL/6 mouse hearts by direct intraventricular injection. Next, in a mouse model of Fabry disease, the recombinant therapeutic construct was delivered analogously. In cardiac tissue, α-gal A activity rose to 23% of normal levels at day 7 after LV injection, which is encouraging because levels of correction approximating 5% of normal may be curative for this disorder. There was also a corresponding reduction in globotriaosylceramide accumulation. Other organs assayed showed no detectable changes in α-gal A activity levels in injected animals. Conclusion: A localized benefit of directly injecting a therapeutic LV into the heart has been shown, confirming the utility of this delivery system for research and therapy for a variety of cardiovascular disorders.