Long-Term Correction of Murine Glycogen Storage Disease Type III by AAV-Mediated Gene Therapy Using an Immunotolerizing Dual Promoter to Express Bacterial Pullulanase.
BACKGROUND: We recently reported an innovative gene therapy approach for GSD III using a recombinant adeno-associated virus serotype 9 vector (AAV9-Dual-Pull) expressing a bacterial debranching enzyme (pullulanase) driven by a tandem dual promoter that consists of an immunotolerizing liver-specific promoter (LSP) and the ubiquitous CMV enhance/chicken β-actin (CB) promoter. In this follow-up study, we evaluated the long-term efficacy of this gene therapy in GSD IIIa mice. METHODS: Three-month-old GSD IIIa mice were intravenously injected with AAV9-LSP-Pull or AAV9-Dual-Pull at the same dose (2.5 × 1013 vg/kg). Tissues were collected after 9 months for AAV genome quantification, pullulanase expression determination, and glycogen content measurement. Liver and muscle enzymes in plasma and disease biomarker in urine were analyzed at multiple time points to examine the correction of liver and muscle damage. Behavioral tests were performed during the course of AAV treatment to evaluate the improvement of muscle function. RESULTS: The AAV-Dual-Pull treatment led to persistent pullulanase expression and effective glycogen reduction in the liver, heart, and skeletal muscle, accompanied by the reversal of liver fibrosis, decrease of plasma enzyme activities, and long-term improvement of muscle function. The AAV-LSP-Pull treatment showed a better therapeutic efficacy in the liver but had no effect on the cardiac and skeletal muscles. CONCLUSION: Our results demonstrated the long-term efficacy and safety of systemic AAV9-Dual-Pull delivery in GSD IIIa mice. Future studies will test this gene therapy approach in GSD IIIa dogs prior to the clinical translation to GSD III patients.
