Thomas O’Malley scite author profile

Dogs with mucopolysaccharidosis VII (MPS VII)were injected intravenously at 2-3 days of age with a retroviral vector (RV) expressing canine ␤-glucuronidase (cGUSB). Five animals received RV alone, and two dogs received hepatocyte growth factor (HGF) before RV in an attempt to increase transduction efficiency. Transduced hepatocytes expanded clonally during normal liver growth and secreted enzyme with mannose 6-phosphate. Serum GUSB activity was stable for up to 14 months at normal levels for the RV-treated dogs, and for 17 months at 67-fold normal for the HGF͞RV-treated dog. GUSB activity in other organs was 1.5-60% of normal at 6 months for two RV-treated dogs, which was likely because of uptake of enzyme from blood by the mannose 6-phosphate receptor. The body weights of untreated MPS VII dogs are 50% of normal at 6 months. MPS VII dogs cannot walk or stand after 6 months, and progressively develop eye and heart disease. RV-and HGF͞RV-treated MPS VII dogs achieved 87% and 84% of normal body weight, respectively. Treated animals could run at all times of evaluation for 6 -17 months because of improvements in bone and joint abnormalities, and had little or no corneal clouding and no mitral valve thickening. Despite higher GUSB expression, the clinical improvements in the HGF͞RV-treated dog were similar to those in the RV-treated animals. This is the first successful application of gene therapy in preventing the clinical manifestations of a lysosomal storage disease in a large animal.

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Biochemical, Pathological, and Skeletal Improvement of Mucopolysaccharidosis VI After Gene Transfer to Liver but Not to Muscle

Tessitore

et al. 2008

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Mucopolysaccharidosis VI (MPS VI) is caused by deficient activity of arylsulfatase B (ARSB), resulting in intralysosomal storage of dermatan sulfate (DS) and multisystem disease without central nervous system involvement. After gene transfer, muscle or liver can theoretically be converted into factories for systemic ARSB secretion, leading to uptake by non-transduced cells. We have injected newborn MPS VI rats and cats with adeno-associated viral (AAV) vectors expressing ARSB under the control of liver-specific, muscle-specific, or universally active promoters. After systemic or intramuscular (IM) administration of AAV, therapeutic levels of circulating ARSB are achieved, resulting in skeletal improvements and significant decrease in glycosaminoglycan (GAG) storage, inflammation and apoptosis (despite a neutralizing immune response to ARSB in MPS VI rats). In addition, we have observed wide-spread dissemination of vector after IM AAV administration. This results in secretion of therapeutic levels of ARSB when the universally active cytomegalovirus (CMV) but not the muscle-specific muscle creatine kinase (MCK) promoter is used, suggesting that transduction of extramuscular sites rather than enzyme secretion from muscle occurs after muscle ARSB gene transfer. We conclude that AAV-mediated expression of ARSB from liver represents a feasible therapeutic strategy for MPS VI, potentially avoiding multiple infusions of costly recombinant enzyme associated with enzyme replacement therapy.

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Long-term Amelioration of Feline Mucopolysaccharidosis VI After AAV-mediated Liver Gene Transfer

et al. 2011

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Mucopolysaccharidosis VI (MPS VI) is caused by deficient arylsulfatase B (ARSB) activity resulting in lysosomal storage of glycosaminoglycans (GAGs). MPS VI is characterized by dysostosis multiplex, organomegaly, corneal clouding, and heart valve thickening. Gene transfer to a factory organ like liver may provide a lifetime source of secreted ARSB. We show that intravascular administration of adeno-associated viral vectors (AAV) 2/8-TBG-felineARSB in MPS VI cats resulted in ARSB expression up to 1 year, the last time point of the study. In newborn cats, normal circulating ARSB activity was achieved following delivery of high vector doses (6 × 10(13) genome copies (gc)/kg) whereas delivery of AAV2/8 vector doses as low as 2 × 10(12) gc/kg resulted in higher than normal serum ARSB levels in juvenile MPS VI cats. In MPS VI cats showing high serum ARSB levels, independent of the age at treatment, we observed: (i) clearance of GAG storage, (ii) improvement of long bone length, (iii) reduction of heart valve thickness, and (iv) improvement in spontaneous mobility. Thus, AAV2/ 8-mediated liver gene transfer represents a promising therapeutic strategy for MPS VI patients.

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Thomas O’Malley

Therapeutic neonatal hepatic gene therapy in mucopolysaccharidosis VII dogs

Biochemical, Pathological, and Skeletal Improvement of Mucopolysaccharidosis VI After Gene Transfer to Liver but Not to Muscle

Long-term Amelioration of Feline Mucopolysaccharidosis VI After AAV-mediated Liver Gene Transfer

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