Abstract
Gaucher disease is caused by mutations in the GBA gene, which encodes for the lysosomal enzyme β-glucocerebrosidase (GCase), resulting in the accumulation of storage material in visceral organs and in some cases the brain of affected patients. While there is a commercially available treatment for the systemic manifestations, neuropathology still remains untreatable. We previously demonstrated that gene therapy represents a feasible therapeutic tool for the treatment of the neuronopathic forms of Gaucher disease (nGD). In order to further enhance the therapeutic affects to the central nervous system, we systemically delivered an adeno-associated virus (AAV) serotype 9 carrying the human GBA gene under control of a neuron-specific promoter to an nGD mouse model. Gene therapy increased the life span of treated animals, rescued the lethal neurodegeneration, normalized the locomotor behavioural defects and ameliorated the visceral pathology. Together, these results provided further indication of gene therapy as a possible effective treatment option for the neuropathic forms of Gaucher disease.
Highlights
Gaucher disease (GD) is a metabolic condition and the most common lysosomal storage disorder (LSD) [1]
Three wild-type mice were injected into the temporal vein at day of birth with 2x1011 viral vector genomes of AAV9.hSYNI.eGFP
The animals were sacrificed at post-natal day 30 (P30), and eGFP expression analysis was carried out on the harvested tissues
Summary
Gaucher disease (GD) is a metabolic condition and the most common lysosomal storage disorder (LSD) [1]. Having shown that neonatal gene delivery was effective and overexpression of GCase did not promote neurotoxicity in the brain of injected animals, 2.4x1012 vg of the AAV9.hSYNI.hGBA vector was administered intravenously to five Gba knock-out mice (K14-lnl/lnl) on the day of birth. Brain sections of controls, treated knock-out and untreated mice were stained with an antibody against the GCase protein and the most affected regions observed in Gaucher patients were analysed (Fig. 4A).
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