Abstract
Huntington disease (HD) is a fatal neurodegenerative disease caused by a pathogenic expansion of a CAG repeat in the huntingtin (HTT) gene. There are no disease-modifying therapies for HD. Artificial microRNAs targeting HTT transcripts for degradation have shown preclinical promise and will soon enter human clinical trials. Here, we examine the tolerability and efficacy of non-selective HTT lowering with an AAV5 encoded miRNA targeting human HTT (AAV5-miHTT) in the humanized Hu128/21 mouse model of HD. We show that intrastriatal administration of AAV5-miHTT results in potent and sustained HTT suppression for at least 7 months post-injection. Importantly, non-selective suppression of huntingtin was generally tolerated, however high dose AAV5-miHTT did induce astrogliosis. We observed an improvement of select behavioural and modest neuropathological HD-like phenotypes in Hu128/21 mice, suggesting a potential therapeutic benefit of miRNA-mediated non-selective HTT lowering. Finally, we also observed that potent reduction of wild type HTT (wtHTT) in Hu21 control mice was tolerated up to 7 months post-injection but may induce impairment of motor coordination and striatal atrophy. Taken together, our data suggests that in the context of HD, the therapeutic benefits of mHTT reduction may outweigh the potentially detrimental effects of wtHTT loss following non-selective HTT lowering.
Highlights
Huntington disease (HD) is a fatal neurodegenerative disease that affects ∼13.7 per 100 000 individuals in the general population [1]
We sought to examine the effects of long term wild type HTT (wtHTT) suppression with AAV5-miRNA targeting exon of human HTT (miHTT) in the humanized Hu21 control mouse model
We observed broad distribution of AAV5 throughout the basal ganglia, deeper layers of the cortex and hippocampus. These findings are consistent with reports that AAV5 undergoes anterograde and retrograde axonal transport following intrastriatal infusion [66] resulting in broad transduction to many of the structures affected in HD in a large animal model of HD [63]
Summary
Huntington disease (HD) is a fatal neurodegenerative disease that affects ∼13.7 per 100 000 individuals in the general population [1]. HD is caused by a dominant CAG trinucleotide repeat expansion mutation in the huntingtin (HTT) gene beyond 35, which codes for an elongated polyglutamine (polyQ) tract in the HTT protein [2]. In HD, the expansion of the polyQ tract leads to perturbation of these normal functions and induces the gain of toxic functions causing cellular dysfunction and neuron death.
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