Early or late-stage anti-N-terminal Huntingtin intrabody gene therapy reduces pathological features in B6.HDR6/1 mice.

Huntington disease (HD) is a progressive neurodegenerative disease caused by an expansion of a polyglutamine sequence in mutant huntingtin (mhtt) that produces abnormal folding and aggregation that results in the formation of nuclear and cytoplasmic neuronal inclusion bodies. Although the precise role of mhtt aggregates in the pathogenesis is unclear, attempts to reduce accumulated mhtt protein have ameliorated the phenotype in multiple cellular and in vivo HD models. Here, we provide critical results on intracranial delivery of a single-chain Fv intrabody, C4, which targets the first 17 amino acids of the htt protein, a region of httExon1 that is increasingly being recognized as pivotal. To assess long-term efficacy and safety issues, we used adenoassociated viral vectors (AAV2/1) to deliver intrabody genes to the striatum of inbred B6.HDR6/1 mice. Treatment initiation at various stages of the disease showed that early treatment preserved the largest number of cells without nuclear aggregates and that the accumulation of aggregated material could be delayed by several months. Even when intrabody treatment was not initiated until the clinical disease stage, significant, albeit smaller, effects were seen. These data indicate that neuronal intrabodies against critical N-terminal epitopes can be safely and effectively delivered using AAV2/1 to delay the aggregation phenotype during a sustained period in this HD model, even when delivery is initiated after disease onset.