Abstract
BackgroundHuntington disease (HD) is an adult onset neurodegenerative disorder caused by a polyglutamine expansion in the huntingtin (htt) protein. Htt function is essential for embryonic survival as well as normal function during the postnatal period. In addition to having roles in transcription and transport, recent evidence demonstrates that wild-type htt is neuroprotective in vivo. To determine whether treatment with wild-type htt would be beneficial in HD, we crossed the YAC128 mouse model of HD with mice that over-express wild-type htt (YAC18 mice) to generate YAC128 mice that over-express wild-type htt (YAC18/128 mice).ResultsYAC18/128 mice were found to express mutant htt at the same level as YAC128 mice and wild-type htt at the same level as YAC18 mice. YAC18/128 mice show no significant behavioural improvement compared to YAC128 mice in the rotarod test of motor coordination or in an automated open field test. In the brain, YAC18/128 mice show no significant improvement in striatal volume, striatal neuronal numbers or striatal DARPP-32 expression compared to YAC128 mice. In contrast, striatal neuronal cross-sectional area showed significant improvement in YAC18/128 mice compared to YAC128 mice.ConclusionWhile the over-expression of wild-type htt results in a mild improvement in striatal neuropathology in YAC128 mice, our findings suggest that treatment with wild-type htt may not be sufficient to ameliorate the symptoms of HD in this model.
Highlights
Huntington disease (HD) is an adult onset neurodegenerative disorder caused by a polyglutamine expansion in the huntingtin protein
Based on recent work demonstrating a neuroprotective function of wild-type htt and suggestions that loss of wildtype htt function contributes to HD pathogenesis, we investigated the therapeutic potential of wild-type htt in the YAC18/128 at any time point (YAC128) mouse model of HD
We found that overexpression of wild-type htt in YAC128 mice resulted in a mild improvement in striatal neuropathology with no significant improvement in behavioural phenotypes
Summary
Huntington disease (HD) is an adult onset neurodegenerative disorder caused by a polyglutamine expansion in the huntingtin (htt) protein. While the expression of mutant htt is sufficient to cause HD-like symptoms with normal expression levels of wild-type htt [1,2,3], recent data suggests that decreased levels of wild-type htt in HD patients may contribute significantly to the pathogenesis of HD [4]. Decreasing htt levels by 50% or more from birth results in neurological abnormalities [7,9,10]. The expression of wild-type htt is essential postnatally as mice expressing decreased levels of wild-type htt in the forebrain beginning at postnatal day 5 were shown to have a progressive neurological phenotype [11]. Decreased wild-type htt levels alone can lead to phenotypic abnormalities independent of mutant htt
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