Nine inherited neurodegenerative disorders, including Huntington's disease (HD), are caused by the expansion of a polyglutamine (polyQ) domain in their associated disease proteins. A common pathological feature of these diseases is selective neurodegeneration in distinct brain regions associated with each disease, despite the widespread expression of mutant proteins throughout the brain and body. Understanding the mechanism by which expanded polyQ-containing proteins mediate selective neurodegeneration is critical for developing effective therapeutic strategies to treat these polyQ diseases. In HD patients, the selective neurodegeneration occurs first to the medium spiny neurons, which account for >90% of neurons in the striatum. In HD mice that express full-length mutant huntingtin (htt), there is a preferential accumulation of mutant htt in the nuclei of medium spiny neurons in the striatum. Since mutant htt in the nucleus interacts with transcription factors and affects gene expression, this preferential nuclear accumulation is believed to account for the selective neurodegeneration in the striatum. Understanding the mechanism for this nuclear localization will not only help elucidate the pathogenesis of HD, but also other polyQ diseases that feature nuclear accumulation and inclusions of polyQ proteins. We hypothesize that the nuclear localization of mutant htt stems from multiple factors. First, the full- length mutant htt must be degraded to generate small N-terminal htt fragments that can passively enter the nucleus to affect gene transcription. Second, cell type-specific factors can regulate the nuclear localization of mutant htt. To test these hypotheses, we will compare the subcellular distribution of full-length and N- terminal mutant htt in HD knock-in mice that express mutant htt at the endogenous level. The relationship between the nuclear accumulation of N-terminal mutant htt and neurological phenotypes or changes in gene expression will be evaluated. We will also investigate the cell type-specific toxicity of N-terminal mutant htt via the Cre-loxP system. These studies aim to test whether N-terminal mutant htt, when expressed at the endogenous level, accumulates more rapidly in the nucleus and causes more severe phenotypes than full-length mutant htt. We will also examine whether striatal neurons have specific molecules or factors that regulate N-terminal phosphorylation of mutant htt to promote its nuclear accumulation. These studies will help us develop therapies that alter htt phosphorylation to reduce the nuclear accumulation of mutant htt and its associated neuropathology.
Huntington disease (HD) is the most common form of polyglutamine diseases that are featured by abnormal gene expression caused by mutant proteins in the nucleus. In this application, we will use genetic mouse models of HD to investigate the mechanism by which the HD protein accumulates in neuronal nucleus. Elucidating this mechanism will help find therapeutic intervention to reduce HD neuropathology.
|Tu, Zhuchi; Yang, Weili; Yan, Sen et al. (2017) Promoting Cas9 degradation reduces mosaic mutations in non-human primate embryos. Sci Rep 7:42081|
|Wang, Guohao; Liu, Xudong; Gaertig, Marta A et al. (2016) Ablation of huntingtin in adult neurons is nondeleterious but its depletion in young mice causes acute pancreatitis. Proc Natl Acad Sci U S A 113:3359-64|
|Zhao, Ting; Hong, Yan; Li, Shihua et al. (2016) Compartment-Dependent Degradation of Mutant Huntingtin Accounts for Its Preferential Accumulation in Neuronal Processes. J Neurosci 36:8317-28|
|Yang, Weili; Tu, Zhuchi; Sun, Qiang et al. (2016) CRISPR/Cas9: Implications for Modeling and Therapy of Neurodegenerative Diseases. Front Mol Neurosci 9:30|
|Liu, Xudong; Wang, Chuan-En; Hong, Yan et al. (2016) N-terminal Huntingtin Knock-In Mice: Implications of Removing the N-terminal Region of Huntingtin for Therapy. PLoS Genet 12:e1006083|
|Chen, Yongchang; Zheng, Yinghui; Kang, Yu et al. (2015) Functional disruption of the dystrophin gene in rhesus monkey using CRISPR/Cas9. Hum Mol Genet 24:3764-74|
|Huang, Brenda; Wei, WenJie; Wang, Guohao et al. (2015) Mutant huntingtin downregulates myelin regulatory factor-mediated myelin gene expression and affects mature oligodendrocytes. Neuron 85:1212-26|
|Jiang, WenXiao; Li, ShiHua; Li, XiaoJiang (2015) Therapeutic potential of berberine against neurodegenerative diseases. Sci China Life Sci 58:564-9|
|Wang, Guohao; Yang, Huaqiang; Yan, Sen et al. (2015) Cytoplasmic mislocalization of RNA splicing factors and aberrant neuronal gene splicing in TDP-43 transgenic pig brain. Mol Neurodegener 10:42|
|Jiang, Wenxiao; Wei, Wenjie; Gaertig, Marta A et al. (2015) Therapeutic Effect of Berberine on Huntington's Disease Transgenic Mouse Model. PLoS One 10:e0134142|
Showing the most recent 10 out of 59 publications