Yuwei Yao scite author profile

Huntington's disease (HD) represents an important model for neurodegenerative disorders and proteinopathies. It is mainly caused by cytotoxicity of the mutant huntingtin protein (Htt) with an expanded polyQ stretch. While Htt is ubiquitously expressed, HD is characterized by selective neurodegeneration of the striatum. Here we report a striatal-enriched orphan G protein-coupled receptor(GPCR) Gpr52 as a stabilizer of Htt in vitro and in vivo. Gpr52 modulates Htt via cAMP-dependent but PKA independent mechanisms. Gpr52 is located within an intron of Rabgap1l, which exhibits epistatic effects on Gpr52-mediated modulation of Htt levels by inhibiting its substrate Rab39B, which co-localizes with Htt and translocates Htt to the endoplasmic reticulum. Finally, reducing Gpr52 suppresses HD phenotypes in both patient iPS-derived neurons and in vivo Drosophila HD models. Thus, our discovery reveals modulation of Htt levels by a striatal-enriched GPCR via its GPCR function, providing insights into the selective neurodegeneration and potential treatment strategies.DOI: http://dx.doi.org/10.7554/eLife.05449.001

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Suppression of MAPK11 or HIPK3 reduces mutant Huntingtin levels in Huntington's disease models

Liang

et al. 2017

Cell Res

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Most neurodegenerative disorders are associated with accumulation of disease-relevant proteins. Among them, Huntington disease (HD) is of particular interest because of its monogenetic nature. HD is mainly caused by cytotoxicity of the defective protein encoded by the mutant Huntingtin gene (HTT). Thus, lowering mutant HTT protein (mHTT) levels would be a promising treatment strategy for HD. Here we report two kinases HIPK3 and MAPK11 as positive modulators of mHTT levels both in cells and in vivo. Both kinases regulate mHTT via their kinase activities, suggesting that inhibiting these kinases may have therapeutic values. Interestingly, their effects on HTT levels are mHTT-dependent, providing a feedback mechanism in which mHTT enhances its own level thus contributing to mHTT accumulation and disease progression. Importantly, knockout of MAPK11 significantly rescues disease-relevant behavioral phenotypes in a knockin HD mouse model. Collectively, our data reveal new therapeutic entry points for HD and target-discovery approaches for similar diseases.

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TR-FRET Assays for Endogenous Huntingtin Protein Level in Mouse Cells

Liang

Yao

et al. 2014

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High-throughput measurement of huntingtin (Htt) levels is useful for Huntington's disease research. For example, identification of genetic or chemical modifiers that reduce Htt levels by high-throughput screening provides promising strategy for HD drug discovery. In the human cells, high-throughput measurement of Htt levels has been established based on the Time Resolved-Fluorescence Resonance Energy Transfer (TR-FRET) technology, using the 2B7/MW1 antibody pair. Unfortunately, application of this assay in the mouse cells has been problematic due to discrepancies between TR-FRET signals and Westernblots, possibly caused by non-specific antibody binding. Here we report TR-FRET assays that are able to detect endogenous Htt levels of the mouse striatal cell line (STHdh).

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Yuwei Yao

A striatal-enriched intronic GPCR modulates huntingtin levels and toxicity

Suppression of MAPK11 or HIPK3 reduces mutant Huntingtin levels in Huntington's disease models

TR-FRET Assays for Endogenous Huntingtin Protein Level in Mouse Cells

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