Peng Qi scite author profile

Summary Huntington’s disease (HD) is caused by an expanded CAG repeat in the Huntingtin (HTT) gene. The mechanism(s) by which mutant HTT (mHTT) causes disease is unclear. Nucleocytoplasmic transport, the trafficking of macromolecules between the nucleus and cytoplasm is tightly regulated by nuclear pore complexes (NPCs) made up of nucleoporins (NUPs). Previous studies offered clues that mHTT may disrupt nucleocytoplasmic transport and a mutation of a NUP can cause HD-like pathology. Therefore, we evaluated the NPC and nucleocytoplasmic transport in multiple models of HD including mouse and fly models, neurons transfected with mHTT, HD iPSC-derived neurons and human HD brain regions. These studies revealed severe mislocalization and aggregation of NUPs and defective nucleocytoplasmic transport. HD repeat-associated non-ATG (RAN) translation proteins also disrupted nucleocytoplasmic transport. Additionally, overexpression of NUPs and treatment with drugs that prevent aberrant NUP biology also mitigated this transport defect and neurotoxicity, providing future novel therapy targets.

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Neuroprotective role of Sirt1 in mammalian models of Huntington's disease through activation of multiple Sirt1 targets

Jiang

Wang

et al. 2011

Nat Med

308

264

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Huntington’s disease (HD) is a fatal neurodegenerative disorder caused by an expanded polyglutamine repeat in huntingtin (Htt) protein. Current management strategies temporarily relieve disease symptoms, but fail to affect the underlying disease progression. We previously demonstrated that calorie restriction ameliorated HD pathogenesis and slowed disease progression in HD mice1. We now report that overexpression of SIRT1, a mediator of beneficial metabolic effects of calorie restriction, protects neurons against mutant Htt toxicity, whereas reduction of SIRT1 exacerbates mutant Htt toxicity. Overexpression of SIRT1 significantly improves motor function, reduces brain atrophy, and attenuates mutant Htt-mediated metabolic abnormalities in both fragment and full-length HD mouse models. Further mechanistic studies suggest that SIRT1 prevents mutant Htt-induced decline in BDNF levels and its receptor Trk-B signaling, and restores medium spiny neuronal DARPP32 levels in the striatum. SIRT1 deacetylase activity is required for SIRT1-mediated neuroprotection in HD models. Notably, we demonstrate that mutant Htt interacts with SIRT1 and inhibits SIRT1 deacetylase activity. Inhibition of SIRT1 deacetylase activity results in hyperacetylation of SIRT1 substrates such as FOXO3a thereby inhibiting its prosurvival function. Overexpression of SIRT1 counteracts mutant Htt-induced deacetylase deficit, enhances deacetylation of FOXO3a, and facilitates cell survival. These findings demonstrate a neuroprotective role of SIRT1 in mammalian HD models, indicate key mediators of this protection, and open new avenues for the development of neuroprotective strategies in HD.

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Dual arm manipulation—A survey

Smith

Karayiannidis

Nalpantidis

et al. 2012

Robotics and Autonomous Systems

450

208

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Recent advances in both anthropomorphic robots and bimanual industrial manipulators had led to an increased interest in the specific problems pertaining to dual arm manipulation. For the future, we foresee robots performing humanlike tasks in both domestic and industrial settings. It is therefore natural to study specifics of dual arm manipulation in humans and methods for using the resulting knowledge in robot control. The related scientific problems range from low-level control to high level task planning and execution. This review aims to summarize the current state of the art from the heterogenous range of fields that study the different aspects of these problems specifically in dual arm manipulation.

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Peng Qi

Mutant Huntingtin Disrupts the Nuclear Pore Complex

Neuroprotective role of Sirt1 in mammalian models of Huntington's disease through activation of multiple Sirt1 targets

Dual arm manipulation—A survey

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