Control of the structural landscape and neuronal proteotoxicity of mutant Huntingtin by domains flanking the polyQ tract.

Koning Shen,Donald C Lo,Judith Frydman,Sarah H Shahmoradian,Boxue Ma,Ivana L Serrano Lachapel,Jonathan A Fauerbach,Barbara Calamini,Wah Chiu

doi:10.7554/elife.18065

Koning Shen, Donald C Lo + Show 7 more

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https://doi.org/10.7554/elife.18065

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Abstract

Many neurodegenerative diseases are linked to amyloid aggregation. In Huntington's disease (HD), neurotoxicity correlates with an increased aggregation propensity of a polyglutamine (polyQ) expansion in exon 1 of mutant huntingtin protein (mHtt). Here we establish how the domains flanking the polyQ tract shape the mHtt conformational landscape in vitro and in neurons. In vitro, the flanking domains have opposing effects on the conformation and stabilities of oligomers and amyloid fibrils. The N-terminal N17 promotes amyloid fibril formation, while the C-terminal Proline Rich Domain destabilizes fibrils and enhances oligomer formation. However, in neurons both domains act synergistically to engage protective chaperone and degradation pathways promoting mHtt proteostasis. Surprisingly, when proteotoxicity was assessed in rat corticostriatal brain slices, either flanking region alone sufficed to generate a neurotoxic conformation, while the polyQ tract alone exhibited minimal toxicity. Linking mHtt structural properties to its neuronal proteostasis should inform new strategies for neuroprotection in polyQ-expansion diseases.

Highlights

Huntington’s disease (HD) is an inherited neurodegenerative disease characterized by movement disorders, behavioral abnormalities, and brain atrophy (Orr and Zoghbi, 2007; Ross et al, 2014; Vonsattel and DiFiglia, 1998)
To evaluate the impact of N17 and PRD on the expanded polyQ tract, we created a set of mutant huntingtin protein (mHtt)-Ex1 deletion variants containing a pathogenic-length polyQ tract (Q51) and lacking the N17 (DN), PRD (DP), or both N17 and PRD domains (DNDP)
Despite the link between polyQ-tract length, aggregation propensity and disease severity, the forces shaping the ensemble of mHtt conformational species and their relation to neuronal toxicity remain elusive

Summary

Introduction

Huntington’s disease (HD) is an inherited neurodegenerative disease characterized by movement disorders, behavioral abnormalities, and brain atrophy (Orr and Zoghbi, 2007; Ross et al, 2014; Vonsattel and DiFiglia, 1998). A link between neuronal toxicity and amyloid aggregation is further supported by post-mortem analyses of HD brains, which contain amyloid aggregates formed primarily by N-terminal exon 1 truncations of Htt (Difiglia, 1997; Landles et al, 2010; Mangiarini et al, 1996; Ross and Poirier, 2004). Such N-terminal fragments may arise from aberrant splicing at the Htt exon 1 junction or from caspase cleavage (Sathasivam et al, 2013; Wellington et al, 2002).

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