Spatiotemporal Proteomic Profiling of Huntington's Disease Inclusions Reveals Widespread Loss of Protein Function

Fabian Hosp, Sara Gutiérrez-Ángel, Martin H Schaefer, Jürgen Cox, Felix Meissner, Mark S Hipp, F-Ulrich Hartl, Rüdiger Klein, Irina Dudanova, Matthias Mann

45 Citationer (Scopus)

Abstract

Aggregation of polyglutamine-expanded huntingtin exon 1 (HttEx1) in Huntington's disease (HD) proceeds from soluble oligomers to late-stage inclusions. The nature of the aggregates and how they lead to neuronal dysfunction is not well understood. We employed mass spectrometry (MS)-based quantitative proteomics to dissect spatiotemporal mechanisms of neurodegeneration using the R6/2 mouse model of HD. Extensive remodeling of the soluble brain proteome correlated with insoluble aggregate formation during disease progression. In-depth and quantitative characterization of the aggregates uncovered an unprecedented complexity of several hundred proteins. Sequestration to aggregates depended on protein expression levels and sequence features such as low-complexity regions or coiled-coil domains. In a cell-based HD model, overexpression of a subset of the sequestered proteins in most cases rescued viability and reduced aggregate size. Our spatiotemporally resolved proteome resource of HD progression indicates that widespread loss of cellular protein function contributes to aggregate-mediated toxicity. Hosp et al. use quantitative proteomics to describe the soluble and insoluble proteome of several brain regions in a mouse model of Huntington's disease at various stages of disease progression. Their findings suggest that widespread sequestration of proteins into mutant huntingtin inclusion bodies contributes to HD pathogenesis.

OriginalsprogEngelsk
TidsskriftCell Reports
Vol/bind21
Udgave nummer8
Sider (fra-til)2291-2303
Antal sider13
ISSN2211-1247
DOI
StatusUdgivet - 21 nov. 2017
Udgivet eksterntJa

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