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The ataxin-1 interactome reveals direct connection with multiple disrupted nuclear transport pathways.

ABSTRACT: The expanded polyglutamine (polyQ) tract form of ataxin-1 drives disease progression in spinocerebellar ataxia type 1 (SCA1). Although known to form distinctive intranuclear bodies, the cellular pathways and processes that polyQ-ataxin-1 influences remain poorly understood. Here we identify the direct and proximal partners constituting the interactome of ataxin-1[85Q] in Neuro-2a cells, pathways analyses indicating a significant enrichment of essential nuclear transporters, pointing to disruptions in nuclear transport processes in the presence of elevated levels of ataxin-1. Our direct assessments of nuclear transporters and their cargoes confirm these observations, revealing disrupted trafficking often with relocalisation of transporters and/or cargoes to ataxin-1[85Q] nuclear bodies. Analogous changes in importin-?1, nucleoporin 98 and nucleoporin 62 nuclear rim staining are observed in Purkinje cells of ATXN1[82Q] mice. The results highlight a disruption of multiple essential nuclear protein trafficking pathways by polyQ-ataxin-1, a key contribution to furthering understanding of pathogenic mechanisms initiated by polyQ tract proteins.

SUBMITTER: Zhang S 

PROVIDER: S-EPMC7334205 | biostudies-literature | 2020 Jul

REPOSITORIES: biostudies-literature

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The ataxin-1 interactome reveals direct connection with multiple disrupted nuclear transport pathways.

Zhang Sunyuan S   Williamson Nicholas A NA   Duvick Lisa L   Lee Alexander A   Orr Harry T HT   Korlin-Downs Austin A   Yang Praseuth P   Mok Yee-Foong YF   Jans David A DA   Bogoyevitch Marie A MA  

Nature communications 20200703 1

The expanded polyglutamine (polyQ) tract form of ataxin-1 drives disease progression in spinocerebellar ataxia type 1 (SCA1). Although known to form distinctive intranuclear bodies, the cellular pathways and processes that polyQ-ataxin-1 influences remain poorly understood. Here we identify the direct and proximal partners constituting the interactome of ataxin-1[85Q] in Neuro-2a cells, pathways analyses indicating a significant enrichment of essential nuclear transporters, pointing to disruptio  ...[more]

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