Nucleolar stress controls mutant Huntingtin toxicity and monitors Huntington’s disease progression

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Abstract

Transcriptional and cellular stress surveillance deficits are hallmarks of Huntington’s disease (HD), a fatal autosomal dominant neurodegenerative disorder, caused by a pathological expansion of CAG repeats in the Huntingtin ( HTT) gene. The nucleolus, a dynamic nuclear biomolecular condensate and the site of ribosomal RNA (rRNA) transcription, is implicated in the cellular stress response and in protein quality control. While the exact pathomechanisms of HD remain unclear, the impact of nucleolar dysfunction on HD pathophysiology in vivo is elusive. Here we identified aberrant maturation of rRNA and decreased translational rate in association with human mutant Huntingtin (mHTT) expression. Genetic disruption of nucleolar integrity in vulnerable striatal neurons of the R6/2 HD mouse model decreases mHTT disperse state in the nucleus, exacerbating the motor deficits. The protein nucleophosmin 1 (NPM1), important for nucleolar integrity and rRNA maturation, loses its nucleolar localization. NPM1 de-localization occurs in the striatum and in the skeletal muscle of the progressive zQ175 knock-in HD mouse model, mimicking the phenotype of HD patients in skeletal muscle biopsies. Taken together, we showed that nucleolar integrity regulates the formation of mHTT inclusions in vivo , and identified NPM1 as a novel, readily detectable peripheral histopathological marker of HD progression.

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last seen: 2026-05-19T01:45:01.086888+00:00