Hunting for the cause: Evidence for prion-like mechanisms in Huntington’s disease

Kirby M. Donnelly; Cevannah M. Coleman; Madison L. Fuller; Victoria L. Reed; Dayna Smerina; David S. Tomlinson; Margaret M. Panning Pearce; Margaret M. Panning Pearce

doi:10.3389/fnins.2022.946822

Frontiers in Neuroscience (Aug 2022)

Hunting for the cause: Evidence for prion-like mechanisms in Huntington’s disease

Kirby M. Donnelly,
Cevannah M. Coleman,
Madison L. Fuller,
Victoria L. Reed,
Dayna Smerina,
David S. Tomlinson,
Margaret M. Panning Pearce,
Margaret M. Panning Pearce

Affiliations

Kirby M. Donnelly: Department of Biological Sciences, University of the Sciences, Philadelphia, PA, United States
Cevannah M. Coleman: Department of Biological Sciences, University of the Sciences, Philadelphia, PA, United States
Madison L. Fuller: Department of Biological Sciences, University of the Sciences, Philadelphia, PA, United States
Victoria L. Reed: Department of Biological Sciences, University of the Sciences, Philadelphia, PA, United States
Dayna Smerina: Department of Biological Sciences, University of the Sciences, Philadelphia, PA, United States
David S. Tomlinson: Department of Biological Sciences, University of the Sciences, Philadelphia, PA, United States
Margaret M. Panning Pearce: Department of Biological Sciences, University of the Sciences, Philadelphia, PA, United States
Margaret M. Panning Pearce: Department of Biology, Saint Joseph’s University, Philadelphia, PA, United States

DOI: https://doi.org/10.3389/fnins.2022.946822
Journal volume & issue: Vol. 16

Abstract

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The hypothesis that pathogenic protein aggregates associated with neurodegenerative diseases spread from cell-to-cell in the brain in a manner akin to infectious prions has gained substantial momentum due to an explosion of research in the past 10–15 years. Here, we review current evidence supporting the existence of prion-like mechanisms in Huntington’s disease (HD), an autosomal dominant neurodegenerative disease caused by expansion of a CAG repeat tract in exon 1 of the huntingtin (HTT) gene. We summarize information gained from human studies and in vivo and in vitro models of HD that strongly support prion-like features of the mutant HTT (mHTT) protein, including potential involvement of molecular features of mHTT seeds, synaptic structures and connectivity, endocytic and exocytic mechanisms, tunneling nanotubes, and nonneuronal cells in mHTT propagation in the brain. We discuss mechanisms by which mHTT aggregate spreading and neurotoxicity could be causally linked and the potential benefits of targeting prion-like mechanisms in the search for new disease-modifying therapies for HD and other fatal neurodegenerative diseases.

Published in Frontiers in Neuroscience

ISSN: 1662-4548 (Print); 1662-453X (Online)
Publisher: Frontiers Media S.A.
Country of publisher: Switzerland
LCC subjects: Medicine: Internal medicine: Neurosciences. Biological psychiatry. Neuropsychiatry
Website: http://www.frontiersin.org/neuroscience

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Abstract

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