HDAC4 Reduction: A Novel Therapeutic Strategy to Target Cytoplasmic Huntingtin and Ameliorate Neurodegeneration

Michal Mielcarek; Christian Landles; Andreas Weiss; Amyaouch Bradaia; Tamara Seredenina; Linda Inuabasi; Georgina F. Osborne; Kristian Wadel; Chrystelle Touller; Rachel Butler; Janette Robertson; Sophie A. Franklin; Donna L. Smith; Larry Park; Paul A. Marks; Erich E. Wanker; Eric N. Olson; Ruth Luthi-Carter; Herman van der Putten; Vahri Beaumont; Gillian P. Bates

doi:10.1371/journal.pbio.1001717

HDAC4 Reduction: A Novel Therapeutic Strategy to Target Cytoplasmic Huntingtin and Ameliorate Neurodegeneration

Michal Mielcarek, Christian Landles, Andreas Weiss, Amyaouch Bradaia, Tamara Seredenina, Linda Inuabasi, Georgina F. Osborne, Kristian Wadel, Chrystelle Touller, Rachel Butler, Janette Robertson, Sophie A. Franklin, Donna L. Smith, Larry Park, Paul A. Marks, Erich E. Wanker, Eric N. Olson, Ruth Luthi-Carter, Herman van der Putten, Vahri BeaumontGillian P. Bates

Research output: Contribution to journal › Article › peer-review

135 Scopus citations

Abstract

Histone deacetylase (HDAC) 4 is a transcriptional repressor that contains a glutamine-rich domain. We hypothesised that it may be involved in the molecular pathogenesis of Huntington's disease (HD), a protein-folding neurodegenerative disorder caused by an aggregation-prone polyglutamine expansion in the huntingtin protein. We found that HDAC4 associates with huntingtin in a polyglutamine-length-dependent manner and co-localises with cytoplasmic inclusions. We show that HDAC4 reduction delayed cytoplasmic aggregate formation, restored Bdnf transcript levels, and rescued neuronal and cortico-striatal synaptic function in HD mouse models. This was accompanied by an improvement in motor coordination, neurological phenotypes, and increased lifespan. Surprisingly, HDAC4 reduction had no effect on global transcriptional dysfunction and did not modulate nuclear huntingtin aggregation. Our results define a crucial role for the cytoplasmic aggregation process in the molecular pathology of HD. HDAC4 reduction presents a novel strategy for targeting huntingtin aggregation, which may be amenable to small-molecule therapeutics.

Original language	English (US)
Article number	e1001717
Journal	PLoS biology
Volume	11
Issue number	11
DOIs	https://doi.org/10.1371/journal.pbio.1001717
State	Published - Nov 2013

ASJC Scopus subject areas

General Neuroscience
General Biochemistry, Genetics and Molecular Biology
General Immunology and Microbiology
General Agricultural and Biological Sciences

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10.1371/journal.pbio.1001717

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Mielcarek, M., Landles, C., Weiss, A., Bradaia, A., Seredenina, T., Inuabasi, L., Osborne, G. F., Wadel, K., Touller, C., Butler, R., Robertson, J., Franklin, S. A., Smith, D. L., Park, L., Marks, P. A., Wanker, E. E., Olson, E. N., Luthi-Carter, R., van der Putten, H., ... Bates, G. P. (2013). HDAC4 Reduction: A Novel Therapeutic Strategy to Target Cytoplasmic Huntingtin and Ameliorate Neurodegeneration. PLoS biology, 11(11), Article e1001717. https://doi.org/10.1371/journal.pbio.1001717

Mielcarek, M, Landles, C, Weiss, A, Bradaia, A, Seredenina, T, Inuabasi, L, Osborne, GF, Wadel, K, Touller, C, Butler, R, Robertson, J, Franklin, SA, Smith, DL, Park, L, Marks, PA, Wanker, EE, Olson, EN, Luthi-Carter, R, van der Putten, H, Beaumont, V & Bates, GP 2013, 'HDAC4 Reduction: A Novel Therapeutic Strategy to Target Cytoplasmic Huntingtin and Ameliorate Neurodegeneration', PLoS biology, vol. 11, no. 11, e1001717. https://doi.org/10.1371/journal.pbio.1001717

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abstract = "Histone deacetylase (HDAC) 4 is a transcriptional repressor that contains a glutamine-rich domain. We hypothesised that it may be involved in the molecular pathogenesis of Huntington's disease (HD), a protein-folding neurodegenerative disorder caused by an aggregation-prone polyglutamine expansion in the huntingtin protein. We found that HDAC4 associates with huntingtin in a polyglutamine-length-dependent manner and co-localises with cytoplasmic inclusions. We show that HDAC4 reduction delayed cytoplasmic aggregate formation, restored Bdnf transcript levels, and rescued neuronal and cortico-striatal synaptic function in HD mouse models. This was accompanied by an improvement in motor coordination, neurological phenotypes, and increased lifespan. Surprisingly, HDAC4 reduction had no effect on global transcriptional dysfunction and did not modulate nuclear huntingtin aggregation. Our results define a crucial role for the cytoplasmic aggregation process in the molecular pathology of HD. HDAC4 reduction presents a novel strategy for targeting huntingtin aggregation, which may be amenable to small-molecule therapeutics.",

author = "Michal Mielcarek and Christian Landles and Andreas Weiss and Amyaouch Bradaia and Tamara Seredenina and Linda Inuabasi and Osborne, {Georgina F.} and Kristian Wadel and Chrystelle Touller and Rachel Butler and Janette Robertson and Franklin, {Sophie A.} and Smith, {Donna L.} and Larry Park and Marks, {Paul A.} and Wanker, {Erich E.} and Olson, {Eric N.} and Ruth Luthi-Carter and {van der Putten}, Herman and Vahri Beaumont and Bates, {Gillian P.}",

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AU - Seredenina, Tamara

AU - Inuabasi, Linda

AU - Osborne, Georgina F.

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AU - Beaumont, Vahri

AU - Bates, Gillian P.

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HDAC4 Reduction: A Novel Therapeutic Strategy to Target Cytoplasmic Huntingtin and Ameliorate Neurodegeneration

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