The Bifunctional microRNA miR-9/miR-9* Regulates REST and CoREST and Is Downregulated in Huntington's Disease

Packer, Amy N.; Xing, Yi; Harper, Scott Q.; Jones, Lesley; Davidson, Beverly L.

doi:10.1523/jneurosci.2390-08.2008

articleJournal of NeuroscienceDec 31, 2008BRONZE OA

The Bifunctional microRNA miR-9/miR-9* Regulates REST and CoREST and Is Downregulated in Huntington's Disease

ANAmy N. PackerYXYi Xing SQScott Q. Harper LJLesley Jones BLBeverly L. Davidson

University of Iowa · The Ohio State University · +1 more institution

PubMed

Indexed incrossrefpubmed

Abstract

The transcription factor REST silences neuronal gene expression in non-neuronal cells. In neurons, the protein is sequestered in the cytoplasm in part through binding to huntingtin. Polyglutamine expansions in huntingtin, which causes Huntington's disease (HD), abrogates REST-huntingtin binding. Consequently, REST translocates to the nucleus, occupies RE1 repressor sequences and decreases neuronal gene expression. In this work, we found that levels of several microRNAs (miRNAs) with upstream RE1 sites are decreased in HD patient cortices relative to healthy controls. Interestingly, one of these, the bifunctional brain enriched miR-9/miR-9*, targets two components of the REST complex: miR-9 targets REST and…

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681

total citations

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Percentile: 100%
References: 30

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Authors

5

AN
Amy N. PackerCorresponding
University of Iowa
YX
Yi Xing
SQ
Scott Q. Harper
The Ohio State University
LJ
Lesley Jones
Cardiff University
BL
Beverly L. Davidson
University of Iowa

Topics & keywords

Topics

Keywords

Huntingtin
Gene silencing
microRNA
Biology
Repressor
Huntington's disease
Cell biology
Rest (music)

UN Sustainable Development Goals

Good health and well-being

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