Small non-coding RNAs add complexity to the RNA pathogenic mechanisms in trinucleotide repeat expansion diseases

Small non-coding RNAs add complexity to the RNA pathogenic mechanisms in trinucleotide repeat expansion diseases

Trinucleotide-repeat expansion diseases (TREDs) are a group of inherited human genetic disorders normally involving late-onset neurological/neurodegenerative affectation. Trinucleotide-repeat expansions occur in coding and non-coding regions of unique genes that typically result in protein and RNA t...

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Main Authors: Eulalia eMarti, Xavier eEstivill
Format: Article
Language:English
Published: Frontiers Media S.A. 2013-12-01
Series:Frontiers in Molecular Neuroscience
Subjects:
Trinucleotide Repeat Expansion
miRNA
antisense small RNA
small non-coding RNAs
RNA-toxicity
Online Access:http://journal.frontiersin.org/Journal/10.3389/fnmol.2013.00045/full
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spelling doaj-b425f19d3da54f3081649290b32739b62020-11-24T23:12:24ZengFrontiers Media S.A.Frontiers in Molecular Neuroscience1662-50992013-12-01610.3389/fnmol.2013.0004565427Small non-coding RNAs add complexity to the RNA pathogenic mechanisms in trinucleotide repeat expansion diseasesEulalia eMarti0Eulalia eMarti1Xavier eEstivill2Xavier eEstivill3Centre for Genomic RegulationUniversitat Pompeu FabraCentre for Genomic RegulationUniversitat Pompeu FabraTrinucleotide-repeat expansion diseases (TREDs) are a group of inherited human genetic disorders normally involving late-onset neurological/neurodegenerative affectation. Trinucleotide-repeat expansions occur in coding and non-coding regions of unique genes that typically result in protein and RNA toxic gain of function, respectively. In polyglutamine (polyQ) disorders caused by an expanded CAG repeat in the coding region of specific genes, neuronal dysfunction has been traditionally linked to the long polyQ stretch. However, a number of evidences suggest a detrimental role of the expanded/mutant mRNA, which may contribute to cell function impairment. In this review we describe the mechanisms of RNA-induced toxicity in TREDs with special focus in small-non-coding RNA pathogenic mechanisms and we summarize and comment on translational approaches targeting the expanded trinucleotide-repeat for disease modifying therapies.http://journal.frontiersin.org/Journal/10.3389/fnmol.2013.00045/fullTrinucleotide Repeat ExpansionmiRNAantisense small RNAsmall non-coding RNAsRNA-toxicity
collection DOAJ
language English
format Article
sources DOAJ
author Eulalia eMarti
Eulalia eMarti
Xavier eEstivill
Xavier eEstivill
spellingShingle Eulalia eMarti
Eulalia eMarti
Xavier eEstivill
Xavier eEstivill
Small non-coding RNAs add complexity to the RNA pathogenic mechanisms in trinucleotide repeat expansion diseases
Frontiers in Molecular Neuroscience
Trinucleotide Repeat Expansion
miRNA
antisense small RNA
small non-coding RNAs
RNA-toxicity
author_facet Eulalia eMarti
Eulalia eMarti
Xavier eEstivill
Xavier eEstivill
author_sort Eulalia eMarti
title Small non-coding RNAs add complexity to the RNA pathogenic mechanisms in trinucleotide repeat expansion diseases
title_short Small non-coding RNAs add complexity to the RNA pathogenic mechanisms in trinucleotide repeat expansion diseases
title_full Small non-coding RNAs add complexity to the RNA pathogenic mechanisms in trinucleotide repeat expansion diseases
title_fullStr Small non-coding RNAs add complexity to the RNA pathogenic mechanisms in trinucleotide repeat expansion diseases
title_full_unstemmed Small non-coding RNAs add complexity to the RNA pathogenic mechanisms in trinucleotide repeat expansion diseases
title_sort small non-coding rnas add complexity to the rna pathogenic mechanisms in trinucleotide repeat expansion diseases
publisher Frontiers Media S.A.
series Frontiers in Molecular Neuroscience
issn 1662-5099
publishDate 2013-12-01
description Trinucleotide-repeat expansion diseases (TREDs) are a group of inherited human genetic disorders normally involving late-onset neurological/neurodegenerative affectation. Trinucleotide-repeat expansions occur in coding and non-coding regions of unique genes that typically result in protein and RNA toxic gain of function, respectively. In polyglutamine (polyQ) disorders caused by an expanded CAG repeat in the coding region of specific genes, neuronal dysfunction has been traditionally linked to the long polyQ stretch. However, a number of evidences suggest a detrimental role of the expanded/mutant mRNA, which may contribute to cell function impairment. In this review we describe the mechanisms of RNA-induced toxicity in TREDs with special focus in small-non-coding RNA pathogenic mechanisms and we summarize and comment on translational approaches targeting the expanded trinucleotide-repeat for disease modifying therapies.
topic Trinucleotide Repeat Expansion
miRNA
antisense small RNA
small non-coding RNAs
RNA-toxicity
url http://journal.frontiersin.org/Journal/10.3389/fnmol.2013.00045/full
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AT eulaliaemarti smallnoncodingrnasaddcomplexitytothernapathogenicmechanismsintrinucleotiderepeatexpansiondiseases
AT xaviereestivill smallnoncodingrnasaddcomplexitytothernapathogenicmechanismsintrinucleotiderepeatexpansiondiseases
AT xaviereestivill smallnoncodingrnasaddcomplexitytothernapathogenicmechanismsintrinucleotiderepeatexpansiondiseases
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