The DMD locus harbours multiple long non-coding RNAs which orchestrate and control transcription of muscle dystrophin mRNA isoforms.

The DMD locus harbours multiple long non-coding RNAs which orchestrate and control transcription of muscle dystrophin mRNA isoforms.

The 2.2 Mb long dystrophin (DMD) gene, the largest gene in the human genome, corresponds to roughly 0.1% of the entire human DNA sequence. Mutations in this gene cause Duchenne muscular dystrophy and other milder X-linked, recessive dystrophinopathies. Using a custom-made tiling array, specifically...

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Main Authors: Matteo Bovolenta, Daniela Erriquez, Emanuele Valli, Simona Brioschi, Chiara Scotton, Marcella Neri, Maria Sofia Falzarano, Samuele Gherardi, Marina Fabris, Paola Rimessi, Francesca Gualandi, Giovanni Perini, Alessandra Ferlini
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2012-01-01
Series:PLoS ONE
Online Access:http://europepmc.org/articles/PMC3448672?pdf=render
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spelling doaj-9cf116aa6d174028b9a3d4f2ba59d0402020-11-25T01:22:07ZengPublic Library of Science (PLoS)PLoS ONE1932-62032012-01-0179e4532810.1371/journal.pone.0045328The DMD locus harbours multiple long non-coding RNAs which orchestrate and control transcription of muscle dystrophin mRNA isoforms.Matteo BovolentaDaniela ErriquezEmanuele ValliSimona BrioschiChiara ScottonMarcella NeriMaria Sofia FalzaranoSamuele GherardiMarina FabrisPaola RimessiFrancesca GualandiGiovanni PeriniAlessandra FerliniThe 2.2 Mb long dystrophin (DMD) gene, the largest gene in the human genome, corresponds to roughly 0.1% of the entire human DNA sequence. Mutations in this gene cause Duchenne muscular dystrophy and other milder X-linked, recessive dystrophinopathies. Using a custom-made tiling array, specifically designed for the DMD locus, we identified a variety of novel long non-coding RNAs (lncRNAs), both sense and antisense oriented, whose expression profiles mirror that of DMD gene. Importantly, these transcripts are intronic in origin and specifically localized to the nucleus and are transcribed contextually with dystrophin isoforms or primed by MyoD-induced myogenic differentiation. Furthermore, their forced ectopic expression in both human muscle and neuronal cells causes a specific and negative regulation of endogenous dystrophin full length isoforms and significantly down-regulate the activity of a luciferase reporter construct carrying the minimal promoter regions of the muscle dystrophin isoform. Consistent with this apparently repressive role, we found that, in muscle samples of dystrophinopathic female carriers, lncRNAs expression levels inversely correlate with those of muscle full length DMD isoforms. Overall these findings unveil an unprecedented complexity of the transcriptional pattern of the DMD locus and reveal that DMD lncRNAs may contribute to the orchestration and homeostasis of the muscle dystrophin expression pattern by either selective targeting and down-modulating the dystrophin promoter transcriptional activity.http://europepmc.org/articles/PMC3448672?pdf=render
collection DOAJ
language English
format Article
sources DOAJ
author Matteo Bovolenta
Daniela Erriquez
Emanuele Valli
Simona Brioschi
Chiara Scotton
Marcella Neri
Maria Sofia Falzarano
Samuele Gherardi
Marina Fabris
Paola Rimessi
Francesca Gualandi
Giovanni Perini
Alessandra Ferlini
spellingShingle Matteo Bovolenta
Daniela Erriquez
Emanuele Valli
Simona Brioschi
Chiara Scotton
Marcella Neri
Maria Sofia Falzarano
Samuele Gherardi
Marina Fabris
Paola Rimessi
Francesca Gualandi
Giovanni Perini
Alessandra Ferlini
The DMD locus harbours multiple long non-coding RNAs which orchestrate and control transcription of muscle dystrophin mRNA isoforms.
PLoS ONE
author_facet Matteo Bovolenta
Daniela Erriquez
Emanuele Valli
Simona Brioschi
Chiara Scotton
Marcella Neri
Maria Sofia Falzarano
Samuele Gherardi
Marina Fabris
Paola Rimessi
Francesca Gualandi
Giovanni Perini
Alessandra Ferlini
author_sort Matteo Bovolenta
title The DMD locus harbours multiple long non-coding RNAs which orchestrate and control transcription of muscle dystrophin mRNA isoforms.
title_short The DMD locus harbours multiple long non-coding RNAs which orchestrate and control transcription of muscle dystrophin mRNA isoforms.
title_full The DMD locus harbours multiple long non-coding RNAs which orchestrate and control transcription of muscle dystrophin mRNA isoforms.
title_fullStr The DMD locus harbours multiple long non-coding RNAs which orchestrate and control transcription of muscle dystrophin mRNA isoforms.
title_full_unstemmed The DMD locus harbours multiple long non-coding RNAs which orchestrate and control transcription of muscle dystrophin mRNA isoforms.
title_sort dmd locus harbours multiple long non-coding rnas which orchestrate and control transcription of muscle dystrophin mrna isoforms.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2012-01-01
description The 2.2 Mb long dystrophin (DMD) gene, the largest gene in the human genome, corresponds to roughly 0.1% of the entire human DNA sequence. Mutations in this gene cause Duchenne muscular dystrophy and other milder X-linked, recessive dystrophinopathies. Using a custom-made tiling array, specifically designed for the DMD locus, we identified a variety of novel long non-coding RNAs (lncRNAs), both sense and antisense oriented, whose expression profiles mirror that of DMD gene. Importantly, these transcripts are intronic in origin and specifically localized to the nucleus and are transcribed contextually with dystrophin isoforms or primed by MyoD-induced myogenic differentiation. Furthermore, their forced ectopic expression in both human muscle and neuronal cells causes a specific and negative regulation of endogenous dystrophin full length isoforms and significantly down-regulate the activity of a luciferase reporter construct carrying the minimal promoter regions of the muscle dystrophin isoform. Consistent with this apparently repressive role, we found that, in muscle samples of dystrophinopathic female carriers, lncRNAs expression levels inversely correlate with those of muscle full length DMD isoforms. Overall these findings unveil an unprecedented complexity of the transcriptional pattern of the DMD locus and reveal that DMD lncRNAs may contribute to the orchestration and homeostasis of the muscle dystrophin expression pattern by either selective targeting and down-modulating the dystrophin promoter transcriptional activity.
url http://europepmc.org/articles/PMC3448672?pdf=render
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