FRAXE-associated mental retardation protein (FMR2) is an RNA-binding protein with high affinity for G-quartet RNA forming structure

FRAXE is a form of mild to moderate mental retardation due to the silencing of the FMR2 gene. The cellular function of FMR2 protein is presently unknown. By analogy with its homologue AF4, FMR2 was supposed to have a role in transcriptional regulation, but robust evidences supporting this hypothesis...

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Autores principales: Bensaid, Mounia, Melko, Mireille, Bechara, Elias G., Davidovic, Laetitia, Berretta, Antonio, Catania, Maria Vincenza, Gecz, Jozef, Lalli, Enzo, Bardoni, Barbara
Formato: Texto
Lenguaje:English
Publicado: Oxford University Press 2009
Materias:
RNA
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2651778/
https://www.ncbi.nlm.nih.gov/pubmed/19136466
http://dx.doi.org/10.1093/nar/gkn1058
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author Bensaid, Mounia
Melko, Mireille
Bechara, Elias G.
Davidovic, Laetitia
Berretta, Antonio
Catania, Maria Vincenza
Gecz, Jozef
Lalli, Enzo
Bardoni, Barbara
author_facet Bensaid, Mounia
Melko, Mireille
Bechara, Elias G.
Davidovic, Laetitia
Berretta, Antonio
Catania, Maria Vincenza
Gecz, Jozef
Lalli, Enzo
Bardoni, Barbara
author_sort Bensaid, Mounia
collection PubMed
description FRAXE is a form of mild to moderate mental retardation due to the silencing of the FMR2 gene. The cellular function of FMR2 protein is presently unknown. By analogy with its homologue AF4, FMR2 was supposed to have a role in transcriptional regulation, but robust evidences supporting this hypothesis are lacking. We observed that FMR2 co-localizes with the splicing factor SC35 in nuclear speckles, the nuclear regions where splicing factors are concentrated, assembled and modified. Similarly to what was reported for splicing factors, blocking splicing or transcription leads to the accumulation of FMR2 in enlarged, rounded speckles. FMR2 is also localized in the nucleolus when splicing is blocked. We show here that FMR2 is able to specifically bind the G-quartet-forming RNA structure with high affinity. Remarkably, in vivo, in the presence of FMR2, the ESE action of the G-quartet situated in mRNA of an alternatively spliced exon of a minigene or of the putative target FMR1 appears reduced. Interestingly, FMR1 is silenced in the fragile X syndrome, another form of mental retardation. All together, our findings strongly suggest that FMR2 is an RNA-binding protein, which might be involved in alternative splicing regulation through an interaction with G-quartet RNA structure.
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spelling pubmed-26517782009-03-13 FRAXE-associated mental retardation protein (FMR2) is an RNA-binding protein with high affinity for G-quartet RNA forming structure Bensaid, Mounia Melko, Mireille Bechara, Elias G. Davidovic, Laetitia Berretta, Antonio Catania, Maria Vincenza Gecz, Jozef Lalli, Enzo Bardoni, Barbara Nucleic Acids Res RNA FRAXE is a form of mild to moderate mental retardation due to the silencing of the FMR2 gene. The cellular function of FMR2 protein is presently unknown. By analogy with its homologue AF4, FMR2 was supposed to have a role in transcriptional regulation, but robust evidences supporting this hypothesis are lacking. We observed that FMR2 co-localizes with the splicing factor SC35 in nuclear speckles, the nuclear regions where splicing factors are concentrated, assembled and modified. Similarly to what was reported for splicing factors, blocking splicing or transcription leads to the accumulation of FMR2 in enlarged, rounded speckles. FMR2 is also localized in the nucleolus when splicing is blocked. We show here that FMR2 is able to specifically bind the G-quartet-forming RNA structure with high affinity. Remarkably, in vivo, in the presence of FMR2, the ESE action of the G-quartet situated in mRNA of an alternatively spliced exon of a minigene or of the putative target FMR1 appears reduced. Interestingly, FMR1 is silenced in the fragile X syndrome, another form of mental retardation. All together, our findings strongly suggest that FMR2 is an RNA-binding protein, which might be involved in alternative splicing regulation through an interaction with G-quartet RNA structure. Oxford University Press 2009-03 2009-01-09 /pmc/articles/PMC2651778/ /pubmed/19136466 http://dx.doi.org/10.1093/nar/gkn1058 Text en © 2009 The Author(s) http://creativecommons.org/licenses/by-nc/2.0/uk/ This is an Open Access article distributed under the terms of the Creative Commons Attribution Non-Commercial License (http://creativecommons.org/licenses/by-nc/2.0/uk/) which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited.
spellingShingle RNA
Bensaid, Mounia
Melko, Mireille
Bechara, Elias G.
Davidovic, Laetitia
Berretta, Antonio
Catania, Maria Vincenza
Gecz, Jozef
Lalli, Enzo
Bardoni, Barbara
FRAXE-associated mental retardation protein (FMR2) is an RNA-binding protein with high affinity for G-quartet RNA forming structure
title FRAXE-associated mental retardation protein (FMR2) is an RNA-binding protein with high affinity for G-quartet RNA forming structure
title_full FRAXE-associated mental retardation protein (FMR2) is an RNA-binding protein with high affinity for G-quartet RNA forming structure
title_fullStr FRAXE-associated mental retardation protein (FMR2) is an RNA-binding protein with high affinity for G-quartet RNA forming structure
title_full_unstemmed FRAXE-associated mental retardation protein (FMR2) is an RNA-binding protein with high affinity for G-quartet RNA forming structure
title_short FRAXE-associated mental retardation protein (FMR2) is an RNA-binding protein with high affinity for G-quartet RNA forming structure
title_sort fraxe-associated mental retardation protein (fmr2) is an rna-binding protein with high affinity for g-quartet rna forming structure
topic RNA
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2651778/
https://www.ncbi.nlm.nih.gov/pubmed/19136466
http://dx.doi.org/10.1093/nar/gkn1058
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