Tissue-specific splicing regulator Fox-1 induces exon skipping by interfering E complex formation on the downstream intron of human F1γ gene

Fox-1 is a regulator of tissue-specific splicing, via binding to the element (U)GCAUG in mRNA precursors, in muscles and neuronal cells. Fox-1 can regulate splicing positively or negatively, most likely depending on where it binds relative to the regulated exon. In cases where the (U)GCAUG element l...

Descripción completa

Detalles Bibliográficos
Autores principales: Fukumura, Kazuhiro, Kato, Ayako, Jin, Yui, Ideue, Takashi, Hirose, Tetsuro, Kataoka, Naoyuki, Fujiwara, Toshinobu, Sakamoto, Hiroshi, Inoue, Kunio
Formato: Texto
Lenguaje:English
Publicado: Oxford University Press 2007
Materias:
RNA
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2018636/
https://www.ncbi.nlm.nih.gov/pubmed/17686786
http://dx.doi.org/10.1093/nar/gkm569
_version_ 1782136576939130880
author Fukumura, Kazuhiro
Kato, Ayako
Jin, Yui
Ideue, Takashi
Hirose, Tetsuro
Kataoka, Naoyuki
Fujiwara, Toshinobu
Sakamoto, Hiroshi
Inoue, Kunio
author_facet Fukumura, Kazuhiro
Kato, Ayako
Jin, Yui
Ideue, Takashi
Hirose, Tetsuro
Kataoka, Naoyuki
Fujiwara, Toshinobu
Sakamoto, Hiroshi
Inoue, Kunio
author_sort Fukumura, Kazuhiro
collection PubMed
description Fox-1 is a regulator of tissue-specific splicing, via binding to the element (U)GCAUG in mRNA precursors, in muscles and neuronal cells. Fox-1 can regulate splicing positively or negatively, most likely depending on where it binds relative to the regulated exon. In cases where the (U)GCAUG element lies in an intron upstream of the alternative exon, Fox-1 protein functions as a splicing repressor to induce exon skipping. Here we report the mechanism of exon skipping regulated by Fox-1, using the hF1γ gene as a model system. We found that Fox-1 induces exon 9 skipping by repressing splicing of the downstream intron 9 via binding to the GCAUG repressor elements located in the upstream intron 8. In vitro splicing analyses showed that Fox-1 prevents formation of the pre-spliceosomal early (E) complex on intron 9. In addition, we located a region of the Fox-1 protein that is required for inducing exon skipping. Taken together, our data show a novel mechanism of how RNA-binding proteins regulate alternative splicing.
format Text
id pubmed-2018636
institution National Center for Biotechnology Information
language English
publishDate 2007
publisher Oxford University Press
record_format MEDLINE/PubMed
spelling pubmed-20186362007-10-23 Tissue-specific splicing regulator Fox-1 induces exon skipping by interfering E complex formation on the downstream intron of human F1γ gene Fukumura, Kazuhiro Kato, Ayako Jin, Yui Ideue, Takashi Hirose, Tetsuro Kataoka, Naoyuki Fujiwara, Toshinobu Sakamoto, Hiroshi Inoue, Kunio Nucleic Acids Res RNA Fox-1 is a regulator of tissue-specific splicing, via binding to the element (U)GCAUG in mRNA precursors, in muscles and neuronal cells. Fox-1 can regulate splicing positively or negatively, most likely depending on where it binds relative to the regulated exon. In cases where the (U)GCAUG element lies in an intron upstream of the alternative exon, Fox-1 protein functions as a splicing repressor to induce exon skipping. Here we report the mechanism of exon skipping regulated by Fox-1, using the hF1γ gene as a model system. We found that Fox-1 induces exon 9 skipping by repressing splicing of the downstream intron 9 via binding to the GCAUG repressor elements located in the upstream intron 8. In vitro splicing analyses showed that Fox-1 prevents formation of the pre-spliceosomal early (E) complex on intron 9. In addition, we located a region of the Fox-1 protein that is required for inducing exon skipping. Taken together, our data show a novel mechanism of how RNA-binding proteins regulate alternative splicing. Oxford University Press 2007-08 2007-08-07 /pmc/articles/PMC2018636/ /pubmed/17686786 http://dx.doi.org/10.1093/nar/gkm569 Text en © 2007 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
Fukumura, Kazuhiro
Kato, Ayako
Jin, Yui
Ideue, Takashi
Hirose, Tetsuro
Kataoka, Naoyuki
Fujiwara, Toshinobu
Sakamoto, Hiroshi
Inoue, Kunio
Tissue-specific splicing regulator Fox-1 induces exon skipping by interfering E complex formation on the downstream intron of human F1γ gene
title Tissue-specific splicing regulator Fox-1 induces exon skipping by interfering E complex formation on the downstream intron of human F1γ gene
title_full Tissue-specific splicing regulator Fox-1 induces exon skipping by interfering E complex formation on the downstream intron of human F1γ gene
title_fullStr Tissue-specific splicing regulator Fox-1 induces exon skipping by interfering E complex formation on the downstream intron of human F1γ gene
title_full_unstemmed Tissue-specific splicing regulator Fox-1 induces exon skipping by interfering E complex formation on the downstream intron of human F1γ gene
title_short Tissue-specific splicing regulator Fox-1 induces exon skipping by interfering E complex formation on the downstream intron of human F1γ gene
title_sort tissue-specific splicing regulator fox-1 induces exon skipping by interfering e complex formation on the downstream intron of human f1γ gene
topic RNA
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC2018636/
https://www.ncbi.nlm.nih.gov/pubmed/17686786
http://dx.doi.org/10.1093/nar/gkm569
work_keys_str_mv AT fukumurakazuhiro tissuespecificsplicingregulatorfox1inducesexonskippingbyinterferingecomplexformationonthedownstreamintronofhumanf1ggene
AT katoayako tissuespecificsplicingregulatorfox1inducesexonskippingbyinterferingecomplexformationonthedownstreamintronofhumanf1ggene
AT jinyui tissuespecificsplicingregulatorfox1inducesexonskippingbyinterferingecomplexformationonthedownstreamintronofhumanf1ggene
AT ideuetakashi tissuespecificsplicingregulatorfox1inducesexonskippingbyinterferingecomplexformationonthedownstreamintronofhumanf1ggene
AT hirosetetsuro tissuespecificsplicingregulatorfox1inducesexonskippingbyinterferingecomplexformationonthedownstreamintronofhumanf1ggene
AT kataokanaoyuki tissuespecificsplicingregulatorfox1inducesexonskippingbyinterferingecomplexformationonthedownstreamintronofhumanf1ggene
AT fujiwaratoshinobu tissuespecificsplicingregulatorfox1inducesexonskippingbyinterferingecomplexformationonthedownstreamintronofhumanf1ggene
AT sakamotohiroshi tissuespecificsplicingregulatorfox1inducesexonskippingbyinterferingecomplexformationonthedownstreamintronofhumanf1ggene
AT inouekunio tissuespecificsplicingregulatorfox1inducesexonskippingbyinterferingecomplexformationonthedownstreamintronofhumanf1ggene

Ejemplares similares