Double-target Antisense U1snRNAs Correct Mis-splicing Due to c.639+861C>T and c.639+919G>A GLA Deep Intronic Mutations

Double-target Antisense U1snRNAs Correct Mis-splicing Due to c.639+861C>T and c.639+919G>A GLA Deep Intronic Mutations

Fabry disease is a rare X-linked lysosomal storage disorder caused by deficiency of the α-galactosidase A (α-Gal A) enzyme, which is encoded by the GLA gene. GLA transcription in humans produces a major mRNA encoding α-Gal A and a minor mRNA of unknown function, which retains a 57-nucleotide-long cr...

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Main Authors: Lorenzo Ferri, Giuseppina Covello, Anna Caciotti, Renzo Guerrini, Michela Alessandra Denti, Amelia Morrone
Format: Article
Language:English
Published: Elsevier 2016-01-01
Series:Molecular Therapy: Nucleic Acids
Subjects:
antisense therapy
exon skipping
Fabry disease
minigene
U1
Online Access:http://www.sciencedirect.com/science/article/pii/S2162253117301075
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spelling doaj-45bdc5adde79431fa9379af7cd18a1cd2020-11-24T23:24:10ZengElsevierMolecular Therapy: Nucleic Acids2162-25312016-01-015C10.1038/mtna.2016.88Double-target Antisense U1snRNAs Correct Mis-splicing Due to c.639+861C>T and c.639+919G>A GLA Deep Intronic MutationsLorenzo Ferri0Giuseppina Covello1Anna Caciotti2Renzo Guerrini3Michela Alessandra Denti4Amelia Morrone5Neuroscience, Psychology, Pharmacology and Child Health Department, University of Florence, Florence, ItalyRNA Biology and Biotechnology Laboratory, Centre for Integrative Biology, University of Trento, Trento, ItalyPaediatric Neurology Unit and Laboratories, Neuroscience Department, Meyer Children's Hospital, Florence, ItalyNeuroscience, Psychology, Pharmacology and Child Health Department, University of Florence, Florence, ItalyRNA Biology and Biotechnology Laboratory, Centre for Integrative Biology, University of Trento, Trento, ItalyNeuroscience, Psychology, Pharmacology and Child Health Department, University of Florence, Florence, ItalyFabry disease is a rare X-linked lysosomal storage disorder caused by deficiency of the α-galactosidase A (α-Gal A) enzyme, which is encoded by the GLA gene. GLA transcription in humans produces a major mRNA encoding α-Gal A and a minor mRNA of unknown function, which retains a 57-nucleotide-long cryptic exon between exons 4 and 5, bearing a premature termination codon. NM_000169.2:c.639+861C>T and NM_000169.2:c.639+919G>A GLA deep intronic mutations have been described to cause Fabry disease by inducing overexpression of the alternatively spliced mRNA, along with a dramatic decrease in the major one. Here, we built a wild-type GLA minigene and two minigenes that carry mutations c.639+861C>T and c.639+919G>A. Once transfected into cells, the minigenes recapitulate the molecular patterns observed in patients, at the mRNA, protein, and enzymatic level. We constructed a set of specific double-target U1asRNAs to correct c.639+861C>T and c.639+919G>A GLA mutations. Efficacy of U1asRNAs in inducing the skipping of the cryptic exon was evaluated upon their transient co-transfection with the minigenes in COS-1 cells, by real-time polymerase chain reaction (PCR), western blot analysis, and α-Gal A enzyme assay. We identified a set of U1asRNAs that efficiently restored α-Gal A enzyme activity and the correct splicing pathways in reporter minigenes. We also identified a unique U1asRNA correcting both mutations as efficently as the mutation-specific U1asRNAs. Our study proves that an exon skipping-based approach recovering α-Gal A activity in the c.639+861C>T and c.639+919G>A GLA mutations is active.http://www.sciencedirect.com/science/article/pii/S2162253117301075antisense therapyexon skippingFabry diseaseminigeneU1
collection DOAJ
language English
format Article
sources DOAJ
author Lorenzo Ferri
Giuseppina Covello
Anna Caciotti
Renzo Guerrini
Michela Alessandra Denti
Amelia Morrone
spellingShingle Lorenzo Ferri
Giuseppina Covello
Anna Caciotti
Renzo Guerrini
Michela Alessandra Denti
Amelia Morrone
Double-target Antisense U1snRNAs Correct Mis-splicing Due to c.639+861C>T and c.639+919G>A GLA Deep Intronic Mutations
Molecular Therapy: Nucleic Acids
antisense therapy
exon skipping
Fabry disease
minigene
U1
author_facet Lorenzo Ferri
Giuseppina Covello
Anna Caciotti
Renzo Guerrini
Michela Alessandra Denti
Amelia Morrone
author_sort Lorenzo Ferri
title Double-target Antisense U1snRNAs Correct Mis-splicing Due to c.639+861C>T and c.639+919G>A GLA Deep Intronic Mutations
title_short Double-target Antisense U1snRNAs Correct Mis-splicing Due to c.639+861C>T and c.639+919G>A GLA Deep Intronic Mutations
title_full Double-target Antisense U1snRNAs Correct Mis-splicing Due to c.639+861C>T and c.639+919G>A GLA Deep Intronic Mutations
title_fullStr Double-target Antisense U1snRNAs Correct Mis-splicing Due to c.639+861C>T and c.639+919G>A GLA Deep Intronic Mutations
title_full_unstemmed Double-target Antisense U1snRNAs Correct Mis-splicing Due to c.639+861C>T and c.639+919G>A GLA Deep Intronic Mutations
title_sort double-target antisense u1snrnas correct mis-splicing due to c.639+861c>t and c.639+919g>a gla deep intronic mutations
publisher Elsevier
series Molecular Therapy: Nucleic Acids
issn 2162-2531
publishDate 2016-01-01
description Fabry disease is a rare X-linked lysosomal storage disorder caused by deficiency of the α-galactosidase A (α-Gal A) enzyme, which is encoded by the GLA gene. GLA transcription in humans produces a major mRNA encoding α-Gal A and a minor mRNA of unknown function, which retains a 57-nucleotide-long cryptic exon between exons 4 and 5, bearing a premature termination codon. NM_000169.2:c.639+861C>T and NM_000169.2:c.639+919G>A GLA deep intronic mutations have been described to cause Fabry disease by inducing overexpression of the alternatively spliced mRNA, along with a dramatic decrease in the major one. Here, we built a wild-type GLA minigene and two minigenes that carry mutations c.639+861C>T and c.639+919G>A. Once transfected into cells, the minigenes recapitulate the molecular patterns observed in patients, at the mRNA, protein, and enzymatic level. We constructed a set of specific double-target U1asRNAs to correct c.639+861C>T and c.639+919G>A GLA mutations. Efficacy of U1asRNAs in inducing the skipping of the cryptic exon was evaluated upon their transient co-transfection with the minigenes in COS-1 cells, by real-time polymerase chain reaction (PCR), western blot analysis, and α-Gal A enzyme assay. We identified a set of U1asRNAs that efficiently restored α-Gal A enzyme activity and the correct splicing pathways in reporter minigenes. We also identified a unique U1asRNA correcting both mutations as efficently as the mutation-specific U1asRNAs. Our study proves that an exon skipping-based approach recovering α-Gal A activity in the c.639+861C>T and c.639+919G>A GLA mutations is active.
topic antisense therapy
exon skipping
Fabry disease
minigene
U1
url http://www.sciencedirect.com/science/article/pii/S2162253117301075
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