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Literature DB >> 30895940

A recurrent COL6A1 pseudoexon insertion causes muscular dystrophy and is effectively targeted by splice-correction therapies.

Véronique Bolduc¹, A Reghan Foley¹, Herimela Solomon-Degefa², Apurva Sarathy¹, Sandra Donkervoort¹, Ying Hu¹, Grace S Chen¹, Katherine Sizov¹, Matthew Nalls¹, Haiyan Zhou^3,4, Sara Aguti³, Beryl B Cummings^5,6, Monkol Lek⁵, Taru Tukiainen^5,6, Jamie L Marshall⁶, Oded Regev⁷, Dina Marek-Yagel⁸, Anna Sarkozy³, Russell J Butterfield⁹, Cristina Jou^10,11,12, Cecilia Jimenez-Mallebrera^11,12, Yan Li¹³, Corine Gartioux¹⁴, Kamel Mamchaoui¹⁴, Valérie Allamand¹⁴, Francesca Gualandi¹⁵, Alessandra Ferlini^3,15, Eric Hanssen¹⁶, Steve D Wilton^17,18, Shireen R Lamandé^19,20, Daniel G MacArthur^5,6, Raimund Wagener², Francesco Muntoni^3,21, Carsten G Bönnemann¹.

Abstract

The clinical application of advanced next-generation sequencing technologies is increasingly uncovering novel classes of mutations that may serve as potential targets for precision medicine therapeutics. Here, we show that a deep intronic splice defect in the COL6A1 gene, originally discovered by applying muscle RNA sequencing in patients with clinical findings of collagen VI-related dystrophy (COL6-RD), inserts an in-frame pseudoexon into COL6A1 mRNA, encodes a mutant collagen α1(VI) protein that exerts a dominant-negative effect on collagen VI matrix assembly, and provides a unique opportunity for splice-correction approaches aimed at restoring normal gene expression. Using splice-modulating antisense oligomers, we efficiently skipped the pseudoexon in patient-derived fibroblast cultures and restored a wild-type matrix. Similarly, we used CRISPR/Cas9 to precisely delete an intronic sequence containing the pseudoexon and efficiently abolish its inclusion while preserving wild-type splicing. Considering that this splice defect is emerging as one of the single most frequent mutations in COL6-RD, the design of specific and effective splice-correction therapies offers a promising path for clinical translation.

Entities: Disease Gene Species

Keywords: Collagens; Extracellular matrix; Muscle Biology; Neuromuscular disease; Therapeutics

Mesh：

Substances：

Year: 2019 PMID： 30895940 PMCID： PMC6483063 DOI： 10.1172/jci.insight.124403

Source DB: PubMed Journal: JCI Insight ISSN： 2379-3708

59 in total

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Authors: Laura Briñas; Pascale Richard; Susana Quijano-Roy; Corine Gartioux; Céline Ledeuil; Emmanuelle Lacène; Samira Makri; Ana Ferreiro; Svetlana Maugenre; Haluk Topaloglu; Göknur Haliloglu; Isabelle Pénisson-Besnier; Pierre-Yves Jeannet; Luciano Merlini; Carmen Navarro; Annick Toutain; Denys Chaigne; Isabelle Desguerre; Christine de Die-Smulders; Murielle Dunand; Bernard Echenne; Bruno Eymard; Thierry Kuntzer; Kim Maincent; Michèle Mayer; Ghislaine Plessis; François Rivier; Filip Roelens; Tanya Stojkovic; Ana Lía Taratuto; Fabiana Lubieniecki; Soledad Monges; Christine Tranchant; Louis Viollet; Norma B Romero; Brigitte Estournet; Pascale Guicheney; Valérie Allamand
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2. Muscle interstitial fibroblasts are the main source of collagen VI synthesis in skeletal muscle: implications for congenital muscular dystrophy types Ullrich and Bethlem.

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Journal: J Neuropathol Exp Neurol Date: 2008-02 Impact factor: 3.685

3. Antisense modulation of both exonic and intronic splicing motifs induces skipping of a DMD pseudo-exon responsible for x-linked dilated cardiomyopathy.

Authors: Paola Rimessi; Marina Fabris; Matteo Bovolenta; Elena Bassi; Sofia Falzarano; Francesca Gualandi; Claudio Rapezzi; Fabio Coccolo; Daniela Perrone; Alessandro Medici; Alessandra Ferlini
Journal: Hum Gene Ther Date: 2010-09 Impact factor: 5.695

4. CRISPR/Cas9-Mediated Genome Editing as a Therapeutic Approach for Leber Congenital Amaurosis 10.

Authors: Guo-Xiang Ruan; Elizabeth Barry; Dan Yu; Michael Lukason; Seng H Cheng; Abraham Scaria
Journal: Mol Ther Date: 2017-01-18 Impact factor: 11.454

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Authors: J Engel; H Furthmayr; E Odermatt; H von der Mark; M Aumailley; R Fleischmajer; R Timpl
Journal: Ann N Y Acad Sci Date: 1985 Impact factor: 5.691

6. ColVI myopathies: where do we stand, where do we go?

Authors: Valérie Allamand; Laura Briñas; Pascale Richard; Tanya Stojkovic; Susana Quijano-Roy; Gisèle Bonne
Journal: Skelet Muscle Date: 2011-09-23 Impact factor: 4.912

7. FDA Approves Eteplirsen for Duchenne Muscular Dystrophy: The Next Chapter in the Eteplirsen Saga.

Authors: Annemieke Aartsma-Rus; Arthur M Krieg
Journal: Nucleic Acid Ther Date: 2016-12-08 Impact factor: 5.486

8. A novel dysferlin mutant pseudoexon bypassed with antisense oligonucleotides.

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9. Versatile single-step-assembly CRISPR/Cas9 vectors for dual gRNA expression.

Authors: Fatwa Adikusuma; Chandran Pfitzner; Paul Quinton Thomas
Journal: PLoS One Date: 2017-12-06 Impact factor: 3.240

10. Defining the hierarchical organisation of collagen VI microfibrils at nanometre to micrometre length scales.

Authors: Alan R F Godwin; Tobias Starborg; Michael J Sherratt; Alan M Roseman; Clair Baldock
Journal: Acta Biomater Date: 2016-12-10 Impact factor: 8.947

14 in total

1. A deep intronic splice mutation of STAT3 underlies hyper IgE syndrome by negative dominance.

Authors: Joëlle Khourieh; Geetha Rao; Tanwir Habib; Danielle T Avery; Alain Lefèvre-Utile; Marie-Olivia Chandesris; Aziz Belkadi; Maya Chrabieh; Hanan Alwaseem; Virginie Grandin; Françoise Sarrot-Reynauld; Agathe Sénéchal; Olivier Lortholary; Xiao-Fei Kong; Stéphanie Boisson-Dupuis; Capucine Picard; Anne Puel; Vivien Béziat; Qian Zhang; Laurent Abel; Henrik Molina; Nico Marr; Stuart G Tangye; Jean-Laurent Casanova; Bertrand Boisson
Journal: Proc Natl Acad Sci U S A Date: 2019-07-25 Impact factor: 11.205

2. A Deep Intronic Variant Activates a Pseudoexon in the MTM1 Gene in a Family with X-Linked Myotubular Myopathy.

Authors: Jamie Fitzgerald; Cori Feist; Paula Dietz; Stephen Moore; Donald Basel
Journal: Mol Syndromol Date: 2020-09-16

3. Identification of a Novel Deep Intronic Mutation in CAPN3 Presenting a Promising Target for Therapeutic Splice Modulation.

Authors: Ying Hu; Payam Mohassel; Sandra Donkervoort; Pomi Yun; Véronique Bolduc; Daniel Ezzo; Jahannaz Dastgir; Jamie L Marshall; Monkol Lek; Daniel G MacArthur; A Reghan Foley; Carsten G Bönnemann
Journal: J Neuromuscul Dis Date: 2019

Review 4. CRISPR for Neuromuscular Disorders: Gene Editing and Beyond.

Authors: Courtney S Young; April D Pyle; Melissa J Spencer
Journal: Physiology (Bethesda) Date: 2019-09-01

5. Association of Initial Maximal Motor Ability With Long-term Functional Outcome in Patients With COL6-Related Dystrophies.

Authors: Daniel Natera-de Benito; A Reghan Foley; Cristina Domínguez-González; Carlos Ortez; Minal Jain; Aron Mebrahtu; Sandra Donkervoort; Ying Hu; Margaret Fink; Pomi Yun; Tracy Ogata; Julita Medina; Meritxell Vigo; Katherine G Meilleur; Meganne E Leach; Jahannaz Dastgir; Jordi Díaz-Manera; Laura Carrera-García; Jessica Expósito-Escudero; Macarena Alarcon; Daniel Cuadras; Elena Montiel-Morillo; José C Milisenda; Raul Dominguez-Rubio; Montse Olivé; Jaume Colomer; Cristina Jou; Cecilia Jimenez-Mallebrera; Carsten G Bönnemann; Andres Nascimento
Journal: Neurology Date: 2021-01-13 Impact factor: 9.910

6. Exon-Skipping Oligonucleotides Restore Functional Collagen VI by Correcting a Common COL6A1 Mutation in Ullrich CMD.

Authors: Sara Aguti; Véronique Bolduc; Pierpaolo Ala; Mark Turmaine; Carsten G Bönnemann; Francesco Muntoni; Haiyan Zhou
Journal: Mol Ther Nucleic Acids Date: 2020-06-01 Impact factor: 8.886

7. COL6A6 interacted with P4HA3 to suppress the growth and metastasis of pituitary adenoma via blocking PI3K-Akt pathway.

Authors: Ruiqing Long; Zhuohui Liu; Jinghui Li; Hualin Yu
Journal: Aging (Albany NY) Date: 2019-10-17 Impact factor: 5.682