Targeted genome editing in vivo corrects a Dmd duplication restoring wild‐type dystrophin expression

Eleonora Maino; Daria Wojtal; Sonia L Evagelou; Aiman Farheen; Tatianna W Y Wong; Kyle Lindsay; Ori Scott; Samar Z Rizvi; Elzbieta Hyatt; Matthew Rok; Shagana Visuvanathan; Amanda Chiodo; Michelle Schneeweiss; Evgueni A Ivakine; Ronald D Cohn

doi:10.15252/emmm.202013228

EMBO Molecular Medicine (Mar 2021)

Targeted genome editing in vivo corrects a Dmd duplication restoring wild‐type dystrophin expression

Eleonora Maino,
Daria Wojtal,
Sonia L Evagelou,
Aiman Farheen,
Tatianna W Y Wong,
Kyle Lindsay,
Ori Scott,
Samar Z Rizvi,
Elzbieta Hyatt,
Matthew Rok,
Shagana Visuvanathan,
Amanda Chiodo,
Michelle Schneeweiss,
Evgueni A Ivakine,
Ronald D Cohn

Affiliations

Eleonora Maino: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Daria Wojtal: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Sonia L Evagelou: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Aiman Farheen: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Tatianna W Y Wong: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Kyle Lindsay: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Ori Scott: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Samar Z Rizvi: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Elzbieta Hyatt: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Matthew Rok: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Shagana Visuvanathan: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Amanda Chiodo: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Michelle Schneeweiss: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Evgueni A Ivakine: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute
Ronald D Cohn: Program in Genetics and Genome Biology, the Hospital for Sick Children Research Institute

DOI: https://doi.org/10.15252/emmm.202013228
Journal volume & issue: Vol. 13, no. 5
pp. 1 – 15

Abstract

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Abstract Tandem duplication mutations are increasingly found to be the direct cause of many rare heritable diseases, accounting for up to 10% of cases. Unfortunately, animal models recapitulating such mutations are scarce, limiting our ability to study them and develop genome editing therapies. Here, we describe the generation of a novel duplication mouse model, harboring a multi‐exonic tandem duplication in the Dmd gene which recapitulates a human mutation. Duplication correction of this mouse was achieved by implementing a single‐guide RNA (sgRNA) CRISPR/Cas9 approach. This strategy precisely removed a duplication mutation in vivo, restored full‐length dystrophin expression, and was accompanied by improvements in both histopathological and clinical phenotypes. We conclude that CRISPR/Cas9 represents a powerful tool to accurately model and treat tandem duplication mutations. Our findings will open new avenues of research for exploring the study and therapeutics of duplication disorders.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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