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. 2022 Sep;29(9):520-535.
doi: 10.1038/s41434-022-00317-6. Epub 2022 Feb 1.

Evaluation of the dystrophin carboxy-terminal domain for micro-dystrophin gene therapy in cardiac and skeletal muscles in the DMDmdx rat model

Audrey Bourdon  1 Virginie François  1 Liwen Zhang  2 Aude Lafoux  3 Bodvael Fraysse  1 Gilles Toumaniantz  4 Thibaut Larcher  5 Tiphaine Girard  1 Mireille Ledevin  5 Cyrielle Lebreton  1 Agnès Hivonnait  4 Anna Creismeas  1 Marine Allais  1 Basile Marie  1 Justine Guguin  1 Véronique Blouin  1 Séverine Remy  6 Ignacio Anegon  6 Corinne Huchet  1   3 Alberto Malerba  7 Betty Kao  7 Anita Le Heron  7 Philippe Moullier  1   8 George Dickson  7 Linda Popplewell  7 Oumeya Adjali  1 Federica Montanaro  9 Caroline Le Guiner  10
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Free article

Evaluation of the dystrophin carboxy-terminal domain for micro-dystrophin gene therapy in cardiac and skeletal muscles in the DMDmdx rat model

Audrey Bourdon et al. Gene Ther. 2022 Sep.
Free article

Abstract

Duchenne muscular dystrophy (DMD) is a muscle wasting disorder caused by mutations in the gene encoding dystrophin. Gene therapy using micro-dystrophin (MD) transgenes and recombinant adeno-associated virus (rAAV) vectors hold great promise. To overcome the limited packaging capacity of rAAV vectors, most MD do not include dystrophin carboxy-terminal (CT) domain. Yet, the CT domain is known to recruit α1- and β1-syntrophins and α-dystrobrevin, a part of the dystrophin-associated protein complex (DAPC), which is a signaling and structural mediator of muscle cells. In this study, we explored the impact of inclusion of the dystrophin CT domain on ΔR4-23/ΔCT MD (MD1), in DMDmdx rats, which allows for relevant evaluations at muscular and cardiac levels. We showed by LC-MS/MS that MD1 expression is sufficient to restore the interactions at a physiological level of most DAPC partners in skeletal and cardiac muscles, and that inclusion of the CT domain increases the recruitment of some DAPC partners at supra-physiological levels. In parallel, we demonstrated that inclusion of the CT domain does not improve MD1 therapeutic efficacy on DMD muscle and cardiac pathologies. Our work highlights new evidences of the therapeutic potential of MD1 and strengthens the relevance of this candidate for gene therapy of DMD.

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