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Dystrophin myonuclear domain restoration governs treatment efficacy in dystrophic muscle.

Adrien MorinAmalia StantzouOlga N PetrovaJohn C W HildyardThomas TensorerMeriem MatoukMina V PetkovaIsabelle RichardTudor ManoliuAurelie T GoyenvalleSestina FalconeMarkus SchuelkeCorinne Laplace-BuilhéRichard J PiercyLuis GarciaHelge Amthor
Published in: Proceedings of the National Academy of Sciences of the United States of America (2023)
Dystrophin is essential for muscle health: its sarcolemmal absence causes the fatal, X-linked condition, Duchenne muscular dystrophy (DMD). However, its normal, spatial organization remains poorly understood, which hinders the interpretation of efficacy of its therapeutic restoration. Using female reporter mice heterozygous for fluorescently tagged dystrophin ( Dmd EGFP ), we here reveal that dystrophin distribution is unexpectedly compartmentalized, being restricted to myonuclear-defined sarcolemmal territories extending ~80 µm, which we called "basal sarcolemmal dystrophin units (BSDUs)." These territories were further specialized at myotendinous junctions, where both Dmd transcripts and dystrophin protein were enriched. Genome-level correction in X-linked muscular dystrophy mice via CRISPR/Cas9 gene editing restored a mosaic of separated dystrophin domains, whereas transcript-level Dmd correction, following treatment with tricyclo-DNA antisense oligonucleotides, restored dystrophin initially at junctions before extending along the entire fiber-with levels ~2% sufficient to moderate the dystrophic process. We conclude that widespread restoration of fiber dystrophin is likely critical for therapeutic success in DMD, perhaps most importantly, at muscle-tendon junctions.
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