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CRISPR-Cas9 correction in the DMD mouse model is accompanied by upregulation of Dp71f protein.

Molecular therapy. Methods & clinical development (2023-07-17)
Tatiana V Egorova, Anna V Polikarpova, Svetlana G Vassilieva, Marina A Dzhenkova, Irina M Savchenko, Oleg A Velyaev, Anna A Shmidt, Vladislav O Soldatov, Mikhail V Pokrovskii, Alexey V Deykin, Maryana V Bardina
RESUMEN

Duchenne muscular dystrophy (DMD) is a severe hereditary disease caused by a deficiency in the dystrophin protein. The most frequent types of disease-causing mutations in the DMD gene are frameshift deletions of one or more exons. Precision genome editing systems such as CRISPR-Cas9 have shown potential to restore open reading frames in numerous animal studies. Here, we applied an AAV-CRISPR double-cut strategy to correct a mutation in the DMD mouse model with exon 8-34 deletion, encompassing the N-terminal actin-binding domain. We report successful excision of the 100-kb genomic sequence, which includes exons 6 and 7, and partial improvement in cardiorespiratory function. While corrected mRNA was abundant in muscle tissues, only a low level of truncated dystrophin was produced, possibly because of protein instability. Furthermore, CRISPR-Cas9-mediated genome editing upregulated the Dp71f dystrophin isoform on the sarcolemma. Given the previously reported Dp71-associated muscle pathology, our results question the applicability of genome editing strategies for some DMD patients with N-terminal mutations. The safety and efficacy of CRISPR-Cas9 constructs require rigorous investigation in patient-specific animal models.

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